英语释义

1. capable of plastic deformation under low stress at an elevated temperature —used of metals and alloys

2. of or relating to superplastic materials
superplastic molding

片语

Metal Superplasticity金属超塑性

superplasticity phenomenon超塑性现象

Superplasticity model超塑性模型

transition superplasticity转变超塑性

superplasticity behavior超塑性行为

superplasticity steel超塑性钢

structural superplasticity超塑性

Superplasticity Forming超塑成形

英汉例句

• The deformation mechanism of the compression superplasticity of commercial AZ31 magnesium alloy-extruded is grain boundary sliding mechanism in coordination with the dynamic recrystallization.

  工业挤压态az31镁合金压缩超塑性变形机制为动态再结晶协调下的晶界滑移机制。

• This paper dealt with the welding with phase transformation induced superplasticity technology.

  本文介绍了相变超塑性焊接技术。

• The relation among the microstructure, superplasticity and deformation system are researched, thus offering guidance for designing or adjusting production process.

  探讨了显微组织、超塑性性能与变形制度间的关系，从而为制定和调整生产工艺提供了理论指导。

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

  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。

• This paper reveals the effects of particle on superplasticity ofparticle reinforced composites. The addition of particle into matrix alloychanged the superplastic behavior of the alloy.

  本文介绍了颗粒增强复合材料超塑性中颗粒的作用：与基体材料相比超塑行为被改变；

• 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.

  采用热模拟方法，对EH36 MOD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。

• This paper introduces the test process of superplasticity forming of the aluminium alloy taken with pretreatment.

  本文介绍了铝合金经超塑预处理后的超塑成形实验过程。

• It is indicated that as-cast leaded brass without pretreatment can present certain superplasticity at proper condition.

  结果表明：此种不经预处理的铸态铅黄铜，在适当条件下具有一定的超塑性。

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

  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。

• In this paper, the recent research progress and application of superplasticity of titanium alloys are reviewed and their development trend is forecasted.

  本文对钛合金超塑性研究和应用进行了综述，并对钛合金超塑性的发展方向进行了展望。

• From this, the Limit of strain rate and strain of superplasticity can be given, and this is useful for practice of deformation with superplasticity.

  由此可以给出超塑性变形时应变和应变速率区的限度，有益于指导实际的超塑性成型。

• On the bases of the experimental results stated above, it is first to submit the concepts of electro—high striain rate superplasticity and electro—superplasticity.

  基于上述实验结果，本文首次提出了电致高速超塑性和电致超塑性的概念。

• It was showed that the superplasticity of materials are closely related to its microstructure.

  研究表明，材料的超塑性与其显微组织关系密切。

• Researches on the superplasticity of advanced structural ceramics were systematically reviewed, emphasising on three kinds of ceramics:oxide ceramics, nitride ceramics and carbide ceramics.

  针对先进结构陶瓷介绍了国内外超塑性的研究状况，比较系统地介绍了氧化物陶瓷、氮化物陶瓷、碳化物陶瓷的超塑性。

• The superplasticity and microstructure of magnesium alloy ZK40 processed by ECAP for 1 and 4 passes were investigated.

  研究了镁合金zk40经等通道挤压1道次和4道次后的超塑性和微观组织。

• Meanwhile, the superplasticity of glass-ceramics and nanostructured ceramics were also presented. The high strain rate superplasticity was summarized particularly.

  同时介绍了玻璃陶瓷、纳米陶瓷的超塑性，并兼顾了一些结构陶瓷在高应变速率下的超塑性。

• The current status of research on high strain rate superplasticity of magnesium alloys is then examined, and several problems to be solved and future directions are suggested.

  综述了镁合金超塑性的研究进展，总结了镁合金超塑性变形的微观机理，评述了镁合金高应变速率超塑性的研究状况，提出了几个需要解决的问题和研究方向。

• In higher strain-rate condition, LY12 alloy has good superplasticity and room temperature properties.

  在高应变速率条件下，LY 12铝合金具有较好的超塑性和室温性能。

• The recent development of researches on superplasticity of ultrahigh carbon steels (UHCS) is reviewed.

  综述了超高碳钢超塑性的研究进展。

• It is now recognized that superplasticity is a potential deformation process in ceramics.

  现已公认超塑性是陶瓷中一种很有潜力的变形工艺。

• The experiment results show that Al-matrix composites appear better superplasticity in IHIE state.

  实验结果表明，等温热反挤压工艺可使铝基复合材料获得超塑性。

• The superplasticity research was carried out under constant temperature compression deformation for salt-bath cyclic quenched and high frequency hardened T10A steel.

  采用盐浴加热循环淬火和高频感应加热淬火对T10A钢进行组织超细化预处理，然后在恒温压缩变形条件下进行超塑性研究。