Artificial aging effects on cryogenic fracture toughness of the main structural alloy for the super light weight tank

机译：人工老化对超轻型罐主结构合金的低温断裂韧性的影响

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At Marshall Space Flight Center (MSFC), a new aging technique has been developed that can significantly enhance the cryogenic fracture toughness (CFT) of Alloy 2195, as well as reducing the statistical spread of fracture toughness values. This technique improves cryogenic properties by promoting T_1 nucleation and growth in the matrix, so that T_1 nucleation and growth can be suppressed in the subgrain boundaries. It also minimizes mechanical property scatter due to unaviodable variations in thermomechanical processing parameters and alloy chemistry.

机译：在马歇尔航天飞行中心（MSFC），已经开发出一种新的老化技术，可以显着提高合金2195的低温断裂韧性（CFT），以及降低断裂韧性值的统计扩散。该技术通过促进基质中的T_1成核和生长来提高低温性质，从而可以在子粒边界中抑制T_1成核和生长。由于热机械加工参数和合金化学的不过潜陷变化，它还最小化了机械性能散射。

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《Symposium on materials in space-science, technology and exploration》|1999年||共6页
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P. S. Chen; W. P. Stanton; Materials Research Society;
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4. Artificial aging effects on cryogenic fracture toughness of the main structural alloy for the super light weight tank [C] . P. S. Chen, W. P. Stanton, Materials Research Society Symposium on materials in space-science, technology and exploration . 1999

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机译：人工时效对超轻型罐体主要结构合金低温断裂韧性的影响

Artificial aging effects on cryogenic fracture toughness of the main structural alloy for the super light weight tank

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