1) brittle ductile transition temperature
脆韧转变温度
2) ductile-brittle transition temperature
韧脆转变温度
1.
Determination of ductile-brittle transition temperature of DIWA353 steel plate for boiler and pressure vessel;
锅炉压力容器DIWA353钢板韧脆转变温度的测定
2.
On the method of data processing for ductile-brittle transition temperature;
材料韧脆转变温度数据处理方法探讨
3.
The experimental results showed that the yield strength of pipeline steel X80 with 16mm wall thickness can be up to over 670 MPa through controlled rolling/cooling,and the ratio of tensile strength to yield strength and ductile-brittle transition temperature are lower than 0.
85,韧脆转变温度低于-60℃,达到了很好的强韧性匹配。
3) Ductile-brittle transition temperature
韧-脆转变温度
1.
The ductile-brittle transition temperature,chemical composition,microstructure and fracture of welded metal are investigated to discuss the difference of impact absorbed energy between butt weld and deposited metal.
针对对接焊缝金属和熔敷金属之间的冲击吸收功差异,分别从材料的韧-脆转变温度、成分、组织以及断口方面进行了探讨。
4) FATT
韧脆转变温度(FATT)
5) ductile-to-brittle transition temperature
韧脆转变温度
1.
Series impact test was carried out in order to determine the toughness of super-high manganese steel with boron between 20 and-80 ℃,and the ductile-to-brittle transition temperature is confirmed as-70 ℃,according to the ductile brittle transition temperature curve and fracture appearance.
根据脆性转变温度曲线和断口形貌,确定其韧脆转变温度为-70℃,并分析了影响韧脆转变温度的因素。
6) brittle-ductile transition temperature
脆-韧转变温度
补充资料:超导转变温度
超导转变温度
superconductive transition temperature
ChOC吐取)ZhUOnbi即WendU超导转变温度(supe二onductivetlansitio。tem-伴m灿re)超导材料由超导态转变为正常态的温度。加世纪印年代末,美国标准局(NBS)的科学家发现,铅(7 .1卯7K)、锢(3.414 SK)、铝(l.1810K)、锌(0沼匆OK)以及福(0.5200K)5种材料的超导转变温度的复现性均优于hnK,并且有较窄的转变宽度,可以作为测温固定点。1盯6年临时温标(EPI,一76)中利用这5种材料作为该温标的固定点。后来,又增加了一些新的材料:祝(9.邓SOK)、金化锢(O俄巧SK)、金化铝(0.1印SK)、铱(0.“旧OK)、铁(0.工3 OK)和钨(0.0160K)。在rIS一oo中,它只作为近似技术中的参考点。镖器翌纂纂蔚泰杯”‘化繁穿戮
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参考词条