A compacted billet of TD Nickel, DuPont's new high temperature alloy, is hoisted into a hydrogen sintering furnace at the company's Metals Center in Baltimore. The billet is heated to 2,200 degrees Fahrenheit, which raises the density of the new...
A graphic demonstration of the high temperature strength of TD nickel, DuPont's new alloy of 98% nickel and 2% thorium. The TD nickel bar reaches red heat, but does not fail at 2,100 degrees Fahrenheit under a load of 6,000 pounds per square inch....
A graphic demonstration of the high temperature strength of TD nickel, DuPont's new alloy of 98% nickel and 2% thorium. The TD nickel bar reaches red heat, but does not fail at 2,100 degrees Fahrenheit under a load of 6,000 pounds per square inch....
The flame of an acetylene torch is shot through a tube of TD nickel, a new alloy, in a demonstration of the metal's stability at high temperatures. The new metal, produced at the DuPont Metals Center in Baltimore, is designed for use in space...
Bars of TD Nickel, a new alloy developed by DuPont for high temperature use in missiles and space vehicles, are displayed by William Wartel, technical supervisor at the DuPont Metals Center in Baltimore. The starting material is a powder containing...
Oklahoma City has devised a new method of enforcing its parking regulations in the downtown section and at the same time, adding to the city's revenue. Miss Emmalle Jarvis is seen just as she prepares to put a nickel in one of the curbside parking...
Table of Contents: Urethane foam for furniture; You and your toothbrush; Moscow after dark; Project 4120: make a new synthetic rubber; The railroads' history makers; Calypso explores an undersea canyon; The chemist's electronic servants; Traveling...
Electroplating Research-Niagara Falls Research and Service Lab
Electroplating automobile bumper guards in DuPont's Electrochemicals Sales Service Lab at Chestnut Run. In addition to the copper plating shown here, facilities are designed to duplicate operations found in customers' plant for electroplating of...
Electroplating Research-Niagara Falls Research and Service Lab
Better plating on autos is one result of work done in the Electrochemicals Department Sales Technical Laboratory at Niagara Falls, New York. Here, a DuPont chemist lifts experimental hood ornaments from a copper plating tank. Copper is used as a...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
DuPont's Sodium Hydride Process for Descaling Metals
Developed especially for the purpose and backed by continuous mill experience since 1941, the DuPont Sodium Hydride Descaling Process is essentially a chemically activated fused caustic soda cleaning bath. Advantages over conventional pickling and...
