英语人>词典>汉英 : 索氏体的 的英文翻译,例句
索氏体的 的英文翻译、例句

索氏体的

基本解释 (translations)
sorbitic

更多网络例句与索氏体的相关的网络例句 [注:此内容来源于网络,仅供参考]

The result indicated that the microstructure of the steel consisted of tempering troostite and tempering sorbite.

结果表明,钢的组织主要由回火屈氏体与回火索氏体组成。

Quenching and tempering treatment to be tempered sorbite organization, and its mechanical properties than those of equal hardness and normalizing sorbite organizations as excellent.

调质处理后得到回火索氏体组织,它的机械性能均比相同硬度的正火索氏体组织为优。

When the finishing temperature is 950℃ and the cooling rate is 4℃/s, the interlamellar spacings of pearlite is a bout 97 nm and the percentage of sorbite is 95.7%. At this time, the structure is the best.

高碳钢SWRH77B在终轧温度为950℃、冷却速度约为4℃/s时,其珠光体的片层间距约为97nm,索氏体含量达到95.7%左右,表明此时的组织为最佳索氏体组织。

In order to improve anti-fatigue property of wire rope, poval solution sorbitized treatment by water quenching replacing by lead quenching has been studied in laboratory, and a heat treatment process to obtain fine and homogeneous sorbite and possess high micro-hardness has been found.

为了进一步提高钢丝绳的抗疲劳性能,本文还进行了用聚乙稀醇水溶液水浴淬火索氏体化处理替代铅浴处理的实验室研究,找到了一种能使钢丝得到细而均匀的索氏体组织和具有较高显微硬度值的热处理工艺。

Strain fatigue life in pearlite is longer than that in tempered sorbite with same tensile strength, which can be attributed to the small plastic strains in pearlite.

轨钢的应变疲劳是塑性应变控制过程,抗拉强度相等时,珠光体的应变疲劳寿命高于回火索氏体的疲劳寿命,其原因在于珠光体具有较小的塑性应变幅。

The quench zone consisted of martensite ,retained sorbite, temper troosite and so on.

激光作用区主要是低碳板条马氏体与未转变的索氏体甚至屈氏体、回火索氏体组织和屈氏体。

The fragment fell from the roll is the hardening layer, and the micrograph of its surface, its middle area and its bottom are martensite, sorbite, and troostite respectively.

剥离块为辊身的硬化层,硬化层外表为马氏体,中部为索氏体,硬化层的底部组织为屈氏体。

The results show that: with the increase of tempered temperature, the quenched martensite transforms into the tempered martensite, tempered martensite + tempered sorbite and tempered sorbite; the strength of samples decreases continuously but yield ratio increases a little.

结果显示:随回火温度的升高,其组织由淬火马氏体逐渐转化为回火马氏体、回火马氏体+回火索氏体及回火索氏体;试样的强度连续下降,屈强比略有上升。

The results show that the fractography is woody structure, there is a great deal ferric oxide in the hair seam, its matrix is composed by the ferrite, the pearlite and a little of sorbite and troostite, the grain size is 9~10 levels primarily, there are obvious zone structure and inclusions, which are silicate, sulfide and a little of oxide.

结果表明:弯裂带钢的断口呈木纹状,发纹处存在大量氧化铁,其基体主要由铁素体和珠光体组成,有少量索氏体及屈氏体,晶粒度以9~10级为主,有较为明显的带状组织,夹杂物为硅酸盐、硫化物及少量氧化物。

Through a series of quenching, tempering, tensile testing, low-temperature impact test and metallographic analysis, we ultimately came to the following conclusions:(1) low-carbon alloyed steel 20CrMn2NiMoV quenching at 870℃ and tempering at 200℃, whose structure contains tempered dislocation lath martensite and few small bainite under mixed, has the best obdurability;(2) Carbon Steel 45CrMn2NiMoV quenching at 850℃ and tempering at 620℃, whose structure is sorbitic, has a performance less than that of low-carbon Alloyed steel, but it can also meet the basic design requirements.(3) Mn can substitute for the role of Ni within limited extent.

通过一系列淬火、回火、拉伸试验、低温冲击试验以及金相分析,最终得出以下主要结论:(1)低碳合金钢20CrMn2NiMoV经870℃淬火+200℃回火,得到回火位错型板条马氏体+少量细小下贝氏体的混合组织,具有最佳的强韧性配合;(2)中碳合金钢45CrMn2NiMoV经850℃淬火+620℃回火,得到回火索氏体组织,综合性能虽然不及低碳合金钢,但也能基本满足设计要求;(3)Mn在一定程度上能够替代Ni的作用,适量的Mn和Ni相互配合可以得到最佳的低温韧性,因此&以Mn代Ni&是低温钢材料研究开发中一条可行的适合我国资源状况的合金化思路。

更多网络解释与索氏体的相关的网络解释 [注:此内容来源于网络,仅供参考]

sorbite:索氏体

索氏体(sorbite)是钢经正火或等温转变所得到的铁素体与渗碳体的机械混合物. 回火索氏体(tempered martensite):将淬火钢在450-600℃进行回火,所得到的索氏体称为回火索氏体,是指马氏体在500~650℃

troostite:屈氏体

由于相变温度低,用光学显微镜看不清楚,因此管腐蚀后分辨不开的一团叫屈氏体(Troostite)或索氏体(Sorbite),以纪念金相学的鼻祖Sorby和贡献很大的Troost.

sorbitic:索氏体的

sorbite索氏体 | sorbitic索氏体的 | sorbitizing索氏体化

sorbitic:索氏体/索氏体的

sorbide /山梨糖醇酐/ | sorbitic /索氏体/索氏体的/ | sorbitol /山梨糖醇/

sorbitic:索氏体

sorbide 山梨糖醇酐 | sorbitic 索氏体 | sorbitic 索氏体的

vergueterter Sorbit:回火索氏体

Verglasung 窗玻璃布置 | vergueterter Sorbit 回火索氏体 | verguetet 调质处理的