您要查找的是不是:
- lamellar martensite 片状马氏体
- Having the form of a thin plate or lamella. 薄片形的有薄片或鳃瓣状形体的。
- There is not lamella in the ingot. 钢锭没有明显的片层状组织。
- Martensite lath changes into fine tempered sorbite w. 材料经高温回火得到细小回火索氏体,力学性能优良。
- The result is a patchwork mosaic of bone without an even lamellar structure. 结果形成了不均一的板层结构的骨的不协调嵌合体。
- The lamellar complex disintegrate and protrude outward to form the spike. 棘突由片层复合体衍生物汇集并延伸而成。
- At 12 weeks, the frozen mandibles and ilia had formed lamellar bone. 12周时冷冻骨及髂骨皮质形成较成熟的板层骨。
- 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。
- Primary bone is a temporary tissue and is soon replaced by the definitive, lamellar variety of bone. 初级骨是暂时性的组织,不久就为永久性的板层骨所代替。
- Special, highly alloyed welding wire for aluminium pressure molds. Martensit hardening. Good filing qualities. 这是一种特殊的合金焊丝,用于压铝模具的修补中,具有较高的焊接硬度和良好的堆焊性能。
- Small-angle X-ray scattering (SAXS) is utilized to study the ordering of AOT/water lamellar phase. 摘要用小角X射线散射研究了AOT/水层状溶致液晶的有序性。
- The proportion of austenite in the matrix of as-cast cast iron 290Cr26MoW increases but that of martensite decreases. 铸态290Cr26MoW耐磨白口铸铁基体的奥氏体比例增加,马氏体减少。
- As for small diameter workpiece, martensite distribution can be obtained by immediately quenching. 对于直径较细的工件,轧后立即淬火几乎可得到全部马氏体。
- One of numerous particles located on the inner lamellar surface of a chloroplast and sometimes considered to be the functional unit of photosynthesis. 光能转化体附着在叶绿体内表层的许多微粒之一,时常被认为是光合作用的机能单位
- Matrix should be of martensite, because it can resist impact and has little deformation. 基体应是马氏体,它能抵抗冲击,变形小。
- Tmis paper deals with the ordering of Fe-1.83C(Wt%)martensite during aging at roomtemperature. 利用透射电镜对Fe-1.;83C马氏体室温时效所产生的有序化进行了详细的研究。
- The large coarsened martensite and grainy bainite are the internal causes of brittlement. 粗大的马氏体和焊接过程产生的粒状贝氏体是脆化的内在原因.
- Kinetics and mechanisms of lamellar and non-lamellar phase transitions in aqueous lipid. 水脂质中,层状结构转变为非层状结构的机制动力学。
- 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。
- There were no lamellar or onion-derm imagings which appeared frequently is contrast sialography. 无造影检查所见主导管层状或葱皮状。
