martensite怎么读

英式音标：[\'mɑ:tənˌzaɪt]

美式音标：[\'mɑtənˌzaɪt]

martensite的意思释义

n.

马氏体；

martensite用法及例句

双语例句

用作名词(n.)

The austenite of the alloys possesses strong ferromagnetism, while martensite showes the characteristics of paramagnetism.

奥氏体具有强的铁磁性，而马氏体表现为顺磁或反铁磁性。

The hard second phase, for example martensite, contributed to the superior fatigue strength and higher threshold value.

较硬的第二相，如马氏体，贡献了出众的疲劳强度和较高的开始值。

例句参考

O the Theory of the Formation of Martensite.

Quenching and partitioning martensite—A novel steel heat treatment

Crystallographic features of lath martensite in low-carbon steel

Crystal structure and internal defects of equiatomic TiNi martensite

The crystallography of martensite transformations—IV body-centred cubic to orthorhombic transformations

The crystallography of martensite transformations III. Face-centred cubic to body-centred tetragonal transformations

Magnetic field and stress induced martensite reorientation in NiMnGa ferromagnetic shape memory alloy single crystals

Formation of shear bands and strain-induced martensite during plastic deformation of metastable austenitic stainless steels

A general equation prescribing the extent of the austenite-martensite transformation in pure iron-carbon alloys and plain carbon ste...

martensite相关例句

1. The decomposition and transformation of the retained austenite in bainite differ from that in martensite .

贝氏体中的残余奥氏体分解和转变的行为与马氏体中的不同。

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2. The structure of homogeneous and stable lath martensite as matrix with stable fine vanadium carbides on is of advantage to resist thermal fatigue and wear.

基体组织为均一、稳定的板条马氏体，且在其上分布着弥散、稳定的钒的碳化物，有利于抗热疲劳和抗磨损。

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3. The martensite phase transformation takes place only in the condition of low rotational speed and pressure, long friction time, low wearing rate and each element fully diffusing.

但（马氏体）相变只有在转速和压力比较低、摩擦时间较长、磨损速率较小各合金元素充分扩散的条件下才会发生。

4. The research describes the formation of Widmanstatten structure and martensite in iron-carbon alloys possessing a broad range of carbon contents and heat treated using a broad range of cooling rates.

该项研究描述了铁碳合金中魏氏组织和马氏体的形成，所用合金具有宽的碳含量范围，热处理时采用的冷却速率范围也是宽的。

5. Tempering is possible because of the instability of the martensite, the principal constituent of hardened steel.

由于马氏体这一淬硬钢主要成分的不稳定性，使得回火成为可能。

7. A solid solution of ferric carbide or carbon in iron; cools to form pearlite or martensite .

含铁碳化物或含碳铁的固体溶体，冷却可形成珠光体或马氏体。

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8. The research results show martensite transformation stress decreases with an increase in cycle due to the residual strain during full cyclic loading.

研究表明在完全循环加载过程中，由于残余应变的存在，马氏体相变应力随循环增加而减小。

9. One of important reasons is that the generation of brittle martensite due to brake sliding of wheels on rails leads to tread damage and its creep.

一个主要原因是车轮在钢轨上由于制动滑动产生的脆性马氏体所导致的踏面热损伤和蠕变。

10. In general, the microstructure of weld metal of the low carbon and low alloy steels consists of pre eutectoid ferrite, acicular ferrite, side plate ferrite and some granular bainite and martensite.

低碳低合金钢焊缝金属的显微组织基本上包括先共析铁素体、针状铁素体、侧板条铁素体、少量的粒状贝氏体和马氏体。

11. It can be considered that the main reason for this occurrence is the carbide precipitation at boundaries of recrystallized martensite and ferrite grains.

可以认为，在再结晶马氏体和铁素体晶界上渗碳体析出，是产生这种现象的主要原因。

12. It is suggested that the stabilization of austenite during tempering is chiefly due to the reduction of stresses that promote the growth of martensite embryos.

回火时奥氏体的稳定化现象可能主要由应力的减小所引起的，这些应力在冷却时有助于马氏体核胚的扩展。

13. Therefore, the masses values shown above are not accurate to martensite chromium steels.

因此，表中给出的重量对马氏体铬钢来说不是精确值。

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14. The specimen with larger crack length has larger volume fraction of the martensite and larger transformation zone.

马氏体的体积分数以及相变区域随着裂纹长度的增加而显著增大。

15. The results show that the microstructures of the cast iron under air cooling and cryogenic treating respectively after destabilized treatment consist of austenite, martensite and eutectic carbides.

结果表明，经去稳加空冷和去稳加深冷两种工艺处理后的高铬铸铁显微组织均由奥氏体、马氏体和共晶碳化物组成。

16. According to their matrix structure, the white irons are divided into ferrite white iron, ferrite-austenite white iron, austenite white iron, pearlite white iron and martensite white iron.

白口铸铁按基体分为铁素体白口铸铁、铁素体-奥氏体白口铸铁、奥氏体白口铸铁、珠光体白口铸铁和马氏体白口铸铁。

17. Phase transformation from austenite to martensite in NiTi alloy strips under uniaxial tension has been observed in experiments and has been numerically simulated as a localized deformation.

单向拉伸镍钛合金带中从奥氏体到马氏体的相变已在实验中观测到，并被看作为*部变形进行了数值模拟。

18. The higher initial strain hardening rate and higher strength of dual phase are attributed to rapid strain hardening in ferrite and the load transfer from the ferrite to martensite.

铁素体迅速应变硬化和铁素体到马氏体的载荷传递使双相钢具有较高的初始应变硬化速率和较高的强度。

19. Retained austenite reduction and carbide precipitations in the martensite are anticipated by the tempering process.

减少残余奥氏体和马氏体碳化物的降水预计的回火工艺。

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20. The amount of decrease in martensite transformation stress, that was residual stress, was proportional to residual strain.

马氏体相变应力的变化量（即残余应力）与残余应变成线形关系。

21. Transformation of martensite into a network of chromium carbides.

从马氏体转变成网状的碳化铬。

22. Mainly its metallographic structure consists of acicular ferrite and martensite.

钢的组织主要由针状铁素体和马氏体两相组成。

23. The results show that the interface energy increases and the interface width decreases between martensite and parent with the increase of velocity of the interface motion.

结果显示，随着界面运动速率的提高，马氏体和母相之间的相界面能量增加，相界面的宽度下降。

24. The results show that P/M valve seats using this technology has high density and high carbon content , and their microstructure are martensite , bainite and network carbide.

结果表明，采用该工艺可获得高密度、高碳含量、具有马氏体、贝氏体和网状碳化物组织的粉末冶金气门座。

25. The results show that P/M valve seats using this technology has high density and high carbon content , and their microstructure are martensite , bainite and network carbide.

结果表明，采用该工艺可获得高密度、高碳含量、具有马氏体、贝氏体和网状碳化物组织的粉末冶金气门座。

26.acicular martensite

针状马氏体

27.Crack propagation from the flameout edge can be modeled by considering an edge crack in the martensite surface from flame cutting.

裂纹从烧割边缘的扩展可模拟为一个从烧割处的马氏体表面起始的边裂纹。

30.a solid solution of ferric carbide or carbon in iron; cools to form pearlite or martensite.

含铁碳化物或含碳铁的固体溶体，冷却可形成珠光体或马氏体。

32.tetragonal martensite

正方晶格马氏体

33.alpha martensite

α-马氏体

34.tempered martensite

回火马氏体

35.coarse martensite

粗针马氏体