1) deformation strengthening
形变强化
1.
Microstructure and properties of W-35wt% Cu powders composite consolidated by deformation strengthening;
W-35% Cu粉末形变强化复合材料组织及性能研究
2.
Effects of microstructure and properties of 93W -4. 9Ni -2. 1Fe alloys by deformation strengthening;
形变强化对93W-4.9Ni-2.1Fe合金组织及性能的影响
3.
Structural effect of deformation strengthening on the initiation of fatigue crack;
形变强化对疲劳裂纹萌生的组织效应
2) strain hardening
形变强化
1.
It was confirmed by tensile test at liquid nitrogen temperature that the change of C,Cr,Ni and Mn from upper limit to lower limit gives significant difference both in formation of deformation-induced martensite and strain hardening.
在液氮内的拉伸结果表明:C、Mn、Cr和Ni的含量从标准范围的上限降到下限,显著增大形变诱发马氏体相变倾向和形变强化能力,尤其是C、Mn、Cr和Ni的含量接近下限的钢在室温下拉伸形成ε马氏体和α′马氏体,其中α′马氏体快速形成使流变应力迅速上升;此外发现,在液氮温度下,变形早期ε马氏体与α′马氏体同时存在,α′马氏体的体积分数累积到约70%后,ε马氏体消失。
2.
solid solution strengthening, strain hardening, grain boundaries strengthening, dispersion strengthening, etc and the investigations on strengthening mechanism are reviewed.
回顾和总结固溶强化、形变强化、晶界强化及弥散强化等常用铂强化方法及其强化机制的研究进展 ,介绍典型强化铂材料如铂铑合金、ZGSPt(Pt Rh)、ODSPt(Pt Rh)和DPHPt(Pt Rh)等弥散强化材料的主要性能和用途 ,为选择和开发更好的铂强化方法、推动强化铂的应用提供参考。
3.
The erosion-wear resistance of the newly developed 28Cr cast iron was investigated with varying erosion velocities, and the strain hardening mechanism of the austenitic matrix of the iron was emphatically discussed.
利用高速液/固双相流冲蚀磨损试验机模拟不同试验条件,对改性28Cr高铬铸铁进行了不同冲蚀速度下的抗冲蚀磨损性能研究,着重讨论了该材料奥氏体基体的形变强化机理。
3) work hardening
形变强化
1.
The work hardening property of 16Mn U shaped steel after intercritical hardening is studied in this paper.
研究了16MnU型钢亚温淬火后的形变强化性能,结果表明:16MnU型钢经820℃×30min水淬+200℃回火后,具有较好的形变强化性能,适合于工程应用。
4) mechanical hardening
形变强化
1.
Microstructure evolution and mechanical hardening of 18-18-0.5N high-nitrogen austenitic stainless steel during cold rolling;
18-18-0.5N高氮奥氏体不锈钢冷轧变形过程中的组织演变和形变强化
2.
The article introduces microstructure evolution and mechanical hardening of three different kind steels during cold rolling.
本文介绍了三种钢在冷轧变形过程中的组织演变和形变强化规律,发现三种钢具有不同的形变强化规律。
5) deformation hardening
形变强化
1.
Cutting processes and deformation hardening behavior of austenitic high-manganese steel;
奥氏体高锰钢的切削过程与形变强化规律
2.
The results indicate deformation hardening rule of the material around the crater is approximately described with the exponential decay.
结果表明:在平头弹侵彻条件下,弹孔壁材料的形变强化规律可近似用负指数规律描述;靶板内形成大量剪切带、微裂纹等形式的损伤,导致靶板发生变形和冲塞破坏;裂纹按微孔聚集型机制扩展。
6) deformation strengthening
变形强化
1.
The hydrostatic extrusion technology has a potential advantage in the deformation strengthening to the metals with higher brittleness.
含钨量较高的W Ni Fe密度高合金具有密度高、强度与韧性配合较好等特点 ,适合用作动能穿甲弹及防辐射屏蔽材料 ;而静液挤压技术在脆性材料变形强化方面具有很大的潜在优势。
2.
In this paper,The microstructures,mechanical properties and aspects of fracture surface of tungsten heavy alloys after hydrostatic extrusion have been experimentally researched,and the deformation strengthening mechanism of tungsten alloys by hydrostatic extrusion has been preliminary discussed.
对高比重钨合金经静液挤压变形强化后的力学性能、微观组织及断口形貌进行了分析和研究 ,并对静液挤压这种加工工艺对钨合金材料的变形强化机理进行了初步探讨。
补充资料:形变强化
workinghardening:随着塑性变形量的增加,金属流变强度也增加,这种现象称为形变强化或加工硬化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条