马氏体型
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通过少量C与适量合金元素Mn、Si、Cr配合,制备了低碳马氏体型非调质钢。
A martensitic microalloyed steel was prepared by addition of low carbon and suitable alloying elements such as Mn , Si and Cr.
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低碳马氏体型超高强度钢的设计与开发
The design and development of a low-carbon martensitic ultra-high strength steel
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低碳马氏体型高强度高韧性非调质钢的组织和性能
Organization and performance of high-strength and high-toughness NON-HARDENED-AND-TEMPERED steel of low carbon martensite
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低碳马氏体型非调质钢在汽车工业中的应用
The Application of a Low Carbon Martensite Steel without Quenching-tempering Treatment in Automobile Industry
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马氏体型熔敷。
Deposit of martensitic type .
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铁锰合金在正、反马氏体型相变温度范围内出现的位错内耗峰
Dislocation damping peaks appearing within the temperature range for the direct and inverse martensitic transformations of an iron-manganese alloy
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为适应变截面汽车板簧用材所需,研制了一种低碳马氏体型弹簧钢。
A low carbon martensitic spring steel has been developed to meet the requirements of variable-cross-section plate spring for trucks .
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锰含量大于2.09%时,轧态组织中不再出现非马氏体型转变产物珠光体。
But when the manganese content is more than 2 . 09 % , there is no product of non-martensitic transformation .