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martensite aging
相关语句
  马氏体时效
     Surface-Crack Fracture Toughness Testing Analysis on the Base and Arc Welding Joint of 18Ni Martensite Aging Steel
     18Ni马氏体时效钢基体及氩弧焊焊接接头的表面裂纹断裂韧度K_(Ie)试验分析
     This article observes and analyzes the root of the received chip according to the cutting experiment of 18Ni martensite aging steel under the different cutting speed,by using optical microscope and electronic microscope. The test results show the discovery of the Thermoplastic Shear Instability when cutting the 18Ni aging steel.
     不同切削速度下对18Ni马氏体时效钢进行切削试验,并用光学显微镜和电子显微镜观察切屑根部,发现有热塑剪切失稳现象,分析其组织结构特征及影响因素;
短句来源
     The surface-crack fracture toughness KIe values of 18Ni (250 degree) martensite aging steel base and arc welding joint (heat influence part and welding metal) were tested according to the standard GB7732-87. It was found that there were difference of surface-crack fracture toughness KIe values between the base and the arc welding joint.
     依据国标GB7732-87,对18Ni(250级)马氏体时效钢基体和亚弧焊焊接接头(热影响区和焊缝金属)的表面裂纹断裂韧度K_(1e)值进行测试。 发现该材料的基体和亚弧焊焊接接头的表面裂纹断裂韧度K_(1e)值有所不同。
  “martensite aging”译为未确定词的双语例句
     Mechanism Of Martensite Aging Stabilizing in Cu-BASED Shepe Memory Alloy
     铜基形状记忆合金时效稳定化的一种机制
短句来源
     Nitrogenmartensite Aging at Low Temperature
     含氮马氏体的低温时效
短句来源
  相似匹配句对
     Aging at 420~440 tempered martensite embrittlement was observed.
     在420~440℃之间出现第一类回火脆性,于550℃出现第二类回火脆性。
短句来源
     AGING OF Fe-C MARTENSITE Ⅱ─SPINODAL DECOMPOSITION
     Fe-C马氏体室温时效转变的研究Ⅱ-调幅分解
短句来源
     On Healthy Aging
     略论健康老龄化
短句来源
     On Healthy Aging
     论健康老龄化及其对策
短句来源
     the martensite was twinned;
     马氏体含有孪晶;
短句来源
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  martensite aging
At subambient temperatures, the first change is attributed to isothermal conversion of a small amount of retained austenite or to slight relaxations in the martensite, but this is not a significant part of the martensite aging process.
      
At subambient temperatures, the first change is attributed to isothermal conversion of a small amount of retained austenite or to slight relaxations in the martensite, but this is not a significant part of the martensite aging process.
      
TheMs,As, andAf were lowered following prior parent phase aging, possibly because of a change in long range order, but prior parent phase aging was found to diminish the deleterious effect of martensite aging.
      
Different thermal aging treatments were carried out to determine the effects of both parent phase and martensite aging on the amount of shape recovery and the characteristic transformation temperaturesMs,As, andAf.
      
Martensite aging kinetics in the Cu-10 wt.%Al and Cu-10 wt.%Al-10 wt.%Ag alloys
      
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In this paper the memory property and the resistance to martensite aging stabilizing in Cu-23.12 Zn-4.37 Al and Cu-26.34 Zn-3.24 Al-0.67Mn (wt%) shape memory alloy under different conditions as hot rolling, marquenching and oil quenching have been studied. According to the test results, a new mechanism is proposed for martensite aging stabilizing of Cu-based shape memory alloy-stress relaxation mechanism. During the process when Cu-based shape memory alloy is used or laid aside in martensite...

In this paper the memory property and the resistance to martensite aging stabilizing in Cu-23.12 Zn-4.37 Al and Cu-26.34 Zn-3.24 Al-0.67Mn (wt%) shape memory alloy under different conditions as hot rolling, marquenching and oil quenching have been studied. According to the test results, a new mechanism is proposed for martensite aging stabilizing of Cu-based shape memory alloy-stress relaxation mechanism. During the process when Cu-based shape memory alloy is used or laid aside in martensite state,the coherent interface not only among different martensite variants but also between martensite and parent phase was destroyed as a result of relaxation of microscopic internal stress. For this reason, it is difficult for different martensite variants to combine and martensites come into aging stabilizing.

本文通过对两种铜基形状记忆合金Cu-23.12 Zn-4.37 Al及Cu-26.34 zn-3.24 Al-0.67Mn(Wt%),在不同状态下马氏体时效稳定化的研究,提出了一种新的马氏体时效稳定化机制——应力松弛机制,即在马氏体状态下使用或放置过程中,由于微观应力松弛,破坏了马氏体变体间及马氏体与母相间界面的共格性,使变体不易合并,引起马氏体稳定化。

The changes of atomic order state during aging of the parent phase and martensite in an as-quenched Cu-Al-Ni-Mn-Ti shape memory alloy were investigated by X-ray diffraction and in situ electrical resistivity measurements. It was shown that the aging mechanisms of the parent phase and martensite are different. During parent phase aging, DO_3 atomic reordering occurs, leading to an increase in the degree of long range order. During martensite aging, however, short range atomic disordering takes place, resulting...

The changes of atomic order state during aging of the parent phase and martensite in an as-quenched Cu-Al-Ni-Mn-Ti shape memory alloy were investigated by X-ray diffraction and in situ electrical resistivity measurements. It was shown that the aging mechanisms of the parent phase and martensite are different. During parent phase aging, DO_3 atomic reordering occurs, leading to an increase in the degree of long range order. During martensite aging, however, short range atomic disordering takes place, resulting in the stabilization of martensite.

高温X射线衍射及原位电阻测量等实验结果表明,淬火态Cu—Al—Ni—Mn—Ti形状记忆合金在母相和马氏体状态时效过程中,原子有序态的演变及时效机制是不同的.在母相态时效,先发生DO_3再有序化,随后发生原子短程无序或偏聚并进而析出贝氏体或平衡相.在马氏体状态时效,DO_3长程有序度无显著变化,没发生类似在母相态的再有序化,主要是原子短程无序化.

This article observes and analyzes the root of the received chip according to the cutting experiment of 18Ni martensite aging steel under the different cutting speed,by using optical microscope and electronic microscope.The test results show the discovery of the Thermoplastic Shear Instability when cutting the 18Ni aging steel.The article observes and analyzes the orgnization,the structure characteristic and the major effective factors for producing Thermoplastic Shear Instability and analyzes the...

This article observes and analyzes the root of the received chip according to the cutting experiment of 18Ni martensite aging steel under the different cutting speed,by using optical microscope and electronic microscope.The test results show the discovery of the Thermoplastic Shear Instability when cutting the 18Ni aging steel.The article observes and analyzes the orgnization,the structure characteristic and the major effective factors for producing Thermoplastic Shear Instability and analyzes the influence of the heat treatment on the Thermoplastic Shear Instability depending on the criterion of the Thermoplastic Shear Instability and the Microstructure.

不同切削速度下对18Ni马氏体时效钢进行切削试验,并用光学显微镜和电子显微镜观察切屑根部,发现有热塑剪切失稳现象,分析其组织结构特征及影响因素;再按热塑剪切失稳判据及显微组织分析热处理对热塑剪切失稳的影响。

 
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