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Technical Paper

Aluminum Alloys for Bearings

1947-01-01
470201
ALUMINUM-TIN alloys which promise to be excellent bearing materials are the result of an intensive research and development program carried out by the authors. After testing a number of aluminum alloys for antiscoring qualities, fatigue resistance, and mechanical stability in operation, they concluded that the optimum bearing characteristics are found in alloys having a plastic, low-melting phase and a relatively hard phase uniformly distributed throughout an aluminum solid solution matrix of moderate hardness. Tin, affording ease in alloying and resistance to corrosion in lubricating oils, furnishes the best plastic constituent. Pure aluminum-tin alloys do not possess the strength needed in highly stressed bearings. The addition of silicon forms a hard constituent which increases strength markedly. Antiscuffing qualities are improved also, although ductility is reduced.
Technical Paper

Fatigue Resistance of Aluminum and Its Products

1964-01-01
640174
Data are presented to show the various factors that affect the fatigue strength of aluminum. For metallurgical size test specimens, the fatigue strength is affected by the alloy, temper, metallurgical condition, shape of specimen, surface condition, type of loading, product, stress concentration, residual stress, and temperature. However, these variables generally do not have a great effect on the fatigue strength of service parts containing stress raisers. Thus, for long fatigue life, good design and attention to details are generally more important than choice of alloy.
Technical Paper

Structural Design Considerations for Aluminum Bumpers

1977-02-01
770269
The 1980 requirements for bumpers limit the damage that may be sustained in 8 km/h (5 mph) pendulum and barrier impacts. This paper covers four items of interest for design of one-piece aluminum bumpers: (1) properties of alloys, (2) dent resistance, (3) beam strength, (4) relative behavior of aluminum and steel. Static and dynamic tests are used to define the effects of yield strength and thickness on denting. Finite element calculations agree well with the results of dynamic bending tests of bumpers. Data presented also show that the strain rates during beam bending are low. Relative weights of aluminum and steel bumpers are defined.
Technical Paper

Survey of Candidate Aluminum Materials for Supersonic Aircraft Applications

1963-01-01
630407
Effects of elevated temperatures on four standard aluminum alloys, two aluminum powder metallurgy alloys, and a roll bonded sandwich of steel face sheets with an aluminum core are analyzed. New data are included for 2024-T81 exposed to elevated temperatures up to 70, 000 hr; creep and fatigue performance at long heating times are shown. Buckling efficiencies of alloy 2020-T6, other high strength metals, and stainless clad aluminum are theoretically analyzed. The paper concludes that available aluminum materials suffice for aircraft up to Mach 2.5 and that stainless clad aluminum and APM alloys can be used at temperatures up to 600 F.
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