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1)  hot work hardening
热加工硬化
2)  hot hardening
加热硬化
3)  Work hardening
加工硬化
1.
Investigation of work hardening mechanism in high manganese steel by Crussard-Jaoul analysis;
基于Crussard-Jaoul的n值分析对高锰钢加工硬化机制的探讨
2.
The simulation results suggest that Bauschinger effect and work hardening etc are validated in the model.
模拟结果表明,弯曲过程中存在鲍辛格效应和加工硬化等现象。
3.
The results show that the effects of work hardening by strain-induced martensite transformation and cast pore defects are the main reasons leading to strip broken of the steels during cold rolling.
结果表明,形变诱发马氏体组织所加剧的加工硬化与冶炼时所产生的气孔缺陷的共同作用是冷轧断带的原因。
4)  work-hardening
加工硬化
1.
The results indicate that the developed surfacing electrode has not only good welding technological properties,but also super work-hardening effect and good impact wear-resistance.
经过对制备的试样分别进行多次冲击磨损试验,并与D256焊条进行对比试验,分析试样的硬度和磨损失重变化,结果表明,此种堆焊材料具有焊接工艺性好、堆焊层组织加工硬化率高和耐凿削式冲击磨损性能优异的特点。
2.
the tensile strength and rate of elogation were measured by tension experiment machine,the situation of work-hardening was analysed,and the rolling direction cross-section metallurgical structure of the sheets under different deformation was analysed.
在二辊轧机上对CSP轧制的SPHD钢板进行了冷变形,在拉伸试验机上测定了冷变形后钢板的抗拉强度和伸长率,分析了其加工硬化的情况,并对不同冷变形程度下钢板轧制方向的横截面组织进行了分析。
3.
The important character of non-magnetic high manganese ZG25Mn18Cr4 alloy is rapid work-hardening under external stress.
在应力作用下快速加工硬化是高锰无磁钢ZG25Mn18Cr4的一个重要特征。
5)  strain hardening
加工硬化
1.
The results show that the grain size of the deep deformed Hadfield steel was refined remarkably,there emerge a great deal of high density twin crystals and stacking faults,and the capability of strain hardening and wear resistance are enhanced greatly.
试验结果表明,经预变形的高锰钢奥氏体晶粒急剧细化,内部出现大量的高密度孪晶、位错缠结及层错等组织,加工硬化性能大大提高,耐磨性也随之提高。
2.
Its strain hardening exponent n is 0.
挤压态合金的加工硬化指数n为0。
3.
The strain hardening rate of the material in various aging states is also increased by this addition, wh.
强化颗粒的加入还显著提高了材料在各种时效状态的加工硬化率。
6)  Working Hardening
加工硬化
1.
Working Hardening Characteristics of Cu-Ni-Si-Cr Alloy;
Cu-Ni-Si-Cr合金加工硬化特性
2.
The working hardening behavior of the thermal sprayed coating of the axles under fretting has been studied.
微动磨损的车轴涂层表层及无涂层车轴表层的显微硬度分布测量结果对比分析表明,微动磨损塑性变形导致涂层表层显著加工硬化,对涂层抗微动磨损损伤产生重要作
补充资料:加工硬化
加工硬化
work hardening

   金属材料在再结晶温度以下塑性变形时强度和硬度升高,而塑性和韧性降低的现象。又称冷作硬化。产生原因是,金属在塑性变形时,晶粒发生滑移,出现位错的缠结,使晶粒拉长、破碎和纤维化,金属内部产生了残余应力等。加工硬化的程度通常用加工后与加工前表面层显微硬度的比值和硬化层深度来表示。
   加工硬化给金属件的进一步加工带来困难。如在冷轧钢板的过程中会愈轧愈硬以致轧不动,因而需在加工过程中安排中间退火,通过加热消除其加工硬化。又如在切削加工中使工件表层脆而硬,从而加速刀具磨损、增大切削力等。但有利的一面是,它可提高金属的强度、硬度和耐磨性,特别是对于那些不能以热处理方法提高强度的纯金属和某些合金尤为重要。如冷拉高强度钢丝和冷卷弹簧等,就是利用冷加工变形来提高其强度和弹性极限。又如坦克和拖拉机的履带、破碎机的颚板以及铁路的道岔等也是利用加工硬化来提高其硬度和耐磨性的。
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