粗晶的用英语怎么说，粗晶的的英文翻译

词语导航

基本信息

词语：粗晶的

繁体：粗晶的

拼音：cū jīng de

英语翻译

【化】 macrocrystalline

相关词条

1.macrocrystalline  2.phanerocrystalline  3.phaneritic  

分词翻译

粗的英语翻译：

careless; coarseness; grossly; thick; wide
【医】 pachy-

晶的英语翻译：

brilliant; crystal; glittering

翻译例句

1. 模型除了描述了晶粒的生长，同时还描述了枝晶臂的粗化。

The improved model not only describes grain growth, but also describes coarsening of dendrite arms.

2. 粗晶lc 4合金在较低温度和较高应变速率条件下，因能产生有效的再结晶细化，而呈现出一定的超塑性。

The coarse crystalline LC4 alloy exhibit some superplasticity under lower temperature and higher strain rate, because it can create effective recrystallization refinement.

3. 对于复合扩径管，由于奥氏体粗晶度的原因，也可以采用信号处理系统有效地降低噪音。

It may also use signal process system to decrease noise efficiently for compound expanded pipes, due to austenite rough grain size.WwW.WEntIyI.CoM

4. 伟晶花岗岩是一种可以在堤防或静脉发现粗的类型。

Pegmatite is a coarse type of granite that can be found in dikes or veins.

5. 铝合金反向挤压过程中，不同的挤压工艺条件对粗晶组织将产生不同的影响。

Among aluminium alloy indirect extrusion producing period, various process condition influence different result to the coarse grain structure.

6. 研究表明，调质后粗晶奥氏体的遗传现象，是由于沿原奥氏体晶界碳化物偏聚析出的结果。

This paper shows that inheritance phenomenon of coarse austenite grains are due to the boundary segregation of carbide along the prior austenite grain boundary.

7. 粗晶lc 4合金在较低温度和较高应变速率条件下，因能产生有效的再结晶细化而呈现出一定的超塑性。

Coarse crystalline LC4 Aluminium Alloy presents certain superplasticity at lower deformation temperature and higher strain rate because it can create effective recrystallize refinement.

8. 采用热模拟方法，对EH36MOD钢焊接热影响区粗晶区(CGHAZ)的相变超塑性及其对疲劳寿命的影响进行了研究。

The transformation superplasticity in welding CGHAZ (Coarse Grain Heat Affected Zone) of EH36MOD steel and its effect on fatigue life have been studied with thermal simulating method.

9. 评述了粗晶碳化钨粉的各种特殊性能，列举了用粗昌碳化钨粉制成的合金及粗晶碳化钨粉在硬面材料中的多种多样的用途。

Various properties of coarse-grain WC powder are described, as well as the alloys made by coarse-grain WC powder and its uses of all kinds in hard-surface materials.

10. 结果表明，细小弥散的第二相粒子能有效地阻碍焊接热影响区粗晶区的原奥氏体晶粒长大，改善该区域的韧性。

The results show that the dispersed second phase particles can effectively retard the growth of austenite grain in the CGHAZ, and improve the toughness.

11. 从锻件的材质、锻造工艺参数、锻模温度、热处理工艺参数四个方面，阐述了铝合金模锻件粗晶缺陷的产生原因及消除措施。

The article discusses causes and eliminated measures of aluminium alloy die forgings crassitude crystal from four sides of component, technical parameter, temper of die and heat treatment.

12. 采用热模拟技术研究了二次热循环对X80级管线钢焊接粗晶区性能的影响。

To study quadratic heat circulation to the effect of welding wide crystal area performance of X80 pipeline steel by adopting thermal simulation technology.

13. 采用光学显微镜和透射电镜研究了锆处理对微合金钢粗晶热影响区组织的影响。

Microstructure of simulated coarse grain heat affected zone (CGHAZ) of Zr Microalloyed HSLA Steel are investigated using optical microscopy and transmission electron microscopy.

14. 在试验的焊接条件下，WCX355超细晶钢在热影响粗晶区未有明显脆化，在回火区也未发生软化现象。

Under the experiment"s welding condition, WCX355 ultrafine grained steels didn"t distinctly embrittle in CGHAZ and didn"t soften in tempering zone either.

15. 试验钢由针状铁素体和少量块状铁素体组成，焊缝为典型的针状铁素体组织，焊接热影响区粗晶区以粒状贝氏体为主。

The toughness of weld metal is the highest while the coarse grained region in the HAZ is the lowest because of welding thermal cycle and formation of brittle microstructure.

16. 由于粗晶材料中材料微结构引起的散射(结构噪声)，使得超声探伤比较困难。

Ultrasonic flaw detection in large-grained materials is difficult because of multiple scattering from material microstructure (grain noise).

17. 同时，还从焊接粗晶区组织变化中找出了粗晶区性能变化的原因，并提出了韧化方向。

Meantime it finds out property change reason of coarse crystal area from welding coarse crystal area structure change and puts forward the direction of toughness.

18. X80管线钢在焊接过程中，热影响区由于受到焊接过程热的作用，其组织和性能会发生较大的变化，尤其是粗晶热影响区的组织和性能变化最大。

Owing to heat action during X80 pipeline steel welding the organization and performance of heat affected zone will change considerably in particular of coarse grain heat affected zone (CGHAZ).

19. 通过对粗晶合金性能的检测和金相组织的观察，研究了碳含量对粗晶硬质合金性能的影响。

The effect of carbide content on the properties of coarse grained cemented carbide is studied by means of measuring properties and observing polished cross section.

20. 纳米结构材料的性能显示出显著的改进，与粗晶材料的性能有很大的差别。

The material properties of the nanostructured materials show remarkable improvement or deviation from the properties exhibited by the coarser grained material.

21. 试验还证明，工作应力对粗晶区回火脆性的影响不大。

The tests prove that the working stress has little effect on the temper embrittlement of the coarse grained region.

22. 通过对管线钢焊接粗晶区韧性影响因素的分析，提出了管线钢粗晶区的韧化方向。

Through the analysis of elements affecting the rough crystal zone in pipeline steel weld, it raises the flexing direction of rough crystal zone of pipeline steel.

23. 采用焊接热模拟试验和冲击试验，研究了X80管线钢焊接热循环对粗晶区组织性能的影响。

The influence of welding thermal cycle on structure and properties in grain-coarsening region of X80 pipeline steel was investigated by weld thermal simulation technique and the charpy test.

24. 超细晶粒钢激光焊接接头粗晶区有较好的韧性。

The coarse grain zones of laser welded joint of super fine grain steel show good toughness.

25. 同时，过大的界面厚度会导致主枝晶和二次枝晶粗化。

Meanwhile, too great interface thickness would coarsen the secondary arms.

26. 采用浆体循环与陈化沉淀的方法，使沉淀的铀浓缩物由无定形凝胶体或微晶转化成易沉降过滤的粗晶体。

Through precipitate circulation and aging, the yellowcake slurry in amorphous or microlite form was transformed to crystal precipitate.

27. 晶间孔隙主要发育在陡一段下部的粗粉晶含灰云岩中，白云石晶体为自形晶和半自形晶。

The former are mainly developed in the coarsesilt grained, euhedral and semi-euhedral crystalline calcitic dolomites occurring in the lower part of the first member of the Doushantuo Formation.

28. 粗晶组织比细晶组织的裂纹偏折更大，粗糙度诱发闭合效应更强，因而裂纹扩展较幔。

The short cracks deflect more severe in coarse grain structure than in fine grain one, result in roughness induced crack closure effect, therefore exhibit slow crack growth rate.

29. 采用焊接热模拟的方法，模拟HAZ粗晶区组织，并在不同回火参数下对试样进行焊后热处理。

By use of the method of welding thermal simulation, the morphology in HAZ was simulated and the post-weld heat treatment under different tempering parameter to the test specimen was carried out.

30. 进一步比较了断裂拉杆和已经产生裂纹的拉杆焊缝区的显微组织，发现在焊缝的热影响区粗晶区存在沿晶裂纹。

The fracture rod has cracks in the microstructure of weld zone, intergranular cracks exists in the coarse grain zone of the weld heat affected zone.