work hardening

Research of work hardening mechanism of high manganese steel

高锰钢加工硬化规律和机理研究

Effects of Shear Plane Boundary Condition on Depth of Surface Work hardening

剪切面边界条件对工件表面层加工硬化深度的影响

Cyclic hardening and work hardening in high manganese steel at low temperature

高锰钢的低温循环硬化及加工硬化

The results show that the work hardening rate of pure tantalum is low .

研究结果表明：纯钽的宏观加工硬化速率比较低。

A New Theoretical Calculation Model for Flanging Forming Force Based on Cold Deformation Work Hardening

考虑冷变形加工硬化的翻边力理论计算

Experiment and Study on Cold Work Hardening to Increase the Permanence Limit of Mechanism

表面硬化处理对提高构件持久极限的试验研究

Work Hardening Ability of As - cast Manganese Steel

铸态锰钢的加工硬化性能

Characteristics of work hardening of 18-8 type austenite stainless

18-8型不锈钢的应变硬化特性研究

New Analysis on the Mechanics , Temperature , Tool Life and Work Hardening in Oblique Machining

斜角切削的力学温度刀具耐用度及工件硬化的新研究

Research on microstructure and work hardening mechanism of high manganese steel by simulating actual working condition

不同相对冲击功下高锰钢组织与加工硬化机制的研究

Microscopic Mechanism of Work Hardening of Austenitic Medium Manganese Steel

奥氏体中锰钢加工硬化的微观机制

Comprehensive mechanism of work hardening of austenitic manganese steel

奥氏体锰钢的综合加工硬化机理

On the effects of specimen recycling to the tensile strength and work hardening

试样复用对拉伸强度和被粘物加工硬化的影响

Work Hardening Problem of Location Hole for Propeller Shaft

桨轴定位孔加工硬化问题

Work hardening of austenitic stainless steel was analyzed .

分析了奥氏体不锈钢的加工硬化机理及其对刀具磨损的影响；

Proper precipitate reinforcement treatment can improve the ability of work hardening to some degree .

合适的沉淀强化处理可以在一定范围内提高高锰钢的加工硬化能力。

The work hardening is present on the surface of audio heads during the wear process .

磁头在磨损过程中表层有冷加工硬化现象。

Deformation and work hardening behavior of Al-Li SINGLE CRYSTALS

铝－锂单晶体的形变硬化行为

Magnetic Change and Work Hardening During Deformation of Fe-Mn-C Alloy Austenite

Fe-Mn-C合金奥氏体变形过程的磁性变化与加工硬化

Comparison of Work Hardening Behaviors of 18-8 Stainless Steel and Hadfield Steel by Two Methods

两种方法分析高锰钢和18-8不锈钢加工硬化行为的对比

The research results show that the microstructure and work hardening mechanism are distinguishing under different work hardening effect ;

结果表明，在不同硬化条件下高锰钢中的硬化组织不同，其加工硬化的机制也不相同。

The composite with the whisker orientation angle 90 ° shows work hardening phenomena .

晶须取向角为90℃的复合材料表现出应变硬化现象。

Meanwhile , the effect of SHMS ' microstructure properties and work hardening mechanism are studied .

本文同时研究了它们对超高锰钢组织、性能的影响，对高锰钢的加工硬化机理进行了探讨。

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。

Work hardening rate and microstructure of tantalum

钽的加工硬化速率及其显微组织

DP steel has better work hardening ability while TRIP steel has better bake hardening ability .

DP钢拥有更加优良的加工硬化能力，TRIP钢则具有较为理想的烘烤硬化能力。

Reduction of Mn content and increase of C content are favorable to increasing the ability of work hardening ;

锰含量的降低和碳含量的升高有利于加工硬化能力的提高；

Plastic Bending With Work Hardening

有硬化的塑性弯曲

Cyclic deformation of Nb single crystals cyclic hardening and work hardening in high manganese steel at low temperature

单晶铌的循环变形研究高锰钢的低温循环硬化及加工硬化

The results show that the best work hardening effect could be received only at higher ' relative impact load ' than critical value ;

结果表明，对于给定成分的高锰钢，只有在高于临界相对冲击功的情况下，才能达到最佳的硬化效果；