Haskelite


Haskelite is the brand name of a plywood, once made by the Michigan-based Haskelite Manufacturing Corporation. It was made from waterproof glue developed by Henry L. Haskell. The moldable plywood was originally called Ser-O-Ply. It was used in the construction of various vehicles including military tanks, boats, airplanes, buses, trucks, and automobiles. The plywood was manufactured with different characteristics depending on particular needs and then given a brand name.

Background

Haskell invented a process for making glue from blood-albumin. The process used slaughterhouse blood from the Chicago stock yards. The inexpensive waterproof adhesive was called "black albumin glue." It was used to bond wood pieces. One product Haskell made from this was a lightweight waterproof plywood, first known as Ser-O-Ply. He applied this glue to wood veneers and manufactured plywood for various applications. Some of these applications were boats, airplanes, tanks, trucks, automobiles and rail cars. The plywood panels were from 1/8th inch up to an inch thick and had various layers of crossed grain ply veneers to create the thickness and strength. Typical moldable plywood panels were about five feet wide by twenty feet long and 3/16th of an inch thick. The plywood sheets made this way were eventually given the brand trade name of "Haskelite." It is named after Henry L. Haskell, inventor of the glue bonding the plywood.
Haskell formed a company for making plywood that ultimately became the Haskell Manufacturing Company in Ludington, Michigan and the Haskelite Manufacturing Corporation in Grand Rapids, Michigan. The glue was applied cold and spread onto wood veneers with rollers. A stack of three sheets of veneer was then put through a press, where each panel was subjected to a pressure of 150 psi between metal plates at. This pressure and heat made the bond between the veneers permanent and the glue became insoluble. The plywood was given brand names depending on its characteristics. Plymetl had metal faces and was used in construction of airtight clothes vaults for storing furs and expensive garments. Plymold was a plastic-based plywood that could be molded, and Phemaloid was a fire-resistant paneling.

Boats

Thinner moldable plywood was used to make watercraft. One model was the Haskell canoe. It was made from a type of plywood Haskell produced, consisting of veneers of birch on the outside and a redwood core. The unseamed canoe was made from a single piece of plywood; thousands were sold in the US. There were no ribs used in the building of the canoe.

Airplanes

Haskel plywood was used for aircraft parts, especially fuselages and wings. The first plane made with moldable plywood was constructed with Haskelite, and was the Curtiss two-place fighter Whistling Bill. Haskell plywood was used for construction of experimental and commercial aircraft. A Johnson Twin-60 experimental airplane was built in 1927 that had 85% Haskelite plywood in its wings, seats, instrument board, and fuselage parts. The first successful commercial airplane it was used on was the 1937 Fairchild Aircraft model F-46.
The Haskelite company was considered Ludington's most important industry during World War I. The company made 5,000 military aircraft for the US and allies from 5,000,000 square feet of plywood produced. In 1927, the company manufactured aircraft body parts for Charles Linbergh's Spirit of St. Louis single engine plane. Haskelite's contributions during World War II were wooden aircraft body parts for US and ally airplanes. It made plywood parts for airplane trainers, gliders, bombers, and transports. Among these were plywood components for Britain's De Havilland Mosquito fighter bombers. The manufacturing company also made wooden parts for Cessna Aircraft Company to use on their trainer airplanes.

Duramold

A Haskelite specialty plywood designed for aircraft construction called Duramold was invented in 1939. The new plastic plywood consisted of thin veneers of wood and cloth that were impregnated with formaldehyde and phenol and sandwiched with a synthetic resin. Heat and pressure were used to bold the materials together. The specialty plywood was only about one-third as heavy as the aluminum alloys then used in manufacturing airplanes. National Bureau of Standards tests proved that for its weight it was stronger than metal. The plastic plywood was waterproof and could readily be formed into compound curvatures. Processes had been developed so that an entire fuselage could be turned out in two halves. They then were sealed together mechanically. Wing assemblies also were molded with this process.
The General Bakelite Company and Haskelite Manufacturing joined the Clark Aircraft Company of Hagerstown, Maryland in manufacturing planes using duramold. Aeronautical engineer Virginius E. Clark designed the planes. Aviator industrialist Howard Hughes helped finance the venture. One of these airplanes had received a commercial license to fly daily and 500 hours of testing proved its worthiness. The fuselage was molded in 2 hours 35 minutes, which was 1/30th the time required to construct an ordinary fuselage. It was without longitudinal or cross bracing. The entire fuselage weighed less than 120 pounds. It did not have rivet, screw, or nail heads projecting into the air stream. The plane had a 450 horsepower motor, fixed landing gear, and accommodations for five persons. It's top speed was and it cruised at. A typical airplane factory could manufacture parts of ten of these type planes a day. Then the specialty designed plywood wooden body parts could be assembled to complete the aircraft itself.