查询词典 austenite
- 与 austenite 相关的网络例句 [注:此内容来源于网络,仅供参考]
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Gaussian Process Modelling of Austenite Formation in Steel We introduce the Gaussian process model for the empirical modelling of the formation of austenite during the continuous heating of steels.
高斯过程中形成的造型的奥氏体钢我们引进了高斯过程模型的实证模型的形成,在连续供暖的奥氏体钢。
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The improvement of the frictional resistance is mainly due to the effect of carbon on residual austenite and the morphology of carbides, and an appropriate amount of residual austenite is helpful to improve the impact toughness and hardness of matrix; The spherical VC can hinder the initiation and propagation of crack and improve the frictional resistance.
碳含量对耐磨性的影响主要是通过对基体残余奥氏体量和碳化物形态表现出来的,适量的残余奥氏体使基体具有较好的冲击韧度及硬度;形态较为固整的VC颗粒,对裂纹的萌生及扩展起阻碍作用,从而使材料的耐磨性提高。
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The results show that the addition of certain manganese in high chromium cast iron leads to a re-partitioning of alloy elements between austenite and carbide and a dropping in equilibrium phase transformation temperature although it's inappreciable for the influence of manganese on mass fractions of every phase in this cast iron. There is about 87 percent ledeburite under thermodynamic equilibrium condition and 23 to 32 percent M7C3 type carbide under thermodynamic non-equilibrium condition in the microstructure of 3C-l5Cr-4Mn-0.75Si system high chromium cast iron. Furthermore, the improvement of austenite stability and hardenability of manganese alloyed high chromium cast iron may been expected because there is a substitution between manganese and chromium that has been suggested by thermodynamic calculations.
结果表明,锰虽然对高铬铸铁中的各相数量影响不大,但一定数量的锰存在促使合金元素在奥氏体和碳化物两相中的重新分配,并降低平衡相的转变温度;在平衡条件下3C-15Cr-4Mn-0.75Si系高铬铸铁中菜氏体数量约占87%,而非平衡条件下M7C3型碳化物数量在23%-32%之间,且奥氏体中锰铬互替现象保证了奥氏体的稳定性和加锰高铬铸铁的淬透性。
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The results show that the addition of certain manganese in high chromium cast iron leads to a re-partitioning of alloy elements between austenite and carbide and a dropping in equilibrium phase transformation temperature although it's inappreciable for the influence of manganese on mass fractions of every phase in this cast iron. There is about 87 percent ledeburite under thermodynamic equilibrium condition and 23 to 32 percent M7C3 type carbide under thermodynamic non-equilibrium condition in the microstructure of 3C-15Cr-4Mn-0.75Si system high chromium cast iron. Furthermore, the improvement of austenite stability and hardenability of manganese alloyed high chromium cast iron may been expected because there is a substitution between manganese and chromium that has been suggested by thermodynamic calculations.
结果表明,锰虽然对高铬铸铁中的各相数量影响不大,但一定数量的锰存在促使合金元素在奥氏体和碳化物两相中的重新分配,并降低平衡相的转变温度;在平衡条件下3C-15Cr-4Mn-0.75Si系高铬铸铁中莱氏体数量约占87%,而非平衡条件下M7C2型碳化物数量在23%~32%之间,且奥氏体中锰铬互替现象保证了奥氏体的稳定性和加锰高铬铸铁的淬透性。
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The quantum chemistry ab initio calculation method and semi-empirical interatomic pair potential were combined, and the crystal cell models of the alloyed Austenite in "the empirical electronic theory for solid states and molecules" were consulted. The cohesive energy information of Fe-C-Me Austenite crystal cell was calculated.
利用量子化学从头计算方法和半经验原子间相互作用对势,并参考"固体与分子经验电子理论"中的合金奥氏体的晶胞模型,计算出Fe-C-Me奥氏体晶胞的结合能信息。
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The results show that the toughness of over-heated zone increased greatly because of austenite film lying in lathy martensite and a few ferrite.The toughness of fine grained zone decreased due to many factors,such as acicular martensite,a small quantity of austenite film,carbide separation and so on.
结果表明,10Ni8CrMoV这一新型钢种的模拟焊接热影响区的过热区和细晶区表现出与绝大多数材料完全相反的规律,过热区存在少量的铁素体组织,马氏体板条束之间形成了一定量的奥氏体薄膜,这些韧度相的存在使得过热区的冲击韧度与基体相比有了较大的提高;细晶区部位奥氏体含量很少,细小的板条马氏体端部呈针状特征造成应力集中,易于诱发裂纹。
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A steel plate having a tensile strength of at least about 930 MPa (135Ksi), a toughness as measured by Charpy V-notch impact test at least about 120 joules (88 ft-lb), and a microstructure comprising at least about 90 volume percent of a mixture of fine-grained lower bainite and fine-grained lath martensite, wherein at least about 2/3 of said mixture consists of fine-grained lower bainite transformed from unrecrystallized austenite having an average grain size of less than about 10 microns and comprising iron and specified weight percentages of the additives: carbon, silicon, manganese, copper, nickel, niobium, titanium, aluminum, calcium,rare earth metals, and magnesium, is prepared by heating a steel slab to a suitable temperature; reducing the slab to form plate in one or more hot rolling passes (10) in a first temperature range in which austenite recrystallizes; further reducing said plate in one or more hot rolling passes (10) in a second temperature range in which austenite does not recrystallize, quenching (12) said plate to a suitable quench stop temperature (16); and stopping said quenching and allowing said plate to air cool (18) to ambient temperature.
一种钢板,其抗拉强度至少约930MPa135ksi),在-40℃(-40°F)下,采用夏氏V型缺口冲击试验测定的韧性至少约120焦耳(88英尺-磅),并且其显微组织包含至少约90%体积的细晶粒的下贝氏体和细晶粒的板条马氏体的混合物,其中该混合物的至少约2/3由从平均粒径小于约10微米的未再结晶奥氏体转变而来的细晶粒的下贝氏体组成,而且,其中所述的钢板包含铁和特定重量百分比的添加元素:碳、硅、锰、铜、镍、铌、钛、铝、钙、稀土金属和镁,所述钢的制备过程为:将一钢板坯加热至一个适当的温度;在奥氏体可发生再结晶的第一个温度范围内,采用一个或多个热轧道次(10),将所述板坯轧制成板材;在奥氏体不发生再结晶的第二个温度范围,采用一个或多个热轧道次(10)进一步轧制所述板材;将所述板材淬火处理(12)至一个适当的淬火终止温度(16);停止所述淬火处理并将所述板材空冷(18)至室温。
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It is necessary for two kinds of controlled cooling processing to possess air cooling phase to separate ferrite from austenite, and, by means of this, polygonal ferrite forms, the carbon concentration of the retained austenite untransformed increases and results in the stability of retained austenite increased.
在二种冷却方式轧后控冷的过程中,必须有一个α/γ二相分离的空冷阶段,使多边形铁素体形成,未相变奥氏体中碳浓度增高,其稳定性增强。
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An ultra-high strength, weldable, low alloy steel with excellent cryogenic temperature toughness in the base plate and in the heat affected zone when welded, having a tensile strength greater than 830 MPa (120 ksi) and a micro-laminate microstructure comprising austenite film layers and fine-grained martensite/lower bainite laths, is prepared by heating a steel slab comprising iron and specified weight percentages of some or all of the additives carbon, manganese, nickel, nitrogen, copper, chromium, molybdenum, silicon, niobium, vanadium, titanium, aluminum, and boron; reducing the slab to form plate in one or more passes in a temperature range in which austenite recrystallizes; finish rolling the plate in one or more passes in a temperature range below the austenite recrystallization temperature and above the Ar3 transformation temperature; quenching the finish rolled plate to a suitable Quench Stop Temperature; stopping the quenching; and either, for a period of time, holding the plate substantially isothermally at the QST or slow-cooling the plate before air cooling, or simply air cooling the plate to ambient temperature.
在基体板以及焊接时的热影响区处的低温韧性优异的超高强度、可焊接、低合金钢具有高于830MPa(120ksi)的抗拉强度,并且具有包含奥氏体薄膜层和细晶粒的马氏体/下贝氏体板条的显微层状组织,所述钢的制备过程为:加热含有铁以及特定重量百分比的添加元素的钢坯,所述添加元素为碳,锰,镍,氮,铜,铬,钼,硅,铌,钒,钛,铝,以及硼中的一些或全部;在奥氏体可发生再结晶的温度范围内,采用一个或多个道次,将所述钢坯轧制成板材;在低于奥氏体再结晶温度但高于Ar 3 转变点的温度下,采用一个或多个道次对所述板材进行终轧;将所述终轧板材淬火至一适当淬火终止温度;停止所述淬火;或者在空冷前在QST点基本等温保持所述板材一段时间,或者对所述板材进行缓慢冷却,或者只是简单地将所述板材空冷至室温。
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The results show that the composite compound observed is mainly composed of TiC, CaS and CeS; the nucleation sequence of the phases during the solidification of the alloy is CeS→TiC→austenite; the (100) crystal plane of CeS and the (001) plane of TiC, and (100) plane of TiC and (001) plane of austenite match perfectly; CeS can act as the heterogeneous nucleating center of TiC, and TiC can act as the nucleating center of austenite.
结果表明:试样中的复合化合物主要由CaS,CeS和TiC组成;合金凝固时的形核顺序为CeS→TiC→奥氏体;CeS及CaS的(100)晶面与TiC的(001)晶面、TiC的(100)晶面与奥氏体的(001)晶面匹配良好;CeS凝固时可作为TiC的异质形核核心,而TiC又可作为奥氏体的形核核心。
- 推荐网络例句
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As she looked at Warrington's manly face, and dark, melancholy eyes, she had settled in her mind that he must have been the victim of an unhappy attachment.
每逢看到沃林顿那刚毅的脸,那乌黑、忧郁的眼睛,她便会相信,他一定作过不幸的爱情的受害者。
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Maybe they'll disappear into a pothole.
也许他们将在壶穴里消失
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But because of its youthful corporate culture—most people are hustled out of the door in their mid-40s—it had no one to send.
但是因为该公司年轻的企业文化——大多数员工在40来岁的时候都被请出公司——一时间没有好的人选。