1) plastic and thermal apparatus factory
可塑性高温器材厂
2) Hot Ductility
高温塑性
1.
A Study on Hot Ductility of Q235B Steel Thin Slab;
Q235B薄板坯高温塑性的研究
2.
Gleeble-1500 was used to test the hot ductility of rolled medium-carbon 45 steel bars from continuously cast billets with sulphur contents of 0.
06%)轧材及连铸坯的高温塑性。
3.
This paper describes comprehensively the hot ductility of Nb-bearing microalloyed steel in different temperature range.
综述了不同温度区间含铌微合金钢的高温塑性。
3) high temperature plasticity
高温塑性
1.
A kind of technology which can improve the mechanical properties and high temperature plasticity of MoSi 2 heating element was introduced by means of synthesis of MoSi 2,size of powder, additive and sintering.
从二硅化钼合成、粉料粒度、添加剂选择、烧结工艺等方面研究提高二硅化钼发热体的力学性能和高温塑性。
2.
The slabs with these cracks were analyzed by means of high temperature plasticity,macrostructure,microstructure and inclusion test.
对有裂纹的连铸板坯进行了高温塑性试验、低倍、金相组织和夹杂物分析。
4) high temperature ductility
高温塑性
1.
365, the high temperature ductility and stress rupture life were reduced because large MC films, dendritic flake M6C and fine M23C6 films precipitated at grain boundaries.
008%时,因固溶B/C(原子比)很低,晶界析出大尺寸MC薄膜和M6C枝晶片以及薄膜状M23C6,不利于高温塑性和持久寿命。
2.
Contrary to be crack sources and make mechanical properties of alloys deteriorate as it has been always considered, η phase was found to have little effect on room temperature properties and furthermore, it improved the high temperature ductility of the alloy via blocking the grain boundary slip due to it.
通过对一种Fe-Ni-Cr合金进行过时效后晶界上析出η相的研究发现,由于晶界η相与合金基体保持共格关系,η相对合金的室温性能影响不大;并且在高温变形条件下η相形成凸起,阻碍晶界滑动,减小在晶角处的应力集中,从而提高合金的高温塑性。
5) high-temperature plasticity
高温塑性
1.
The results show that the intracrystalline absorption of oxygen and phosphorus dueto the segregation of element B on the grain boundary is restrained and the properties on thegrain boundary as well as the high-temperature plasticity of the steel are imp.
用俄歇能谱仪、电子显微镜和WJ-10型机械式万能材料试验机,分析了奥氏体热作模具钢的晶界成分,观察了晶界组织,测试了钢的力学性能,结果表明:微量元素硼偏聚于晶界,抑制了氧和磷的晶界内吸附,改善了晶界性能,提高了钢的高温塑性。
2.
The results show that the high-temperature plasticity of low-carbon steel with γ→γ+α→γ thermal history is the worst of all.
利用热模拟方法研究了不同热经历对电炉低碳钢高温力学性能的影响,结果表明,具有γ→(冷却)γ+α→(加热)γ热经历的低碳钢高温塑性最差,根据这一结果制定了传搁温度低于 A_(rl)的钢锭红送工艺。
6) high temperature ductility
高温延塑性
1.
Comparison and analysis on high temperature ductility of high quality pipeline steel;
高性能管线钢高温延塑性对比研究
补充资料:可塑性
分子式:
CAS号:
性质:又称塑性。材料受外力、热等作用变形后,能完全或部分保持其变形的性质。是材料的一种加工和使用性能。橡胶的可塑性通常用外力消除后仍保留的残余变形来表示,它是评价橡胶加工性能的重要指标。在橡胶加工过程中,由于橡胶具有弹性会给其加工过程带来困难,适当提高橡胶的可塑性有利于橡胶的加工操作。但可塑性过大,又会使橡胶制成品的物理机械性能下降,对加工操作也不利。通常在满足工艺加工要求的前提下,以具有最小可塑度为宜。
CAS号:
性质:又称塑性。材料受外力、热等作用变形后,能完全或部分保持其变形的性质。是材料的一种加工和使用性能。橡胶的可塑性通常用外力消除后仍保留的残余变形来表示,它是评价橡胶加工性能的重要指标。在橡胶加工过程中,由于橡胶具有弹性会给其加工过程带来困难,适当提高橡胶的可塑性有利于橡胶的加工操作。但可塑性过大,又会使橡胶制成品的物理机械性能下降,对加工操作也不利。通常在满足工艺加工要求的前提下,以具有最小可塑度为宜。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条