1) thermo-mechanical treatment
热机械处理
1.
The effect of thermo-mechanical treatment on microstructure and properties of CuCrZrBeRE alloy and strengthening mechanism were studied.
研究了热机械处理对CuCrZrBeRE合金组织及性能的影响 ,探讨了合金的强化机理。
2) thermomechanical processing
热机械处理
1.
An(α2+O+B2) three-phase Ti3Al-based alloy,designated as TD3 alloy,is presented,including the thermomechanical processing technology,the microstructure control and the mechanical properties of some typical microstructures of TD3 alloy bars and forgings.
本文介绍了一种中等Nb含量的(α2+O+B2)三相Ti3Al基合金(TD3合金)的热机械处理工艺和微观组织特征,以及典型组织的力学性能,并与一些典型的O相基合金,高温钛合金,高温合金进行了对比。
2.
The effect of thermomechanical processing (TMP) on the morphologies and room temperature tensile properties of lath microstructure in Ti 3Al based alloy, Ti 24Al 14Nb 3V(at%), has been studied.
研究了热机械处理(TMP)对Ti3Al基合金Ti-24Al-14Nb-3V(原子分数,%)板条组织的形貌及室温拉伸性能的影响。
3) TMCP
机械热处理
1.
The Development of TMCP and Relaxation-Precipitation-Control Transformation(RPC) Technology;
机械热处理工艺的发展及弛豫—析出—控制相变技术
2.
By a special thermomechanical control process(TMCP-RPC), relaxation for a certain time after control rolling and then direct quenching/accelerated cooling, the strain induced precipitions and defect structure in deformed austenite resulted in refinement of intermediate transformation microstructure.
利用一种特殊的机械热处理工艺技术,即在控轧终轧后经过一段控制时间与温度的 弛豫,使得基体中出现应变诱导析出以及变形奥氏体中缺陷组态重组,在随后的直接淬火或加 速冷却过程中,获得细化的板条贝氏体/马氏体组织。
4) thermomechanical processing
机械热处理
1.
The superplasticity of 01420 Al-Li alloy was studied by means of simple tension,and good superplasticity of the alloy was found after suitable thermomechanical processing.
采用单向拉伸对01420Al-Li合金进行超塑性研究,发现该合金经过适当的机械热处理后能获得良好的超塑性。
2.
This paper details the influence of thermomechanical processing (TMP) on the microstructures and mechanical properties of TC21 titanium alloy, a new alpha+beta alloy with high strength, ductility and toughness developed in China.
TC21合金是我国自行研制的一种新型高强高韧两相钛合金,本文主要对合金机械热处理工艺、微观组织和室温机械性能之间的关系作了系统的研究。
5) thermo-mechanical processing
机械热处理
1.
In order to investigate the effects of the pre-deformation on second phase particles and recrystallization of AA2195 Al-Li alloy, cold-rolling pre-deformation prior to overaging was exploited in the traditional thermo-mechanical processing for grain refinement.
在细化晶粒的传统机械热处理工艺中的过时效前引入冷轧预变形,研究预变形对AA2195铝锂合金过时效第二相粒子组态及最终再结晶组织的影响。
2.
The effects of pre-deformations and overaging on grain refinement of AA2195 Al-Li alloy in thermo-mechanical processing (TMP) were investigated by means of optical microscopy (OM) and scanning electron microscopy (SEM).
通过金相和扫描电镜等分析手段,研究预变形和过时效对机械热处理细化AA2195铝锂合金晶粒的影响。
3.
Fine grained Al-Mg-Li alloy sheets were produced by thermo-mechanical processing.
采用机械热处理法制备Al-Mg-Li合金细晶板材,研究预热温度、中间退火温度及转向轧制对板材塑性开裂及晶粒细化的影响。
6) low temperature thermo-mechanical treatment
低温热机械处理
1.
hot rolling and low temperature thermo-mechanical treatment, and possessed tensile strength σb= 625 MPa, electric conductivity a = 82.
6%Al铸造合金,经锻造、热轧和低温热机械处理后的0。
补充资料:热机械处理
分子式:
CAS号:
性质:又称热机械处理。将压力加工(塑性变形)与热处理相结合,以提高材料力学性能的复合工艺。这是在金属材料上有效地综合利用形变强化和相变强化,使材料最终获得高强度和高塑性(韧性)相结合的目的,从而提高零件的使用性能和寿命。形变热处理主要分为高温形变热处理和低温形变热处理。根据工艺中形变与相变的顺序又可分为形变在相变之前、之中和之后进行三大类。该工艺可用于各种碳素钢、合金结构钢、工具钢、不锈钢、高温合金和部分有色金属工件的处理。
CAS号:
性质:又称热机械处理。将压力加工(塑性变形)与热处理相结合,以提高材料力学性能的复合工艺。这是在金属材料上有效地综合利用形变强化和相变强化,使材料最终获得高强度和高塑性(韧性)相结合的目的,从而提高零件的使用性能和寿命。形变热处理主要分为高温形变热处理和低温形变热处理。根据工艺中形变与相变的顺序又可分为形变在相变之前、之中和之后进行三大类。该工艺可用于各种碳素钢、合金结构钢、工具钢、不锈钢、高温合金和部分有色金属工件的处理。
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