martensite
美 ['mɑrtənˌzaɪt] 
英 ['mɑ:tənˌzaɪt]
英汉解释
英英解释
例句
Unlike that of tempered martensite structure, there is little effect of oxygen content on the fatigue properties of ferrite-pearlite steel.
与调质回火马氏体组织不同,氧含量对铁素体-珠光体组织的疲劳性能没有明显的影响。
The final structure obtained from tempering a fully hardened steel is called tempered martensite.
回火完全淬硬钢得到的最终组织结构被称为回火马氏体。
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。
Bainite also occurs during thermal treatments at cooling rates too fast for pearlite to form, yet not rapid enough to produce martensite.
贝氏体期间也发生在热处理冷却速度太快珍珠岩形式,还没有足够的迅速产生马氏体。
Weld metal is composed mainly of acicular ferrite , granular bainite and a small amount of martensite.
焊缝金属主要有针状铁素体+粒状贝氏体+少量马氏体组成。
But this kind of stainless steel internal organization for tempering martensite, with guide magnetic, can be magnet attracted.
但这类不锈钢内部组织为回火马氏体,具有导磁性,可被磁铁吸引。
The invention discloses a martensite stainless steel with antibacterial property and an application thereof in the industry of hardware.
抗菌马氏体不锈钢及其在五金行业中的应用。
The tempered lath martensite grows up with the tempering temperature increasing, however the tendency of growing is not obvious.
随淬火加热温度的升高,板条马氏体逐渐长大,但长大趋势不明显;
The martensite stainless steel with antibacterial property is mainly applied to hardware products.
抗菌马氏体不锈钢主要应用于五金产品。
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。
To sum up, the upper bainite characterize pearlite decomposition, while the lower bainite has the impression of martensite transformation.
从整体上看,上贝氏体具有某些珠光体分解的特征;而下贝氏体则具有马氏体相变的特征。
The ferrite grain size of samples influenced the strength and elongation of dual-phase steels with different martensite contents.
试样的铁素体晶粒大小在不同的马氏体范围内对强度和延伸率有不同的影响。
the HAZ was martensite and a small amount of residual austenite.
热影响区为马氏体组织和少量残余奥氏体。
Under high strain rate, stress-induced martensite phase transformation happened to the sample in the solution treated condition.
在高应变率下,固溶态的试样发生了应力诱发马氏体相变;
The retained austenite is unstable, and will transform into martensite under certain plastic deformation conditions.
这种残余奥氏体稳定性较差,在一定的塑性变形量下,会向较稳定的马氏体转变。
The microstructure of the weld bonds is a combination of martensite, lower bainite and retained austenite.
焊接熔合区组织为马氏体+下贝氏体+残余奥氏体;
Therefore, the occurrence immediately provides many nucleation sites for martensite.
此现象可在麻田散体相变化时提供大量的异质成核位置。
The banded structure in SWRH77B high carbon steel rod might be martensite.
结果表明:高碳盘条中的带状组织为马氏体。
And martensite would appear both region of high dislocation density and region of low dislocation density after deformation.
且马氏体在变形的后期中将出现伴生的高位错密度区和低位错密度区。
Martensite structure is found in weld center and little martensite with more ferrite structure is observed in fine grained region .
焊缝熔化区组织均为马氏体、细晶区组织为少量马氏体和铁素体;
And the retained austenite transforms into martensite fast at the preliminary state with the increase of strain rate.
另得出,应变率越高,初期残余奥氏体向马氏体转变越快。
The results show that the nitric martensite after cryogenic treatment has better wear resistance.
结果表明,含氮马氏体深冷处理后有更好的耐磨性能。
With the help of X-ray diffraction technique, thermal-induced martensite transformation in 304 austenitic stainless steel was investigated.
借助X射线衍射技术,研究了304奥氏体不锈钢热诱发马氏体相变倾向。
Microstructure in fine grain zone was mainly composed of martensite, and its grain size was very small and uniform.
细晶区组织以马氏体为主,组织细小均匀。
The deformation dislocation density and martensite microstructure were also analysed by TEM.
采用TEM对形变位错密度以及马氏体组织进行了分析。
The width of the martensite -like layer kept invariable during heat treatment period.
随着热处理时间的延长,类马氏体层的宽度并无明显的变化;
Of higher carbon content of martensite plates will be generated, more obvious hardening of the weld.
对含碳量较高的钢板会生成马氏体组织,焊缝的硬化比较明显。
The results show that the structure of the surfacing layer was martensite, carbides and residual austenite.
试验结果表明:焊后的堆焊层组织为马氏体+碳化物+残余奥氏体。
As cast martensite high chromium white cast iron has good wear resistance and high impact toughness.
马氏体铸态高铬铸铁具有良好的抗磨、耐蚀和强韧性。
Ferrite(F) zone, pearlite(P) zone, bainite (B) zone and martensite(M) zone were found on both CCT diagrams.
两种CCT曲线上均有铁素体区(F)、珠光体区(P)、贝氏体区(B)和马氏体区(M)。
The reason of deduces deformation martensite in the drawing process is analysed also.
并分析了拉拔时产生形变马氏体的原因。
There ate a small amount of martensite in HAZ, and distributed in gradient.
热影响区中存在少量细小马氏体组织,且呈梯度分布。
X-Ray analysis finds that steel after tempering main matrix of tempered martensite.
用X-射线衍射分析发现,试验钢回火后的组织主要为回火马氏体。
The impact abrasion performance of martensite steel was studied.
对马氏体细晶粒高强度钢的冲击磨损性能进行了研究。
New Martensite- Bainite nodular cast iron will be continued development.
新型马贝球铁在未来将会得到继续发展。
Thick sheet relatively has a high amount of martensite transformation.
厚的板材马氏体转变量相对较多;
Temperature on the grain size and the proliferation carbon in martensite is much larger than the holding time.
温度对晶粒的大小和马氏体中碳化物扩散的影响远大于保温时间。
The microstructure of martensitic Ni50Mn25 XIn25-X alloys is full of spearhead-shaped martensite which have good co-cooperation effect.
Ni50Mn25XIn25-x合金的马氏体多为矛头状的马氏体条,具有良好的自协作效应。
The micro structure of deposited metal is composed of martensite , residual austenite and carbide hard phase.
堆焊层组织为马氏体+残余奥氏体+碳化物硬质相。
Martensite heat-resistant steel type of heat treatment.
马氏体型耐热钢的热处理。
