Add to ORKGIn some applications, aluminum alloys are subjected to intermittent heating at elevated temperature. It is generally considered that the effects of such intermittent heating are cumulative, and therefore are the same as if the heating had been continuous for the same total length of time. The object of these tests was to determine the effects of intermittent and continuous heating at 300 and 400 F, for total periods of 100 and 200 hr, upon the tensile properties of 2024-T4 and 6061-T6 alloy rolled-and-drawn rod and 7075-T6 alloy extrusions, at room temperature and at the temperature of heating
Results are presented of compressive stress-strain tests of 24S-T3 aluminum-alloy sheet at stabilize...
Since the lightweight material aluminum exhibits reduced formability compared to conventional steel ...
AbstractTailored heat treated blanks are a well-known approach to enhance the formability of 6000-se...
In some applications, aluminum alloys are subjected to intermittent heating at elevated temperature....
Results are presented of some rapid-heating tests of some sheet materials - 7075-T6 and 2024-T3 (for...
Aluminum profiles—for instance, profiles made of precipitation-hardenable alloys—are inc...
When certain light aluminum alloys are heat-treated, quenched and aged, there is considerable improv...
The mechanical properties of extruded aluminium alloys behave differently as temperature rises. Accu...
With the increasing use of aluminum in naval vessels and the ever-present danger of fires, it is imp...
This technical memorandum is a compilation of available elevated temperature data for 2014-T6 alumin...
This technical memorandum is a compilation of available elevated temperature data for 7075-T6 alumin...
"The effect of different testing practices on the short-time elevated-temperature tensile properties...
Many problems associated with flight of hypersonic vehicles arise not only from the actual temperatu...
International audienceThis paper describes the mechanical behavior of the 6061-T6 aluminium alloy at...
Specimens of AZ31A-0 magnesium alloy sheet were heated to rupture at nominal rates of 0.2 F to 100 F...
Results are presented of compressive stress-strain tests of 24S-T3 aluminum-alloy sheet at stabilize...
Since the lightweight material aluminum exhibits reduced formability compared to conventional steel ...
AbstractTailored heat treated blanks are a well-known approach to enhance the formability of 6000-se...
In some applications, aluminum alloys are subjected to intermittent heating at elevated temperature....
Results are presented of some rapid-heating tests of some sheet materials - 7075-T6 and 2024-T3 (for...
Aluminum profiles—for instance, profiles made of precipitation-hardenable alloys—are inc...
When certain light aluminum alloys are heat-treated, quenched and aged, there is considerable improv...
The mechanical properties of extruded aluminium alloys behave differently as temperature rises. Accu...
With the increasing use of aluminum in naval vessels and the ever-present danger of fires, it is imp...
This technical memorandum is a compilation of available elevated temperature data for 2014-T6 alumin...
This technical memorandum is a compilation of available elevated temperature data for 7075-T6 alumin...
"The effect of different testing practices on the short-time elevated-temperature tensile properties...
Many problems associated with flight of hypersonic vehicles arise not only from the actual temperatu...
International audienceThis paper describes the mechanical behavior of the 6061-T6 aluminium alloy at...
Specimens of AZ31A-0 magnesium alloy sheet were heated to rupture at nominal rates of 0.2 F to 100 F...
Results are presented of compressive stress-strain tests of 24S-T3 aluminum-alloy sheet at stabilize...
Since the lightweight material aluminum exhibits reduced formability compared to conventional steel ...
AbstractTailored heat treated blanks are a well-known approach to enhance the formability of 6000-se...