Good Plastic Auto Moulding Production pictures

Good Plastic Auto Moulding Production pictures

A handful of nice plastic auto moulding production pictures I discovered:

1973 Citroen DS23 Pallas
plastic auto moulding production
Image by DVS1mn
CITROEN DS23 PALLAS
When in 1955 Citroen released its DS19 ‘Goddess’, media commentators reviewed the vehicle in tones previously reserved for objects arriving from the depths of outer space.

Hydro-pneumatic suspension, assistance systems for the steering, brakes and gearshift lever, and inboard front disc brakes were among the advances pioneered by this extraordinary design.

By 1968 the rest of the globe had begun adopting aspects of Citroen’s radical package nonetheless, Citroen wasn’t finished exploring the variety of quirks it could pack into a medium-sized sedan. One particular new function to perplex the home mechanic was a hyperlink that would swivel headlights in unison with the front wheels.

The car’s capability to traverse rough terrain was proved in 1969 when a Citroen was set to win the first London-Sydney Marathon, only to be taken out in a critical collision with a spectator vehicle. Five years later, the Australian crew of a DS23 got the job done, dominating a 1974 World Cup Rally that sent competitors from South America to Munich by way of the Sahara Desert.

Sustaining a DS is perform for specialist technicians or probably the seriously talented amateur. There is barely area below the bonnet of a Pallas to see engine components, let alone put a spanner on them.

Three-speed automatics were plagued by troubles and stay challenging to keep, so get a 5-speed manual if you can. Overseas values are supplying a large hint that anybody who wants a actually great Pallas demands to act quickly. Be prepared to invest the better element of ,000. Of numerous thousand automobiles sold new in Britain, fewer than 300 are known to survive and numbers in Australia will be far slimmer.

TRAPS AND Ideas

Packing a mass of electro/mechanical/hydraulic bits plus the total drivetrain into a tiny space ahead of the firewall didn’t assist Citroen’s reputation for reliability.

Maintaining your Citroen cool is crucial to engine longevity and that can be costly. A single spare components web site was quoting genuine but renovated radiators at a lot more than 00. Replacing the coolant hoses with a set of genuine items will cost a lot more than .

Citroen club internet sites of late have carried requests for help in locating a competent trimmer for DS models. This suggests that discovering someone to repair a car with worn seats and compromised head-lining has turn into challenging.

FROM THE WHEELS ARCHIVES
Words: Paul Blank – January, 2005

The DS was spectacularly bold, wrote Paul Blank…

When the time came to replace the Traction Avant, the resulting auto could be expected to be absolutely remarkable – and it was.

The new auto, launched at the Paris Salon in 1955, was referred to as DS, which, when pronounced in French, is &quotDay-ess&quot, which translates to Goddess. At the Paris Salon an amazing quantity of orders have been taken for the new vehicle – some 12,000 people signing on the dotted line.

In 1955 Australians had been purchasing new FJ Holdens and the Morris Minor was considered a modern day little vehicle in England. The DS may as well have been a spaceship in comparison. It certainly looked like
absolutely nothing else.

The automobile floated along at any speed. Famously, the DS featured Hydropneumatic suspension. It had the cars sitting on suspension units which have been steel spheres in location of classic springs and shock absorbers. The ride in a DS has to be knowledgeable to be believed. Even if a tyre blew, the car would compensate.

One more DS feature was the use of disc brakes. It was Citroen which very first fitted them to a mass-production vehicle.

Inside, the DS was as spectacularly bold as the rest of the auto. In an era of flat tin or wood dashboards, Citroen used the largest single piece of moulded plastic in the world. The DS in not a complex automobile just quite various.

You know the car’s prepared when very first the back, then the front of the automobile lift up to standard ride height. To modify gear, you lift off, switch to the next gear and accelerate away again. Then you have to discover about the brakes. Exactly where you may count on a brake pedal, there’s a black rubber mushroom. It operates like a valve operating by the &quotthe tougher you push, the far more you stop&quot method, with virtually no pedal travel offered.

The DS isn’t a sports car it is a genuine Grand Tourer and, treated as such, offers a magical expertise.

SPECIFICATIONS

Citroen DS23 Pallas

Quantity constructed: 582,593 (All ID/DS 1968-75)
Body: All-steel, integrated physique/chassis four-door sedan and station wagon
Engine: 2347cc inline four-cylinder, OHV, 8v, fuel injection
Power &amp torque: 105kW @ 5500rpm, 200Nm @ 4000rpm
Performance: -97km/h 10.2sec -400m 17.3sec
Transmission: 3-speed automatic, 5-speed manual
Suspension: Independent with wishbones, pneumatic struts and anti-roll bar (f) Independent with trailing arms, pneumatic struts and anti-roll bar (r)
Brakes: Discs, power-assisted
Tyres: 185HR15 radial
Value range: 00-,000
Contact: Citroen Clubs in a variety of states,
www.ds23.co.nz/
Click right here for more automobile pictures at my Flickr web site.

1973 Citroen DS23 Pallas
plastic auto moulding production
Image by DVS1mn
CITROEN DS23 PALLAS
When in 1955 Citroen released its DS19 ‘Goddess’, media commentators reviewed the vehicle in tones previously reserved for objects arriving from the depths of outer space.

Hydro-pneumatic suspension, help systems for the steering, brakes and gearshift lever, and inboard front disc brakes were amongst the advances pioneered by this extraordinary design and style.

By 1968 the rest of the planet had begun adopting elements of Citroen’s radical package nevertheless, Citroen wasn’t completed exploring the range of quirks it could pack into a medium-sized sedan. One new feature to perplex the residence mechanic was a link that would swivel headlights in unison with the front wheels.

The car’s potential to traverse rough terrain was proved in 1969 when a Citroen was set to win the very first London-Sydney Marathon, only to be taken out in a significant collision with a spectator car. Five years later, the Australian crew of a DS23 got the job done, dominating a 1974 Planet Cup Rally that sent competitors from South America to Munich by way of the Sahara Desert.

Maintaining a DS is perform for specialist technicians or maybe the seriously talented amateur. There is barely area beneath the bonnet of a Pallas to see engine elements, let alone place a spanner on them.

3-speed automatics were plagued by issues and remain difficult to preserve, so get a 5-speed manual if you can. Overseas values are offering a huge hint that any individual who wants a really excellent Pallas needs to act quickly. Be prepared to invest the far better part of ,000. Of many thousand automobiles sold new in Britain, fewer than 300 are identified to survive and numbers in Australia will be far slimmer.

TRAPS AND Suggestions

Packing a mass of electro/mechanical/hydraulic bits plus the complete drivetrain into a small space ahead of the firewall didn’t aid Citroen’s reputation for reliability.

Keeping your Citroen cool is vital to engine longevity and that can be pricey. A single spare components website was quoting authentic but renovated radiators at a lot more than 00. Replacing the coolant hoses with a set of genuine products will cost a lot more than .

Citroen club web sites of late have carried requests for assist in locating a competent trimmer for DS models. This suggests that finding a person to repair a car with worn seats and compromised head-lining has turn into challenging.

FROM THE WHEELS ARCHIVES
Words: Paul Blank – January, 2005

The DS was spectacularly bold, wrote Paul Blank…

When the time came to replace the Traction Avant, the resulting automobile could be expected to be absolutely remarkable – and it was.

The new auto, launched at the Paris Salon in 1955, was named DS, which, when pronounced in French, is &quotDay-ess&quot, which translates to Goddess. At the Paris Salon an wonderful number of orders have been taken for the new automobile – some 12,000 men and women signing on the dotted line.

In 1955 Australians have been purchasing new FJ Holdens and the Morris Minor was regarded a modern day small auto in England. The DS may as well have been a spaceship in comparison. It certainly looked like
nothing else.

The auto floated along at any speed. Famously, the DS featured Hydropneumatic suspension. It had the vehicles sitting on suspension units which were steel spheres in spot of standard springs and shock absorbers. The ride in a DS has to be knowledgeable to be believed. Even if a tyre blew, the auto would compensate.

Yet another DS feature was the use of disc brakes. It was Citroen which initial fitted them to a mass-production automobile.

Inside, the DS was as spectacularly bold as the rest of the car. In an era of flat tin or wood dashboards, Citroen used the greatest single piece of moulded plastic in the planet. The DS in not a complicated auto just really diverse.

You know the car’s ready when 1st the back, then the front of the car lift up to typical ride height. To change gear, you lift off, switch to the subsequent gear and accelerate away once again. Then you have to understand about the brakes. Exactly where you may count on a brake pedal, there’s a black rubber mushroom. It works like a valve operating by the &quotthe tougher you push, the much more you stop&quot program, with virtually no pedal travel accessible.

The DS is not a sports automobile it is a actual Grand Tourer and, treated as such, gives a magical knowledge.

SPECIFICATIONS

Citroen DS23 Pallas

Number built: 582,593 (All ID/DS 1968-75)
Physique: All-steel, integrated body/chassis four-door sedan and station wagon
Engine: 2347cc inline 4-cylinder, OHV, 8v, fuel injection
Power &amp torque: 105kW @ 5500rpm, 200Nm @ 4000rpm
Functionality: -97km/h 10.2sec -400m 17.3sec
Transmission: 3-speed automatic, 5-speed manual
Suspension: Independent with wishbones, pneumatic struts and anti-roll bar (f) Independent with trailing arms, pneumatic struts and anti-roll bar (r)
Brakes: Discs, energy-assisted
Tyres: 185HR15 radial
Value range: 00-,000
Contact: Citroen Clubs in different states,
www.ds23.co.nz/
Click right here for far more auto photos at my Flickr site.

Cool Auto Molds Made In China pictures

Cool Auto Molds Made In China pictures

Verify out these auto molds made in china pictures:

Steven F. Udvar-Hazy Center: View of south hangar, such as B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and a lot of other folks
auto molds made in china
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the 1st bomber to residence its crew in pressurized compartments. Though made to fight in the European theater, the B-29 discovered its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-constructed B-29-45-MO dropped the first atomic weapon utilized in combat on Hiroshima, Japan. 3 days later, Bockscar (on display at the U.S. Air Force Museum close to Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance climate reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
General: 900 x 3020cm, 32580kg, 4300cm (29ft 6 five/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished all round aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish all round, normal late-Globe War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on lower left nose.

China Auto Mold: Rise in the field of Technologies

China Auto Mold: Rise in the field of Technologies

Due to the advancement in manufacturing field, the utilization of the steel copper alloy has reached almost one hundred percent. And due to which the china auto molding sector has changed the manufacturing approach from rough shaping of the material to the net shaping processing so that it gains a higher efficiency supplying the material at low expense and light weight. And the use of net shape manufacturing technique helped the existing china auto mold industries to save power and components so that it could provide effective sliding bearing accessories which could additional aid in the improvement of china’s automotive market.

China has been gaining higher recognition considering that past handful of decades in it automobile business. Although, some fundamental parts like axes guide, thrust washers, bearing bush and car mold parts and their requirements are primarily dependent on imports that can bring the favorable golden possibilities and the great challenges to the other Chinese based manufacturers and china auto mold supplier industries. Software program used by them: Unigraphics, Pro-E, Solidworks, Moldflow. They have the higher precision tooling machine with the operating group with project department, top quality department and processing department devoted in the whole order processing manage. China auto mold has their own division for project study and new item development.
According to Liu Depu, the Secretary-General of Shanghai Die &amp Mould Market Association, the Chinese mould market will present ten trends in the future.

1.The very first one particular is that mould products are increasingly larger.
two.The second trend is that the precision of the mold will be greater.
three.The third trend is that the multi-functional mould complicated will be further created.
four.Fourthly, the proportion of hot runner Molds are steadily enhanced.
five.Fifthly, some new moulds that adapt to higher-stress injection and molding will be developed with the continuous improvement of plastic molding process.
six.The sixth one is that the application of regular parts will be much more extensive.
7.Seventhly, the prospect for rapid Economic molds are very broad. These days is the era of several varieties of small batch production.
eight.Eighthly, the ratio of die-casting molds will continue to boost with the development of cars and electrical items.
9.The ninth a single is that the proportion of plastic molds will continue to boost.
10.The tenth is that the technical content of mould items will continue to be enhanced.

Presently, the china auto mold supplier industries have left behind all the standard bi-metal bearing manufacturing technology as it will have the very best independent intellectual house of china by adopting the far more energy and material saving technology. The unique china auto mold supplier industry uses the least investment and usage of equipments. Therefore, it is serving as an exceptional and grand opportunity to be grabbed for improvement.

Ravi Kumar is an knowledgeable writer and blogger. Hello Pals, I have written my view on the China Auto Mold business. Have a look. For far more data go to our web site. Comply with at twitter(@automotivemould) for standard updates.

A lot more Plastic Auto Mold Articles

1989 Mercedes 190E Auto

1989 Mercedes 190E Auto

Check out these auto mould manufacturing pictures:

1989 Mercedes 190E Auto
auto mould manufacturing
Image by charlie vehicles
Hunting rather forgotten, this Mercedes has been unlicensed because 2005, almost 10 years. It’s probably been sitting in this spot for a while, judging by the mould and common situation. I never see as well many Mercs with the badge on the grille anymore. I like the &quotno parking&quot writing behind, don’t feel any individual will be capable to take this space! Fascinating Northern Irish registration, or perhaps just a low-cost private?

The automobile details for PAZ 3152 are:

Date of Liability 12 04 2005
Date of Initial Registration 25 08 1989
Year of Manufacture 1989
Cylinder Capacity (cc) 1997cc
CO₂ Emissions Not Accessible
Fuel Sort PETROL
Export Marker N
Automobile Status Unlicensed
Automobile Colour BLACK
Vehicle Variety Approval Not Offered

Nice Plastic Auto Wheel Cover Mould photos

Nice Plastic Auto Wheel Cover Mould photos

A couple of good plastic auto wheel cover mould photos I found:

Steven F. Udvar-Hazy Center: British Hawker Hurricane, with P-38 Lightning and B-29 Enola Gay behind it
plastic auto wheel cover mould
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Hawker Hurricane Mk. IIC:

Hawker Chief Designer Sydney Camm’s Hurricane ranks with the most important aircraft designs in military aviation history. Made in the late 1930s, when monoplanes had been considered unstable and as well radical to be successful, the Hurricane was the 1st British monoplane fighter and the initial British fighter to exceed 483 kilometers (300 miles) per hour in level flight. Hurricane pilots fought the Luftwaffe and helped win the Battle of Britain in the summer of 1940.

This Mark IIC was constructed at the Langley factory, close to what is now Heathrow Airport, early in 1944. It served as a education aircraft in the course of the World War II in the Royal Air Force’s 41 OTU.

Donated by the Royal Air Force Museum

Manufacturer:
Hawker Aircraft Ltd.

Date:
1944

Nation of Origin:
United Kingdom

Dimensions:
Wingspan: 12.2 m (40 ft)
Length: 9.eight m (32 ft three in)
Height: four m (13 ft)
Weight, empty: 2,624 kg (5,785 lb)
Weight, gross: three,951 kg (8,710 lb)
Top speed:538 km/h (334 mph)
Engine:Rolls-Royce Merlin XX, liquid-cooled in-line V, 1,300 hp
Armament:4 20 mm Hispano cannons
Ordnance:two 250-lb or two 500-lb bombs or eight 3-in rockets

Components:
Fuselage: Steel tube with aircraft spruce types and fabric, aluminum cowling
Wings: Stressed Skin Aluminum
Horizontal Stablizer: Tension Skin aluminum
Rudder: fabric covered aluminum
Handle Surfaces: fabric covered aluminum

Physical Description:
Hawker Hurricane Mk. IIC single seat, low wing monoplane ground attack fighter enclosed cockpit steel tube fuselage with aircraft spruce types and fabric, aluminum cowling, stressed skin aluminum wings and horizontal stablizer, fabric covered aluminum rudder and control surfaces grey green camoflage leading surface paint scheme with dove grey underside red and blue national roundel on upper wing surface and red, white, and blue roundel reduced wing surface red, white, blue, and yellow roundel fuselage sides red, white and blue tail flash Rolls-Royce Merlin XX, liquid cooled V-12, 1,280 horsepower engine Armament, 4: 20mm Hispano cannons.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Planet War II and the initial bomber to house its crew in pressurized compartments. Despite the fact that developed to fight in the European theater, the B-29 discovered its niche on the other side of the globe. In the Pacific, B-29s delivered a range of aerial weapons: standard bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-constructed B-29-45-MO dropped the very first atomic weapon employed in combat on Hiroshima, Japan. Three days later, Bockscar (on show at the U.S. Air Force Museum close to Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on each missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
All round: 900 x 3020cm, 32580kg, 4300cm (29ft 6 five/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Components:
Polished all round aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish general, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial quantity on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on decrease left nose.

• • • • •

Quoting Smithsonian National Air and Space Museum | Lockheed P-38J-10-LO Lightning:

In the P-38 Lockheed engineer Clarence &quotKelly&quot Johnson and his team of designers developed 1 of the most profitable twin-engine fighters ever flown by any nation. From 1942 to 1945, U. S. Army Air Forces pilots flew P-38s over Europe, the Mediterranean, and the Pacific, and from the frozen Aleutian Islands to the sun-baked deserts of North Africa. Lightning pilots in the Pacific theater downed more Japanese aircraft than pilots flying any other Allied warplane.

Maj. Richard I. Bong, America’s leading fighter ace, flew this P-38J-10-LO on April 16, 1945, at Wright Field, Ohio, to evaluate an experimental strategy of interconnecting the movement of the throttle and propeller handle levers. Nonetheless, his appropriate engine exploded in flight ahead of he could conduct the experiment.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Business

Date:
1943

Nation of Origin:
United States of America

Dimensions:
General: 390 x 1170cm, 6345kg, 1580cm (12ft 9 9/16in. x 38ft four five/8in., 13988.2lb., 51ft 10 1/16in.)

Materials:
All-metal

Physical Description:
Twin-tail boom and twin-engine fighter tricycle landing gear.

Auto trim molding in automobile business

Auto trim molding in automobile business

DESCRIPTION: Now days there is large demand for plastic auto trim molding in the nearly all automobile industries. The makers primarily choose plastic as it is light weight which can be very easily employed in designing the car which eventually leads to saving a huge amount of power. This increases to the demand and popularity of the auto mold manufacturers. The plastic manufactured are obtainable in distinct designs and pattern which can be easily utilised for various molds and these molds are employed in various automobile industries.
AUTO MOLDS Attributes ARE AS FOLLOWS:

*Flexibility and reliability in design and style:
It is easy to locate a auto plastic trim mold marker in today’s marketplace. The market is complete of makers that manufacture different varieties of mold obtaining various shapes and style. Plastic is 1 of the major components that manufacture prefers for different molds design due to the fact of its light weight and flexibility and reliability. It can be effortlessly molded in distinct specified styles and shapes. Plastics give great chance for every sector particularly in automobile industries.

*Distinct Auto Components being manufactured:
An auto mold manufacturer is generally located to be involved with large numbers of companies that manufactures automobile in the market place. Diverse kinds of molds getting distinct shape and size are used for creating different car parts. These range from automobile interior parts, handle panel, breakingsystem, shockabsorber, spareparts, controlpanel, grilles and triangle and even numerous more components .These various components shape and style depends upon the mold becoming utilized. To satisfy the distinct user ends and needs the automobile manufacturer go for the design and style of the cars with the assist of these molds.

*Numerous professionals are involved:
It is not an easy process to make molds. A lot of difficulties are involved in making mold indeed machines are accessible which helps in producing the mold. Several authorities and skilled and engineers are involved in generating the completed products. The efforts of the complete group involved helps out in creating the solution which is of very good quality and sturdy. Several things are taken into the consideration whilst creating out the design and style and shape of the mold.
As a result, an auto plastic trim mold maker is in demand now days. Nonetheless, in the tough scenarios there is lot of competitors in the market place so it is essential for the producers to make the content material or finished product with a good quality. If manufacture compromise on top quality than he has to compromise on the profit that he can obtain effortlessly. Considering that a lot of products are becoming produced in the single cycle so the manufacture can simply get a huge quantity of profit on the items. The contribution of auto trim mold maker in the market can not be ignored ever in lifetime.

This is Radika Awasthi, an skilled content writer. I hope this post on Auto trim molding in automobile business will aids you a lot.An auto mold manufacturer is typically discovered to be involved with large numbers of businesses that manufactures automobile in the industry. Distinct kinds of molds having distinct shape and size are used for creating diverse auto components.

Associated Auto Molds Manufacturers Articles

Cool Auto Moulds China images

Cool Auto Moulds China images

Some cool auto moulds china images:

Steven F. Udvar-Hazy Center: P-38 Lightning, with B-29 Enola Gay behind it
auto moulds china
Image by Chris Devers

See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Lockheed P-38J-10-LO Lightning

In the P-38 Lockheed engineer Clarence "Kelly" Johnson and his team of designers created one of the most successful twin-engine fighters ever flown by any nation. From 1942 to 1945, U. S. Army Air Forces pilots flew P-38s over Europe, the Mediterranean, and the Pacific, and from the frozen Aleutian Islands to the sun-baked deserts of North Africa. Lightning pilots in the Pacific theater downed more Japanese aircraft than pilots flying any other Allied warplane.

Maj. Richard I. Bong, America’s leading fighter ace, flew this P-38J-10-LO on April 16, 1945, at Wright Field, Ohio, to evaluate an experimental method of interconnecting the movement of the throttle and propeller control levers. However, his right engine exploded in flight before he could conduct the experiment.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Company

Date:
1943

Country of Origin:
United States of America

Dimensions:
Overall: 390 x 1170cm, 6345kg, 1580cm (12ft 9 9/16in. x 38ft 4 5/8in., 13988.2lb., 51ft 10 1/16in.)

Materials:
All-metal

Physical Description:
Twin-tail boom and twin-engine fighter; tricycle landing gear.

Long Description:
From 1942 to 1945, the thunder of P-38 Lightnings was heard around the world. U. S. Army pilots flew the P-38 over Europe, the Mediterranean, and the Pacific; from the frozen Aleutian Islands to the sun-baked deserts of North Africa. Measured by success in combat, Lockheed engineer Clarence "Kelly" Johnson and a team of designers created the most successful twin-engine fighter ever flown by any nation. In the Pacific Theater, Lightning pilots downed more Japanese aircraft than pilots flying any other Army Air Forces warplane.

Johnson and his team conceived this twin-engine, single-pilot fighter airplane in 1936 and the Army Air Corps authorized the firm to build it in June 1937. Lockheed finished constructing the prototype XP-38 and delivered it to the Air Corps on New Year’s Day, 1939. Air Corps test pilot and P-38 project officer, Lt. Benjamin S. Kelsey, first flew the aircraft on January 27. Losing this prototype in a crash at Mitchel Field, New York, with Kelsey at the controls, did not deter the Air Corps from ordering 13 YP-38s for service testing on April 27. Kelsey survived the crash and remained an important part of the Lightning program. Before the airplane could be declared ready for combat, Lockheed had to block the effects of high-speed aerodynamic compressibility and tail buffeting, and solve other problems discovered during the service tests.

The most vexing difficulty was the loss of control in a dive caused by aerodynamic compressibility. During late spring 1941, Air Corps Major Signa A. Gilke encountered serious trouble while diving his Lightning at high-speed from an altitude of 9,120 m (30,000 ft). When he reached an indicated airspeed of about 515 kph (320 mph), the airplane’s tail began to shake violently and the nose dropped until the dive was almost vertical. Signa recovered and landed safely and the tail buffet problem was soon resolved after Lockheed installed new fillets to improve airflow where the cockpit gondola joined the wing center section. Seventeen months passed before engineers began to determine what caused the Lightning’s nose to drop. They tested a scale model P-38 in the Ames Laboratory wind tunnel operated by the NACA (National Advisory Committee for Aeronautics) and found that shock waves formed when airflow over the wing leading edges reached transonic speeds. The nose drop and loss of control was never fully remedied but Lockheed installed dive recovery flaps under each wing in 1944. These devices slowed the P-38 enough to allow the pilot to maintain control when diving at high-speed.

Just as the development of the North American P-51 Mustang, Republic P-47 Thunderbolt, and the Vought F4U Corsair (see NASM collection for these aircraft) pushed the limits of aircraft performance into unexplored territory, so too did P-38 development. The type of aircraft envisioned by the Lockheed design team and Air Corps strategists in 1937 did not appear until June 1944. This protracted shakedown period mirrors the tribulations suffered by Vought in sorting out the many technical problems that kept F4U Corsairs off U. S. Navy carrier decks until the end of 1944.

Lockheed’s efforts to trouble-shoot various problems with the design also delayed high-rate, mass production. When Japan attacked Pearl Harbor, the company had delivered only 69 Lightnings to the Army. Production steadily increased and at its peak in 1944, 22 sub-contractors built various Lightning components and shipped them to Burbank, California, for final assembly. Consolidated-Vultee (Convair) subcontracted to build the wing center section and the firm later became prime manufacturer for 2,000 P-38Ls but that company’s Nashville plant completed only 113 examples of this Lightning model before war’s end. Lockheed and Convair finished 10,038 P-38 aircraft including 500 photo-reconnaissance models. They built more L models, 3,923, than any other version.

To ease control and improve stability, particularly at low speeds, Lockheed equipped all Lightnings, except a batch ordered by Britain, with propellers that counter-rotated. The propeller to the pilot’s left turned counter-clockwise and the propeller to his right turned clockwise, so that one propeller countered the torque and airflow effects generated by the other. The airplane also performed well at high speeds and the definitive P-38L model could make better than 676 kph (420 mph) between 7,600 and 9,120 m (25,000 and 30,000 ft). The design was versatile enough to carry various combinations of bombs, air-to-ground rockets, and external fuel tanks. The multi-engine configuration reduced the Lightning loss-rate to anti-aircraft gunfire during ground attack missions. Single-engine airplanes equipped with power plants cooled by pressurized liquid, such as the North American P-51 Mustang (see NASM collection), were particularly vulnerable. Even a small nick in one coolant line could cause the engine to seize in a matter of minutes.

The first P-38s to reach the Pacific combat theater arrived on April 4, 1942, when a version of the Lightning that carried reconnaissance cameras (designated the F-4), joined the 8th Photographic Squadron based in Australia. This unit launched the first P-38 combat missions over New Guinea and New Britain during April. By May 29, the first 25 P-38s had arrived in Anchorage, Alaska. On August 9, pilots of the 343rd Fighter Group, Eleventh Air Force, flying the P-38E, shot down a pair of Japanese flying boats.

Back in the United States, Army Air Forces leaders tried to control a rumor that Lightnings killed their own pilots. On August 10, 1942, Col. Arthur I. Ennis, Chief of U. S. Army Air Forces Public Relations in Washington, told a fellow officer "… Here’s what the 4th Fighter [training] Command is up against… common rumor out there that the whole West Coast was filled with headless bodies of men who jumped out of P-38s and had their heads cut off by the propellers." Novice Lightning pilots unfamiliar with the correct bailout procedures actually had more to fear from the twin-boom tail, if an emergency dictated taking to the parachute but properly executed, Lightning bailouts were as safe as parachuting from any other high-performance fighter of the day. Misinformation and wild speculation about many new aircraft was rampant during the early War period.

Along with U. S. Navy Grumman F4F Wildcats (see NASM collection) and Curtiss P-40 Warhawks (see NASM collection), Lightnings were the first American fighter airplanes capable of consistently defeating Japanese fighter aircraft. On November 18, men of the 339th Fighter Squadron became the first Lightning pilots to attack Japanese fighters. Flying from Henderson Field on Guadalcanal, they claimed three during a mission to escort Boeing B-17 Flying Fortress bombers (see NASM collection).

On April 18, 1943, fourteen P-38 pilots from the 70th and the 339th Fighter Squadrons, 347th Fighter Group, accomplished one of the most important Lightning missions of the war. American ULTRA cryptanalysts had decoded Japanese messages that revealed the timetable for a visit to the front by the commander of the Imperial Japanese Navy, Admiral Isoroku Yamamoto. This charismatic leader had crafted the plan to attack Pearl Harbor and Allied strategists believed his loss would severely cripple Japanese morale. The P-38 pilots flew 700 km (435 miles) at heights from 3-15 m (10-50 feet) above the ocean to avoid detection. Over the coast of Bougainville, they intercepted a formation of two Mitsubishi G4M BETTY bombers (see NASM collection) carrying the Admiral and his staff, and six Mitsubishi A6M Zero fighters (see NASM collection) providing escort. The Lightning pilots downed both bombers but lost Lt. Ray Hine to a Zero.

In Europe, the first Americans to down a Luftwaffe aircraft were Lt. Elza E. Shahan flying a 27th Fighter Squadron P-38E, and Lt. J. K. Shaffer flying a Curtiss P-40 (see NASM collection) in the 33rd Fighter Squadron. The two flyers shared the destruction of a Focke-Wulf Fw 200C-3 Condor maritime strike aircraft over Iceland on August 14, 1942. Later that month, the 1st fighter group accepted Lightnings and began combat operations from bases in England but this unit soon moved to fight in North Africa. More than a year passed before the P-38 reappeared over Western Europe. While the Lightning was absent, U. S. Army Air Forces strategists had relearned a painful lesson: unescorted bombers cannot operate successfully in the face of determined opposition from enemy fighters. When P-38s returned to England, the primary mission had become long-range bomber escort at ranges of about 805 kms (500 miles) and at altitudes above 6,080 m (20,000 ft).

On October 15, 1943, P-38H pilots in the 55th Fighter Group flew their first combat mission over Europe at a time when the need for long-range escorts was acute. Just the day before, German fighter pilots had destroyed 60 of 291 Eighth Air Force B-17 Flying Fortresses (see NASM collection) during a mission to bomb five ball-bearing plants at Schweinfurt, Germany. No air force could sustain a loss-rate of nearly 20 percent for more than a few missions but these targets lay well beyond the range of available escort fighters (Republic P-47 Thunderbolt, see NASM collection). American war planners hoped the long-range capabilities of the P-38 Lightning could halt this deadly trend, but the very high and very cold environment peculiar to the European air war caused severe power plant and cockpit heating difficulties for the Lightning pilots. The long-range escort problem was not completely solved until the North American P-51 Mustang (see NASM collection) began to arrive in large numbers early in 1944.

Poor cockpit heating in the H and J model Lightnings made flying and fighting at altitudes that frequently approached 12,320 m (40,000 ft) nearly impossible. This was a fundamental design flaw that Kelly Johnson and his team never anticipated when they designed the airplane six years earlier. In his seminal work on the Allison V-1710 engine, Daniel Whitney analyzed in detail other factors that made the P-38 a disappointing airplane in combat over Western Europe.

• Many new and inexperienced pilots arrived in England during December 1943, along with the new J model P-38 Lightning.

• J model rated at 1,600 horsepower vs. 1,425 for earlier H model Lightnings. This power setting required better maintenance between flights. It appears this work was not done in many cases.

• During stateside training, Lightning pilots were taught to fly at high rpm settings and low engine manifold pressure during cruise flight. This was very hard on the engines, and not in keeping with technical directives issued by Allison and Lockheed.

• The quality of fuel in England may have been poor, TEL (tetraethyl lead) fuel additive appeared to condense inside engine induction manifolds, causing detonation (destructive explosion of fuel mixture rather than controlled burning).

• Improved turbo supercharger intercoolers appeared on the J model P-38. These devices greatly reduced manifold temperatures but this encouraged TEL condensation in manifolds during cruise flight and increased spark plug fouling.

Using water injection to minimize detonation might have reduced these engine problems. Both the Republic P-47 Thunderbolt and the North American P-51 Mustang (see NASM collection) were fitted with water injection systems but not the P-38. Lightning pilots continued to fly, despite these handicaps.

During November 1942, two all-Lightning fighter groups, the 1st and the 14th, began operating in North Africa. In the Mediterranean Theater, P-38 pilots flew more sorties than Allied pilots flying any other type of fighter. They claimed 608 enemy a/c destroyed in the air, 123 probably destroyed and 343 damaged, against the loss of 131 Lightnings.

In the war against Japan, the P-38 truly excelled. Combat rarely occurred above 6,080 m (20,000 ft) and the engine and cockpit comfort problems common in Europe never plagued pilots in the Pacific Theater. The Lightning’s excellent range was used to full advantage above the vast expanses of water. In early 1945, Lightning pilots of the 12th Fighter Squadron, 18th Fighter Group, flew a mission that lasted 10 ½ hours and covered more than 3,220 km (2,000 miles). In August, P-38 pilots established the world’s long-distance record for a World War II combat fighter when they flew from the Philippines to the Netherlands East Indies, a distance of 3,703 km (2,300 miles). During early 1944, Lightning pilots in the 475th Fighter Group began the ‘race of aces.’ By March, Lieutenant Colonel Thomas J. Lynch had scored 21 victories before he fell to antiaircraft gunfire while strafing enemy ships. Major Thomas B. McGuire downed 38 Japanese aircraft before he was killed when his P-38 crashed at low altitude in early January 1945. Major Richard I. Bong became America’s highest scoring fighter ace (40 victories) but died in the crash of a Lockheed P-80 (see NASM collection) on August 6, 1945.

Museum records show that Lockheed assigned the construction number 422-2273 to the National Air and Space Museum’s P-38. The Army Air Forces accepted this Lightning as a P-38J-l0-LO on November 6, 1943, and the service identified the airplane with the serial number 42-67762. Recent investigations conducted by a team of specialists at the Paul E. Garber Facility, and Herb Brownstein, a volunteer in the Aeronautics Division at the National Air and Space Museum, have revealed many hitherto unknown aspects to the history of this aircraft.

Brownstein examined NASM files and documents at the National Archives. He discovered that a few days after the Army Air Forces (AAF) accepted this airplane, the Engineering Division at Wright Field in Dayton, Ohio, granted Lockheed permission to convert this P-38 into a two-seat trainer. The firm added a seat behind the pilot to accommodate an instructor who would train civilian pilots in instrument flying techniques. Once trained, these test pilots evaluated new Lightnings fresh off the assembly line.

In a teletype sent by the Engineering Division on March 2, 1944, Brownstein also discovered that this P-38 was released to Colonel Benjamin S. Kelsey from March 3 to April 10, 1944, to conduct special tests. This action was confirmed the following day in a cable from the War Department. This same pilot, then a Lieutenant, flew the XP-38 across the United States in 1939 and survived the crash that destroyed this Lightning at Mitchel Field, New York. In early 1944, Kelsey was assigned to the Eighth Air Force in England and he apparently traveled to the Lockheed factory at Burbank to pick up the P-38. Further information about these tests and Kelsey’s involvement remain an intriguing question.

One of Brownstein’s most important discoveries was a small file rich with information about the NASM Lightning. This file contained a cryptic reference to a "Major Bong" who flew the NASM P-38 on April 16, 1945, at Wright Field. Bong had planned to fly for an hour to evaluate an experimental method of interconnecting the movement of the throttle and propeller control levers. His flight ended after twenty-minutes when "the right engine blew up before I had a chance [to conduct the test]." The curator at the Richard I. Bong Heritage Center confirmed that America’s highest scoring ace made this flight in the NASM P-38 Lightning.

Working in Building 10 at the Paul E. Garber Facility, Rob Mawhinney, Dave Wilson, Wil Lee, Bob Weihrauch, Jim Purton, and Heather Hutton spent several months during the spring and summer of 2001 carefully disassembling, inspecting, and cleaning the NASM Lightning. They found every hardware modification consistent with a model J-25 airplane, not the model J-10 painted in the data block beneath the artifact’s left nose. This fact dovetails perfectly with knowledge uncovered by Brownstein. On April 10, the Engineering Division again cabled Lockheed asking the company to prepare 42-67762 for transfer to Wright Field "in standard configuration." The standard P-38 configuration at that time was the P-38J-25. The work took several weeks and the fighter does not appear on Wright Field records until May 15, 1944. On June 9, the Flight Test Section at Wright Field released the fighter for flight trials aimed at collecting pilot comments on how the airplane handled.

Wright Field’s Aeromedical Laboratory was the next organization involved with this P-38. That unit installed a kit on July 26 that probably measured the force required to move the control wheel left and right to actuate the power-boosted ailerons installed in all Lightnings beginning with version J-25. From August 12-16, the Power Plant Laboratory carried out tests to measure the hydraulic pump temperatures on this Lightning. Then beginning September 16 and lasting about ten days, the Bombing Branch, Armament Laboratory, tested type R-3 fragmentation bomb racks. The work appears to have ended early in December. On June 20, 1945, the AAF Aircraft Distribution Office asked that the Air Technical Service Command transfer the Lightning from Wright Field to Altus Air Force Base, Oklahoma, a temporary holding area for Air Force museum aircraft. The P-38 arrived at the Oklahoma City Air Depot on June 27, 1945, and mechanics prepared the fighter for flyable storage.

Airplane Flight Reports for this Lightning also describe the following activities and movements:

6-21-45 Wright Field, Ohio, 5.15 hours of flying.
6-22-45Wright Field, Ohio, .35 minutes of flying by Lt. Col. Wendel [?] J. Kelley and P. Shannon.
6-25-45Altus, Oklahoma, .55 hours flown, pilot P. Shannon.
6-27-45Altus, Oklahoma, #2 engine changed, 1.05 hours flown by Air Corps F/O Ralph F. Coady.
10-5-45 OCATSC-GCAAF (Garden City Army Air Field, Garden City, Kansas), guns removed and ballast added.
10-8-45Adams Field, Little Rock, Arkansas.
10-9-45Nashville, Tennessee,
5-28-46Freeman Field, Indiana, maintenance check by Air Corps Capt. H. M. Chadhowere [sp]?
7-24-46Freeman Field, Indiana, 1 hour local flight by 1st Lt. Charles C. Heckel.
7-31-46 Freeman Field, Indiana, 4120th AAF Base Unit, ferry flight to Orchard Place [Illinois] by 1st Lt. Charles C. Heckel.

On August 5, 1946, the AAF moved the aircraft to another storage site at the former Consolidated B-24 bomber assembly plant at Park Ridge, Illinois. A short time later, the AAF transferred custody of the Lightning and more than sixty other World War II-era airplanes to the Smithsonian National Air Museum. During the early 1950s, the Air Force moved these airplanes from Park Ridge to the Smithsonian storage site at Suitland, Maryland.

• • •

Quoting from Wikipedia | Lockheed P-38 Lightning:

The Lockheed P-38 Lightning was a World War II American fighter aircraft built by Lockheed. Developed to a United States Army Air Corps requirement, the P-38 had distinctive twin booms and a single, central nacelle containing the cockpit and armament. Named "fork-tailed devil" by the Luftwaffe and "two planes, one pilot" by the Japanese, the P-38 was used in a number of roles, including dive bombing, level bombing, ground-attack, photo reconnaissance missions, and extensively as a long-range escort fighter when equipped with drop tanks under its wings.

The P-38 was used most successfully in the Pacific Theater of Operations and the China-Burma-India Theater of Operations as the mount of America’s top aces, Richard Bong (40 victories) and Thomas McGuire (38 victories). In the South West Pacific theater, the P-38 was the primary long-range fighter of United States Army Air Forces until the appearance of large numbers of P-51D Mustangs toward the end of the war. The P-38 was unusually quiet for a fighter, the exhaust muffled by the turbo-superchargers. It was extremely forgiving, and could be mishandled in many ways, but the rate of roll was too slow for it to excel as a dogfighter. The P-38 was the only American fighter aircraft in production throughout American involvement in the war, from Pearl Harbor to Victory over Japan Day.

Variants: Lightning in maturity: P-38J

The P-38J was introduced in August 1943. The turbo-supercharger intercooler system on previous variants had been housed in the leading edges of the wings and had proven vulnerable to combat damage and could burst if the wrong series of controls were mistakenly activated. In the P-38J model, the streamlined engine nacelles of previous Lightnings were changed to fit the intercooler radiator between the oil coolers, forming a "chin" that visually distinguished the J model from its predecessors. While the P-38J used the same V-1710-89/91 engines as the H model, the new core-type intercooler more efficiently lowered intake manifold temperatures and permitted a substantial increase in rated power. The leading edge of the outer wing was fitted with 55 gal (208 l) fuel tanks, filling the space formerly occupied by intercooler tunnels, but these were omitted on early P-38J blocks due to limited availability.

The final 210 J models, designated P-38J-25-LO, alleviated the compressibility problem through the addition of a set of electrically-actuated dive recovery flaps just outboard of the engines on the bottom centerline of the wings. With these improvements, a USAAF pilot reported a dive speed of almost 600 mph (970 km/h), although the indicated air speed was later corrected for compressibility error, and the actual dive speed was lower. Lockheed manufactured over 200 retrofit modification kits to be installed on P-38J-10-LO and J-20-LO already in Europe, but the USAAF C-54 carrying them was shot down by an RAF pilot who mistook the Douglas transport for a German Focke-Wulf Condor. Unfortunately the loss of the kits came during Lockheed test pilot Tony LeVier‘s four-month morale-boosting tour of P-38 bases. Flying a new Lightning named "Snafuperman" modified to full P-38J-25-LO specs at Lockheed’s modification center near Belfast, LeVier captured the pilots’ full attention by routinely performing maneuvers during March 1944 that common Eighth Air Force wisdom held to be suicidal. It proved too little too late because the decision had already been made to re-equip with Mustangs.

The P-38J-25-LO production block also introduced hydraulically-boosted ailerons, one of the first times such a system was fitted to a fighter. This significantly improved the Lightning’s rate of roll and reduced control forces for the pilot. This production block and the following P-38L model are considered the definitive Lightnings, and Lockheed ramped up production, working with subcontractors across the country to produce hundreds of Lightnings each month.

Noted P-38 pilots

Richard Bong and Thomas McGuire

The American ace of aces and his closest competitor both flew Lightnings as they tallied 40 and 38 victories respectively. Majors Richard I. "Dick" Bong and Thomas J. "Tommy" McGuire of the USAAF competed for the top position. Both men were awarded the Medal of Honor.

McGuire was killed in air combat in January 1945 over the Philippines, after racking up 38 confirmed kills, making him the second-ranking American ace. Bong was rotated back to the United States as America’s ace of aces, after making 40 kills, becoming a test pilot. He was killed on 6 August 1945, the day the atomic bomb was dropped on Japan, when his P-80 Shooting Star jet fighter flamed out on takeoff.

Charles Lindbergh

The famed aviator Charles Lindbergh toured the South Pacific as a civilian contractor for United Aircraft Corporation, comparing and evaluating performance of single- and twin-engined fighters for Vought. He worked to improve range and load limits of the F4U Corsair, flying both routine and combat strafing missions in Corsairs alongside Marine pilots. In Hollandia, he attached himself to the 475th FG flying P-38s so that he could investigate the twin-engine fighter. Though new to the machine, he was instrumental in extending the range of the P-38 through improved throttle settings, or engine-leaning techniques, notably by reducing engine speed to 1,600 rpm, setting the carburetors for auto-lean and flying at 185 mph (298 km/h) indicated airspeed which reduced fuel consumption to 70 gal/h, about 2.6 mpg. This combination of settings had been considered dangerous; it was thought it would upset the fuel mixture and cause an explosion. Everywhere Lindbergh went in the South Pacific, he was accorded the normal preferential treatment of a visiting colonel, though he had resigned his Air Corps Reserve colonel’s commission three years before. While with the 475th, he held training classes and took part in a number of Army Air Corps combat missions. On 28 July 1944, Lindbergh shot down a Mitsubishi Ki-51 "Sonia" flown expertly by the veteran commander of 73rd Independent Flying Chutai, Imperial Japanese Army Captain Saburo Shimada. In an extended, twisting dogfight in which many of the participants ran out of ammunition, Shimada turned his aircraft directly toward Lindbergh who was just approaching the combat area. Lindbergh fired in a defensive reaction brought on by Shimada’s apparent head-on ramming attack. Hit by cannon and machine gun fire, the "Sonia’s" propeller visibly slowed, but Shimada held his course. Lindbergh pulled up at the last moment to avoid collision as the damaged "Sonia" went into a steep dive, hit the ocean and sank. Lindbergh’s wingman, ace Joseph E. "Fishkiller" Miller, Jr., had also scored hits on the "Sonia" after it had begun its fatal dive, but Miller was certain the kill credit was Lindbergh’s. The unofficial kill was not entered in the 475th’s war record. On 12 August 1944 Lindbergh left Hollandia to return to the United States.

Charles MacDonald

The seventh-ranking American ace, Charles H. MacDonald, flew a Lightning against the Japanese, scoring 27 kills in his famous aircraft, the Putt Putt Maru.

Robin Olds

Main article: Robin Olds

Robin Olds was the last P-38 ace in the Eighth Air Force and the last in the ETO. Flying a P-38J, he downed five German fighters on two separate missions over France and Germany. He subsequently transitioned to P-51s to make seven more kills. After World War II, he flew F-4 Phantom IIs in Vietnam, ending his career as brigadier general with 16 kills.

Clay Tice

A P-38 piloted by Clay Tice was the first American aircraft to land in Japan after VJ-Day, when he and his wingman set down on Nitagahara because his wingman was low on fuel.

Antoine de Saint-Exupéry

Noted aviation pioneer and writer Antoine de Saint-Exupéry vanished in a F-5B-1-LO, 42-68223, c/n 2734, of Groupe de Chasse II/33, out of Borgo-Porreta, Bastia, Corsica, a reconnaissance variant of the P-38, while on a flight over the Mediterranean, from Corsica to mainland France, on 31 July 1944. His health, both physical and mental (he was said to be intermittently subject to depression), had been deteriorating and there had been talk of taking him off flight status. There have been suggestions (although no proof to date) that this was a suicide rather than an aircraft failure or combat loss. In 2000, a French scuba diver found the wreckage of a Lightning in the Mediterranean off the coast of Marseille, and it was confirmed in April 2004 as Saint-Exupéry’s F-5B. No evidence of air combat was found. In March 2008, a former Luftwaffe pilot, Horst Rippert from Jagdgruppe 200, claimed to have shot down Saint-Exupéry.

Adrian Warburton

The RAF’s legendary photo-recon "ace", Wing Commander Adrian Warburton DSO DFC, was the pilot of a Lockheed P-38 borrowed from the USAAF that took off on 12 April 1944 to photograph targets in Germany. W/C Warburton failed to arrive at the rendezvous point and was never seen again. In 2003, his remains were recovered in Germany from his wrecked USAAF P-38 Lightning.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress "Enola Gay":

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the first bomber to house its crew in pressurized compartments. Although designed to fight in the European theater, the B-29 found its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on display at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished overall aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin; 509th Composite Group markings painted in black; "Enola Gay" in black, block letters on lower left nose.

Cool China Auto Interior Mould photos

Cool China Auto Interior Mould photos

Some cool china auto interior mould images:

Steven F. Udvar-Hazy Center: View of south hangar, which includes B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and many other individuals
china auto interior mould
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Planet War II and the first bomber to home its crew in pressurized compartments. Even though developed to fight in the European theater, the B-29 discovered its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-built B-29-45-MO dropped the very first atomic weapon utilised in combat on Hiroshima, Japan. 3 days later, Bockscar (on show at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Fantastic Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Nation of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 five/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished general aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish all round, common late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on reduce left nose.

Steven F. Udvar-Hazy Center: View over Planet War Two aviation wing, such as Japanese planes and B-29 Enola Gay
china auto interior mould
Image by Chris Devers
See far more photographs of this, and the Wikipedia post.

Particulars, quoting from Smithsonian National Air and Space Museum: Steven F. Udvar-Hazy | Nakajima J1N1-S Gekko (Moonlight) IRVING:

Originally designed as a three-seat, daylight escort fighter plane by the Nakajima Aeroplane Business, Ltd., and flown in 1941, the IRVING was modified as a evening fighter in Could of 1943 and shot down two American B-17 bombers to prove its capability. The Gekko (which means moonlight) was redesigned to hold only two crewmen so that an upward firing gun could be mounted where the observer once sat. Nearly five hundred J1N1 aircraft, including prototypes, escort, reconnaissance, and evening fighters were constructed throughout World War II. A sizeable number had been also utilised as Kamikaze aircraft in the Pacific. The handful of that survived the war were scrapped by the Allies.

This J1N1 is the final remaining in the planet. It was transported from Japan to the U.S. exactly where it was flight tested by the U.S. Army Air Forces in 1946. The Gekko then flew to storage at Park Ridge, IL, and was transferred to the Smithsonian Institution. The restoration of this aircraft, completed in 1983, took much more than four years and 17,000 man-hours to accomplish.

Transferred from the United States Air Force.

Manufacturer:
Nakajima Hikoki K. K.

Date:
1942

Country of Origin:
Japan

Dimensions:
General: 15ft 1 1/8in. x 41ft 11 15/16in., 10670.3lb., 55ft 9 five/16in. (460 x 1280cm, 4840kg, 1700cm)

Materials:
All-metal, monocoque construction airplane

Physical Description:
Twin-engine, traditional layout with tailwheel-variety landing gear.
Armament: (two) 20 mm fixed upward firing cannon
Engines: (two) Nakajima Sakae 21 (NK1F, Ha35- 21) 14- cylinder air-cooled radial 1,130 horsepower (metric)

• • • • •

See much more photos of this, and the Wikipedia report.

Specifics, quoting from Smithsonian National Air and Space Museum: Steven F. Udvar-Hazy | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Globe War II and the very first bomber to house its crew in pressurized compartments. Even though designed to fight in the European theater, the B-29 discovered its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: standard bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-built B-29-45-MO dropped the 1st atomic weapon utilised in combat on Hiroshima, Japan. 3 days later, Bockscar (on show at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Wonderful Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
All round: 900 x 3020cm, 32580kg, 4300cm (29ft 6 five/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Components:
Polished general aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish general, regular late-Planet War II Army Air Forces insignia on wings and aft fuselage and serial quantity on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on decrease left nose.

Newest Plastic Auto Mold Supplier News

Newest Plastic Auto Mold Supplier News

Packard 901 Sedan (1932)
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Image by pedrosimoes7
Cascais Classic Motorshow, Cascais, Portugal

From Wikipedia, the free encyclopedia

PRODUCTSAUTOMOBILE

Packard was an American luxury automobile marque built by the Packard Motor Car Company of Detroit, Michigan, United States, and later by the Studebaker-Packard Corporation of South Bend, Indiana. The first Packard automobiles were produced in 1899, and the last in 1958, with one of the last concept cars built in 1956, the Packard Predictor.

HISTORY

1899–1905

Packard was founded by James Ward Packard, his brother William, and their partner, George Lewis Weiss, in the city of Warren, Ohio, where 400 Packard automobiles were built at their factory on Dana Street Northeast, from 1899 to 1903. A mechanical engineer, James Packard believed they could build a better horseless carriage than the Winton cars owned by Weiss, an important Winton stockholder, after Packard complained to Alexander Winton and offered suggestions for improvement, which were ignored; Packard’s first car was built in Warren, Ohio, on November 6, 1899.

Henry Bourne Joy, a member of one of Detroit’s oldest and wealthiest families, bought a Packard. Impressed by its reliability, he visited the Packards and soon enlisted a group of investors—including Truman Handy Newberry and Russell A. Alger Jr.

On October 2, 1902, this group refinanced and renamed the New York and Ohio Automobile Company as the Packard Motor Car Company, with James Packard as president. Alger later served as vice president.

Packard moved operations to Detroit soon after, and Joy became general manager (and later chairman of the board). An original Packard, reputedly the first manufactured, was donated by a grateful James Packard to his alma mater, Lehigh University, and is preserved there in the Packard Laboratory. Another is on display at the Packard Museum in Warren, Ohio.

In September, 1900, the Ohio Automobile Company was founded to produce Packard automobiles. These quickly gained an excellent reputation and the name was changed on October 13, 1902, to the Packard Motor Car Company.

In the beginning, all Packards had a single-cylinder engine until 1903. Packard vehicles featured innovations, including the modern steering wheel and, years later, the first production 12-cylinder engine, adapted from developing the Liberty L-12, and air-conditioning in a passenger car. Packard produced its "Twin Six" model series of 12-cylinder cars from 1915 to 1923.

While the Black Motor Company’s Black went as low as 5,Western Tool Works’ Gale Model A roadster was 0,the high-volume Oldsmobile Runabout went for 0, and the Cole 30 and Cole Runabout were US,500, Packard concentrated on cars with prices starting at ,600.

The marque developed a following among wealthy purchasers both in the United States and abroad, competing with European marques like Rolls-Royce and Mercedes Benz.

The 3,500,000-square-foot (330,000 m2) Packard plant on East Grand Boulevard in Detroit was located on over 40 acres (16 ha) of land. Designed by Albert Kahn Associates, it included the first use of reinforced concrete for industrial construction in Detroit and was considered the most modern automobile manufacturing facility in the world when opened in 1903. Its skilled craftsmen practiced over 80 trades. The dilapidated plant still stands, despite repeated fires.

The factory is in close proximity to the current General Motors Detroit/Hamtramck Assembly, which was the former site of the Dodge Vehicle factory from 1910 until 1980. Architect Kahn also designed the Packard Proving Grounds at Utica, Michigan.

1906–1930

Packard Fourth Series Six Model 426 Runabout (Roadster), 1927
From this beginning, through and beyond the 1930s, Packard-built vehicles were perceived as highly competitive among high-priced luxury American automobiles.

The company was commonly referred to as being one of the "Three Ps" of American motordom royalty, along with Pierce-Arrow of Buffalo, New York and Peerless of Cleveland, Ohio.

For most of its history, Packard was guided by its President and General Manager James Alvan Macauley, who also served as President of the National Automobile Manufacturers Association. Inducted into the Automobile Hall of Fame, Macauley made Packard the number one designer and producer of luxury automobiles in the United States. The marque was also highly competitive abroad, with markets in 61 countries. Gross income for the company was ,889,000 in 1928. Macauley was also responsible for the iconic Packard slogan, "ASK THE MAN WHO OWNS ONE".

In the 1920s, Packard exported more cars than any other in its price class, and in 1930, sold almost twice as many abroad as any other marque priced over 00.In 1931, 10 Packards were owned by Japan’s royal family. Between 1924 and 1930, Packard was also the top-selling luxury brand.

In addition to excellent luxury cars, Packard built trucks. A Packard truck carrying a three-ton load drove from New York City to San Francisco between 8 July and 24 August 1912. The same year, Packard had service depots in 104 cities.

The Packard Motor Corporation Building at Philadelphia, also designed by Albert Kahn, was built in 1910-1911. It was added to the National Register of Historic Places in 1980.

By 1931, Packards were also being produced in Canada.[20]

1931–1936

Entering the 1930s, Packard attempted to beat the stock market crash and subsequent Great Depression by manufacturing ever more opulent and expensive cars than it had prior to October 1929. While the Eight five-seater sedan had been the company’s top-seller for years,[21] the Twin Six, designed by Vincent,[22] was introduced for 1932, with prices starting at ,650 at the factory gate;[23] in 1933,[24] it would be renamed the Packard Twelve, a name it retained for the remainder of its run (through 1939). Also in 1931, Packard pioneered a system it called Ride Control, which made the hydraulic shock absorbers adjustable from within the car.[25] For one year only, 1932, Packard fielded an upper-medium-priced car, the Light Eight, at a base price of ,750, or 5 less than the standard Eight.[26]

1931 Ninth Series model 840
As an independent automaker, Packard did not have the luxury of a larger corporate structure absorbing its losses, as Cadillac did with GM and Lincoln with Ford. However, Packard did have a better cash position than other independent luxury marques. Peerless ceased production in 1932, changing the Cleveland manufacturing plant from producing cars to brewing beer for Carling Black Label Beer. By 1938, Franklin, Marmon, Ruxton, Stearns-Knight, Stutz, Duesenberg, and Pierce-Arrow had all closed.

A 1932 Ninth Series De Luxe Eight model 904 sedan-limousine
Packard also had one other advantage that some other luxury automakers did not: a single production line. By maintaining a single line and interchangeability between models, Packard was able to keep its costs down. Packard did not change cars as often as other manufacturers did at the time. Rather than introducing new models annually, Packard began using its own "Series" formula for differentiating its model changeovers in 1923. New model series did not debut on a strictly annual basis, with some series lasting nearly two years, and others lasting as short a time as seven months. In the long run, though, Packard averaged around one new series per year. By 1930, Packard automobiles were considered part of its Seventh Series. By 1942, Packard was in its Twentieth Series. The "Thirteenth Series" was omitted.

1934 Eleventh Series Eight model 1101 convertible sedan
To address the Depression, Packard started producing more affordable cars in the medium-price range. In 1935, the company introduced its first car under 00, the 120. Sales more than tripled that year and doubled again in 1936. To produce the 120, Packard built and equipped an entirely separate factory. By 1936, Packard’s labor force was divided nearly evenly between the high-priced "Senior" lines (Twelve, Super Eight, and Eight) and the medium-priced "Junior" models, although more than 10 times more Juniors were produced than Seniors. This was because the 120 models were built using thoroughly modern mass production techniques, while the Senior Packards used a great deal more hand labor and traditional craftsmanship. Although Packard almost certainly could not have survived the Depression without the highly successful Junior models,[27] they did have the effect of diminishing the Senior models’ exclusive image among those few who could still afford an expensive luxury car. The 120 models were more modern in basic design than the Senior models; for example, the 1935 Packard 120 featured independent front suspension and hydraulic brakes, features that would not appear on the Senior Packards until 1937.

1937–1941[edit]

1939 Packard Packard Twelve, 17th series

1941 Packard Custom Super Eight One-Eighty Formal sedan; 19th series, Model 1907

1941 Packard Station Wagon advertisement; either One-Ten Model 1900 or One-Twenty Model 1901
Packard was still the premier luxury automobile, even though the majority of cars being built were the 120 and Super Eight model ranges. Hoping to catch still more of the market, Packard decided to issue the Packard 115C in 1937, which was powered by Packard’s first six-cylinder engine since the Fifth Series cars in 1928. While the move to introduce the Six, priced at around 00,[28] was brilliant, for the car arrived just in time for the 1938 recession, it also tagged Packards as something less exclusive than they had been in the public’s mind, and in the long run hurt Packard’s reputation of building some of America’s finest luxury cars. The Six, redesignated 110 in 1940–41, continued for three years after the war, with many serving as taxicabs.[citation needed]

In 1939, Packard introduced Econo-Drive, a kind of overdrive, claimed able to reduce engine speed 27.8%; it could be engaged at any speed over 30 mph (48 km/h).[29] The same year, the company introduced a fifth, transverse shock absorber and made column shift (known as Handishift) available on the 120 and Six.[30]

1942–1945[edit]
In 1942, the Packard Motor Car Company converted to 100% war production.[31] During World War II, Packard again built airplane engines, licensing the Merlin engine from Rolls-Royce as the V-1650, which powered the famous P-51 Mustang fighter, ironically known as the "Cadillac of the Skies" by GIs in WWII.[32][33] Packard also built 1350-, 1400-, and 1500-hp V-12 marine engines for American PT boats (each boat used three) and some of Britain’s patrol boats. Packard ranked 18th among United States corporations in the value of wartime production contracts.[34]

By the end of the war in Europe, Packard Motor Car Company had produced over 55,000 combat engines. Sales in 1944 were 5,118,600. By May 6, 1945, Packard had a backlog on war orders of 8,000,000.[31]

1946–1956[edit]

Packard dealer in New York State, ca. 1950–1955
By the end of World War II, Packard was in excellent financial condition, but several management mistakes became ever more visible as time went on. Like other U.S. auto companies, Packard resumed civilian car production in late 1945, labelling them as 1946 models by modestly updating their 1942 models. As only tooling for the Clipper was at hand, the Senior-series cars were not rescheduled. One version of the story is that the Senior dies were left out in the elements to rust and were no longer usable. Another long-rumored tale is that Roosevelt gave Stalin the dies to the Senior series, but the ZiS-110 state limousines were a separate design.

Although the postwar Packards sold well, the ability to distinguish expensive models from lower-priced models disappeared as all Packards, whether sixes or eights, became virtually alike in styling. Further, amid a booming seller’s market, management had decided to direct the company more to volume middle-class models, thus concentrating on selling lower-priced cars instead of more expensive—and more profitable—models. Worse, they also tried to enter the taxi cab and fleet car market. The idea was to gain volume for the years ahead, but that target was missed: Packard simply was not big enough to offer a real challenge to the Big Three, and they lacked the deep pockets with which a parent company could shelter them, as well as the model lineup through which to spread the pricing.

As a result, Packard’s image as a luxury brand was further diluted. As Packard lost buyers of expensive cars, it could not find enough customers for the lesser models to compensate. The shortage of raw materials immediately after the war—which was felt by all manufacturers—hurt Packard more with its volume business than it would have had it had focused on the specialty luxury car market.

The Clipper became outdated as the new envelope bodies started appearing, led by Studebaker and Kaiser-Frazer. Had they been a European car maker, this would have meant nothing; they could have continued to offer the classic shape not so different from the later Rolls-Royce with its vertical grill. Although Packard was in solid financial shape as the war ended, they had not sold enough cars to pay the cost of tooling for the 1941 design. While most automakers were able to come out with new vehicles for 1948–49, Packard could not until 1951. They therefore updated by adding sheet metal to the existing body (which added 200 lb (91 kg) of curb weight).[citation needed] Six-cylinder cars were dropped for the home market, and a convertible was added. These new designs hid their relationship to the Clipper. Even that name was dropped—for a while.

The design chosen was a "bathtub" type. While this was considered futuristic during the war and the concept was taken further with the 1949 Nash—and survived for decades in the Saab 92-96 in Europe—the 1948–1950 Packard styling was polarizing. To some it was sleek and blended classic with modern; others nicknamed it the "pregnant elephant". Test driver for Modern Mechanix, Tom McCahill, referred to the newly designed Packard as "a goat" and "a dowager in a Queen Mary hat". Still, in this era, demand for any car was high, and Packard sold 92,000 vehicles for 1948 and 116,000 of the 1949 models.

Packard outsold Cadillac until about 1950; most sales were the midrange volume models. A buyer of a Super Eight paying a premium price did not enjoy seeing a lesser automobile with nearly all the Super Eight’s features, with just slight distinction in exterior styling. During this time, Cadillac was among the earliest U.S. makers to offer an automatic transmission (the Hydramatic in 1941), but Packard caught up with the Ultramatic, offered on top models in 1949 and all models from 1950 onward. Packard’s Ultramatic automatic transmission was the only one developed by an independent automaker was smoother than the GM Hydramatic, though acceleration was sluggish and owners were often tempted to put it into low gear for faster starts, which put extra strain on the transmission. However, while the Ultramatic was competitive, Packard was not able to immediately respond to Cadillac’s introduction of a powerful overhead valve V8 in 1949. Also, when a new body style was added in addition to standard sedans, coupes, and convertibles, Packard introduced a station wagon instead of a two-door hardtop in response to Cadillac’s Coupe DeVille. The Station Sedan, a wagon-like body that was mostly steel, with good deal of decorative wood in the back; only 3,864 were sold over its three years of production. Although the Custom Clippers and Custom Eights were built in its old tradition with craftsmanship and the best materials, all was not well. The combination of the lower priced Packards undermining sales and prestige of their higher end brethren, controversial styling, and some questionable marketing decisions, Packard seemed to lose focus on the luxury car market—relinquishing to a rising Cadillac. In 1950, sales dropped to 42,000 cars for the model year. When Packard’s president George T. Christopher announced the "bathtub" would get another facelift for 1951, influential parts of the management revolted. Christopher was forced to resign and loyal Packard treasurer Hugh Ferry became president.

The 1951 Packards were completely redesigned. Designer John Reinhart introduced a high-waisted, more squared-off profile that fit the contemporary styling trends of the era—very different from the design of 1948–50. New styling features included a one-piece windshield, a wrap-around rear window, small tailfins on the long-wheelbase models, a full-width grill, and "guideline fenders" with the hood and front fenders at the same height. The 122-inch (3,099 mm) wheelbase supported low-end 200-series standard and Deluxe two- and four-doors, and 250-series Mayfair hardtop coupes (Packard’s first) and convertibles. Upmarket 300 and Patrician 400 models rode a 127-inch (3,226 mm) wheelbase. The 200-series models were again low-end models and now included a low priced business coupe.

The 250, 300, and 400/Patricians were Packard’s flagship models and comprised the majority of production for that year. The Patrician was now the top-shelf Packard, replacing the Custom Eight line. Original plans were to equip it with a 356 cu in (5.8 L) engine, but the company decided that sales would probably not be high enough to justify producing the larger, more expensive power plant, and so instead the debored 327 cu in (5.4 L) (previously the middle engine) was used instead. While the smaller powerplant offered nearly equal performance in the new Packards to that of the 356, the move was seen by some as further denigrating Packard’s image as a luxury car.

Since 1951 was a quiet year with little new from the other auto manufacturers, Packard’s redesigned lineup sold nearly 101,000 cars. The 1951 Packards were a quirky mixture of the modern (the automatic transmissions) and aging (still using flathead inline eights when OHV V8 engines were rapidly becoming the norm). No domestic car lines had OHV V8s in 1948, but by 1955, every car line offered a version. The Packard inline eight, despite being an older design that lacked the power of Cadillac’s engines, was very smooth. When combined with an Ultramatic transmission, the drivetrain made for a nearly quiet and smooth experience on the road. However, it struggled to keep pace with the horsepower race. In May 1952, aging Packard president Hugh Ferry resigned and was succeeded by James J. Nance, a marketing hotshot recruited from Hotpoint to turn the stagnant company around (its main factory on Detroit’s East Grand Boulevard was operating at only 50% capacity). Nance worked to snag Korean War military contracts and turn around Packard’s badly diluted image. He declared that from now on, Packard would cease producing midpriced cars and build only luxury models to compete with Cadillac. As part of this strategy, Nance unveiled a low-production (only 750 made) glamour model for 1953, the Caribbean convertible. Competing directly with the other novelty ragtops of that year (Buick Skylark, Oldsmobile Fiesta, and Cadillac Eldorado), it was equally well received, and outsold its competition. However, overall sales declined in 1953. While the limited edition luxury models as the Caribbean convertible and the Patrician 400 Sedan, and the Derham custom formal sedan brought back some of the lost prestige from better days, the "high pocket" styling that had looked new two years earlier was no longer bringing people into the showrooms for the bread and butter Packards.

While American independent manufacturers like Packard did well during the early postwar period, supply had caught up with demand and by the early 1950s and they were increasingly challenged as the "Big Three"—General Motors, Ford, and Chrysler—battled intensely for sales in the economy, medium-priced, and luxury markets.[37] Those independents that remained alive in the early ’50s, merged. In 1953, Kaiser merged with Willys to become Kaiser-Willys. Nash and Hudson became American Motors (AMC). The strategy for these mergers included cutting costs and strengthening their sales organizations to meet the intense competition from the Big Three.

In 1953–54, Ford and GM waged a brutal sales war, cutting prices and forcing cars on dealers. While this had little effect on either company, it gravely damaged the independent automakers. Nash president George Mason thus proposed that the four major independents (Nash, Hudson, Packard, and Studebaker) all merge into one large outfit to be named American Motors Corporation. Mason held informal discussions with Nance to outline his strategic vision, and an agreement was reached for AMC to buy Packard’s Ultramatic transmissions and V8 engines, and they were used in 1955 Hudsons and Nashes. However, SPC’s Nance refused to consider merging with AMC unless he could take the top command position (Mason and Nance were former competitors as heads of the Kelvinator and Hotpoint appliance companies, respectively), but Mason’s grand vision of a Big Four American auto industry ended in October 1954 with his sudden death from a heart attack. A week after the death of Mason, the new president of AMC, George W. Romney, announced "there are no mergers under way either directly or indirectly".[39] Nevertheless, Romney continued with Mason’s commitment to buy components from SPC. Although Mason and Nance had previously agreed that SPC would purchase parts from AMC, it did not do so. Moreover, Packard’s engines and transmissions were comparatively expensive, so AMC began development of its own V8 engine, and replaced the outsourced unit by mid-1956.[40] Although Nash and Hudson merged along with Studebaker and Packard joining, the four-way merger Mason hoped for did not materialize. The S-P marriage (really a Packard buyout), proved to be a crippling mistake. Although Packard was still in fair financial shape, Studebaker was not, struggling with high overhead and production costs and needing the impossible figure of 250,000 cars a year to break even. Due diligence was placed behind "merger fever", and the deal was rushed. It became clear after the merger that Studebaker’s deteriorating financial situation put Packard’s survival at risk.

Nance had hoped for a total redesign in 1954, but the necessary time and money were lacking. Packard that year (total production 89,796) comprised the bread-and-butter Clipper line (the 250 series was dropped), Mayfair hardtop coupes and convertibles, and a new entry level long-wheelbase sedan named Cavalier. Among the Clippers was a novelty pillared coupe, the Sportster, styled to resemble a hardtop.

With time and money again lacking, 1954 styling was unchanged except for modified headlights and taillights, essentially trim items. A new hardtop named Pacific was added to the flagship Patrician series and all higher-end Packards sported a bored-out 359-cid engine. Air conditioning became available for the first time since 1942. Packard had introduced air conditioning in the 1930s. Clippers (which comprised over 80% of production) also got a hardtop model, Super Panama, but sales tanked, falling to only 31,000 cars.

The revolutionary new model Nance hoped for was delayed until 1955, partially because of Packard’s merger with Studebaker. Packard stylist Richard A. Teague was called upon by Nance to design the 1955 line, and to Teague’s credit, the 1955 Packard was indeed a sensation when it appeared. Not only was the body completely updated and modernized, but the suspension also was totally new, with torsion bars front and rear, along with an electric control that kept the car level regardless of load or road conditions. Crowning this stunning new design was Packard’s brand new ultra-modern overhead-valve V8, displacing 352 cu in (5.8 l), replacing the old, heavy, cast-iron side-valve straight-eight that had been used for decades. In addition, Packard offered the entire host of power, comfort, and convenience features, such as power steering and brakes, electric window lifts, and air conditioning (even in the Caribbean convertible), a Packard exclusive at the time. Sales rebounded to 101,000 for 1955, although that was a very strong year across the industry.

As the 1955 models went into production, an old problem flared up. Back in 1941, Packard had outsourced its bodies to Briggs Manufacturing. In December 1953, Briggs was sold to Chrysler, which notified Packard that they would need to find a new body supplier after the 1954 model year ended. Packard then leased a building on Conner Avenue from Chrysler, and moved its body-making and final assembly there. The facility proved too small and caused endless tie-ups and quality problems.[citation needed] Packard would have fared better building the bodies in its old, but amply-sized, main facility on East Grand Boulevard.[citation needed] Bad quality control hurt the company’s image and caused sales to plummet for 1956, though the problems had largely been resolved by that point.[citation needed] Additionally, a "brain drain" of talent away from Packard was underway, most notably John Z. DeLorean.[citation needed]

For 1956, the Clipper became a separate make, with Clipper Custom and Deluxe models available. Now the Packard-Clipper business model was a mirror to Lincoln-Mercury. "Senior" Packards were built in four body styles, each with a unique model name. Patrician was used for the four-door top of the line sedans, Four Hundred for the hardtop coupes, and Caribbean for the convertible and vinyl-roof two-door hardtop. In the spring of 1956, the Executive was introduced. Coming in a four-door sedan and a two-door hardtop, the Executive was aimed at the buyer who wanted a luxury car but could not justify Packard’s pricing. It was an intermediate model using the Packard name and the Senior models’ front end, but using the Clipper platform and rear fenders. This was to some confusing and went against what James Nance had been attempting for several years to accomplish, the separation of the Clipper line from Packard. However, as late as the cars’ introduction to the market, was there was reasoning for in 1957 this car was to be continued. It then became a baseline Packard on the all-new 1957 Senior shell. Clippers would share bodies with Studebaker from 1957.

Despite the new 1955/56 design, Cadillac continued to lead the luxury market, followed by Lincoln, Packard, and Imperial. Reliability problems with the automatic transmission and all electrical accessories further eroded the public’s opinion of Packard. Sales were good for 1955 compared to 1954. The year was also an industry banner year. Packard’s sales slid in 1956 due to the fit and finish of the 1955 models, and mechanical issues relating to the new engineering features. These defects cost Packard millions in recalls and tarnished a newly won image just in its infancy. Along with Studebaker sales dragging Packard down, things looked more terminal than ever for SPC.

For 1956, Teague kept the basic 1955 design, and added more styling touches to the body such as then−fashionable three toning. Headlamps hooded in a more radical style in the front fenders and a slight shuffling of chrome distinguished the 1956 models. "Electronic Push-button Ultramatic", which located transmission push buttons on a stalk on the steering column, proved trouble-prone, adding to the car’s negative reputation, possibly soon to become an orphan. Model series remained the same, but the V8 was now enlarged to 374 cu in (6.1 L) for Senior series, the largest in the industry. In the top-of-the-line Caribbean, that engine produced 310 hp (230 kW). Clippers continued to use the 352 engine. There were plans for an all−new 1957 line of Senior Packards based on the showcar Predictor. Clippers and Studebakers would also share many inner and outer body panels. (A private presentation of this 1957 new-car program was made to Wall Street’s investment bankers at the Waldorf-Astoria Hotel in New York in January 1956.) These models were in many ways far advanced from what would be produced by any automaker other at the time, save Chrysler, which would soon feel public wrath for its own poor quality issues after rushing its all−new 1957 lines into production. Nance was dismissed and moved to Ford as the head of the new Mercury-Edsel-Lincoln division. Although Nance tried everything, the company failed to secure funding for new retooling, forcing Packard to share Studebaker platforms and body designs. With no funding to retool for the advanced new models envisioned, SPC’s fate was sealed; the large Packard was effectively dead in an executive decision to kill "the car we could not afford to lose". The last fully-Packard-designed vehicle, a Patrician four-door sedan, rolled off the Conner Avenue assembly line on June 25, 1956.[citation needed]

1957–1958

In 1957, no more Packards were built in Detroit and the Clipper disappeared as a separate brand name. Instead, a Studebaker President–based car bearing the Packard Clipper nameplate appeared on the market, but sales were slow. Available in just two body styles, Town Sedan (four-door sedan) and Country Sedan (four-door station wagon), they were powered by Studebaker’s 289 cu in (4.7 l) V8 with a McCulloch supercharger, delivering the same 275 hp (205 kW) as the 1956 Clipper Custom, although at higher revolutions. Borrowing design cues from the 1956 Clipper (visual in the grille and dash), with wheel covers, tail lamps, and dials from 1956 along with the Packard cormorant hood mascot and trunk chrome trim from 1955 senior Packards, the 1957 Packard Clipper was more than a badge-engineered Studebaker—but also far from a Patrician. Had the company been able to invest more money to finish the transformation and position the car under a senior line of "true Packards", it might have been a successful Clipper. However, standing alone the cars sold in very limited numbers—and a number of Packard dealers dropped their franchises while customers stayed away, despite with huge price discounts, fearful of buying a car that could soon be an orphaned make. With the market flooded by inexpensive cars, minor automakers struggled to sell vehicles at loss leader prices to keep up with Ford and GM.[41] Also, a general decline in demand for large cars heralded an industry switch to compact cars such as the Studebaker Lark.

Predictably, many Packard devotees were disappointed by the marque’s perceived further loss of exclusivity and what they perceived as a reduction in quality. They joined competitors and media critics in christening the new models as "Packardbakers". The 1958 models were launched with no series name, simply as "Packard". New body styles were introduced, a two-door hardtop joined the four-door sedan. A new premier model appeared with a sporting profile: the Packard Hawk was based on the Studebaker Golden Hawk and featured a new nose and a fake spare wheel molded in the trunk lid reminiscent of the concurrent Imperial. The 1958 Packards were amongst the first in the industry to be "facelifted" with plastic parts. The housing for the new dual headlights and the complete fins were fiberglass parts grafted on Studebaker bodies. Very little chrome was on the lower front clip. Designer Duncan McCrae managed to include the 1956 Clipper tail lights for one last time, this time in a fin, and under a canted fin, a wild—or to some bizarre—mixture. Added to the front of all but the Hawk were tacked on pods for dual headlights, in a desperate attempt to keep up with late-1950s styling cues. All Packards were given 14 in (36 cm) wheels to lower the profile. The public reaction was predictable and sales were almost nonexistent. The Studebaker factory was older than Packard’s Detroit plant, with higher production requirements, which added to dipping sales. A new compact car on which the company staked its survival, the Lark, was a year away, and failed to sell in sufficient numbers to keep the marque afloat. Several makes were discontinued around this time. Not since the 1930s had so many makes disappeared: Packard, Edsel, Hudson, Nash, DeSoto, and Kaiser.

CONCEPT PACKARDS

1956 Predictor concept, at the Studebaker National Museum
During the 1950s, a number of "dream cars" were built by Packard in an attempt to keep the marque alive in the imaginations of the American car-buying public. Included in this category are the 1952 Pan American that led to the production Caribbean and the Panther (also known as Daytona), based on a 1954 platform. Shortly after the introduction of the Caribbean, Packard showed a prototype hardtop called the Balboa.[42] It featured a reverse-slanted rear window that could be lowered for ventilation, a feature introduced in a production car by Mercury in 1957 and still in production in 1966. The Request was based on the 1955 Four Hundred hardtop, but featured a classic upright Packard fluted grille reminiscent of the prewar models. In addition, the 1957 engineering mule "Black Bess" was built to test new features for a future car. This car had a resemblance to the 1958 Edsel. It featured Packard’s return to a vertical grill. This grill was very narrow with the familiar ox-yoke shape that was characteristic for Packard, and with front fenders with dual headlights resembling Chrysler products from that era. The engineering mule Black Bess was destroyed by the company shortly after the Packard plant was shuttered. Of the 10 Requests built, only four were sold off the showroom floor. Richard A. Teague also designed the last Packard show car, the Predictor. This hardtop coupe’s design followed the lines of the planned 1957 cars. It had many unusual features, among them a roof section that opened either by opening a door or activating a switch, well ahead of later T-tops. The car had seats that rotated out, allowing the passenger easy access, a feature later used on some Chrysler and GM products. The Predictor also had the opera windows, or portholes, found on concurrent Thunderbirds. Other novel ideas were overhead switches—these were in the production Avanti—and a dash design that followed the hood profile, centering dials in the center console area. This feature has only recently been used on production cars. The Predictor survives and is on display at the Studebaker National Museum section of the Center for History in South Bend, Indiana.

ASTRAL

One very unusual prototype, the Studebaker-Packard Astral, was made in 1957 and first unveiled at the South Bend Art Centre on January 12, 1958, and then at the March 1958 Geneva Motor Show.

It had a single gyroscopic balanced wheel and the publicity data suggested it could be nuclear powered or have what the designers described as an ionic engine. No working prototype was ever made, nor was it likely that one was ever intended.

The Astral was designed by Edward E. Herrmann, Studebaker-Packard’s director of interior design, as a project to give his team experience in working with glass-reinforced plastic. It was put on show at various Studebaker dealerships before being put into storage. Rediscovered 30 years later, the car was restored and put on display by the Studebaker museum.

THE END

Studebaker-Packard pulled the Packard nameplate from the marketplace in 1959. It kept its name until 1962 when "Packard" was dropped off the corporation’s name at a time when it was introducing the all new Avanti, and a less anachronistic image was being sought, thus finishing the story of the great American Packard marque. Ironically, it was considered that the Packard name might be used for the new fiberglass sports car, as well as Pierce-Arrow, the make Studebaker controlled in the late 1920s and early 1930s.

In the late 1950s, Studebaker-Packard was approached by enthusiasts to rebadge the French car maker Facel-Vega’s Excellence suicide-door, four-door hardtop as a "Packard" for sale in North America, using stock Packard V8s, and identifying trim including red hexagonal wheel covers, cormorant hood ornament, and classic vertical ox-yoke grille. The proposition was rejected when Daimler-Benz threatened to pull out of its 1957 marketing and distribution agreement, which would have cost Studebaker-Packard more in revenue than they could have made from the badge-engineered Packard. Daimler-Benz had little of its own dealer network at the time and used this agreement to enter and become more established in the American market through SPC’s dealer network, and felt this car was a threat to their models. By acquiescing, SPC did itself no favors and may have accelerated its exit from automobiles; Mercedes-Benz protecting their own turf helped ensure their future.

THE REVIVAL

In the 1990s, Roy Gullickson revived the Packard nameplate by buying the trademark and building a prototype Packard Twelve for the 1999 model year. His goal was to produce 2,000 of them per year, but lack of investment funds stalled that plan indefinitely and the Twelve were sold at an auto auction in Plymouth, MI, in July 2014.

PACKARD AUTOMOBILE ENGINES

Packard’s engineering staff designed and built excellent, reliable engines. Packard offered a 12-cylinder engine—the "Twin Six"—as well as a low-compression straight-eight, but never a 16-cylinder engine. After WWII, Packard continued with their successful straight-eight-cylinder flathead engines. While as fast as the new GM and Chrysler OHV V8s, they were perceived as obsolete by buyers. By waiting until 1955, Packard was almost the last U.S. automaker to introduce a high-compression V8 engine. The design was physically large and entirely conventional, copying many of the first-generation Cadillac, Buick, Oldsmobile, Pontiac, and Studebaker Kettering features. It was produced in 320 cu in (5.2 L) and 352 cu in (5.8 L) displacements. The Caribbean version had two four-barrel carburetors and produced 275 hp (205 kW). For 1956, a 374 cu in (6.1 L) version was used in the Senior cars and the Caribbean two four-barrels produced 305 hp (227 kW).

In-house designed and built, their Ultramatic automatic transmission featured a lockup torque converter with two speeds. The early Ultramatics normally operated only in "high" with "low" having to be selected manually. Beginning with late 1954, the transmission could be set to operate only in "high" or to start in "low" and automatically shift into "high". Packard’s last major development was the Bill Allison–invented Torsion-Level suspension, an electronically controlled four-wheel torsion-bar suspension that balanced the car’s height front to rear and side to side, having electric motors to compensate each spring independently. Contemporary American competitors had serious difficulties with this suspension concept, trying to accomplish the same with air-bag springs before dropping the idea.

Packard also made large aeronautical and marine engines. Chief engineer Jesse G. Vincent developed a V12 airplane engine called the "Liberty engine" that was used widely in Entente air corps during World War I. Packard-powered boats and airplanes set several records during the 1920s. For Packard’s production of military and navy engines, see the Merlin engine and PT boats, which contributed to the Allied victory in World War II. Packard also developed a jet-propulsion engine for the US Air Force, one of the reasons for the Curtiss-Wright take-over in 1956, as they wanted to sell their own jet.[47]

PACKARD AIRCRAFT ENGINES

During the First World War, Packard played a key role both in the design and the production of the Liberty L-12 engine.

In the interbellum, Packard built one of the world’s first diesel aviation engines, the 225-hp DR-980 radial. It powered the Stinson SM-8D, among others. It also powered a Bellanca CH-300 on a record endurance flight of over 84 hours, a record that stood for more than 50 years.