1) isothermal quenching time
等温淬火时间
1.
The experimental results indicate that during 30-120 min,with increasing the isothermal quenching time,the content and carbon content of retained austenite increased to a max value at 60 min,then decreased.
试验结果表明,在30~120 min等温淬火时间范围内,随着等温淬火时间的延长,残余奥氏体量及其含碳量逐渐增加,60 min时出现峰值,然后逐渐降低;在270~380℃等温淬火温度内,等温淬火温度较低时,残余奥氏体的量及其含碳量较低,随着等温淬火温度的升高,残余奥氏体量及其含碳量逐渐增大,当等温淬火温度超过360℃后,有下降的趋势。
2) quenching soaking time
淬火保温时间
1.
The influence of quenching soaking time on one-way shape memory effect η_O and two-way shape memory effect η_T of Cu-Zn-Al alloys were investigated.
研究了淬火保温时间对Cu Zn Al合金单向形状记忆效应 ηO 和双向形状记忆效应 ηT 的影响。
3) austempering
[,ɔ:s'tempəriŋ]
等温淬火
1.
Effects of Si and Austempering on the Wearresistance Property of ZG30SiMnCr;
Si及等温淬火工艺对ZG30SiMnCr耐磨性的影响
2.
Effect of Austempering on Mechanical Properties and Abrasion-Resistance of Mn -Cr Alloyed White Cast Iron;
等温淬火对Mn-Cr白口铸铁力学性能和耐磨性的影响
3.
Research of austempering process of low-carbon ductile iron;
低碳球铁的等温淬火工艺研究
4) isothermal hardening
等温淬火
1.
Strengthening and Toughening of Die Steel Cr7Mo3V2Si by Isothermal Hardening with Prenitriding and Diffusion;
模具钢Cr7Mo3V2Si渗扩氮等温淬火复合强韧化
2.
The influences of various isothermal hardening treatments on microstructure and properties of semi-steel made by quenching and isothermal hardening and forging,which contain 1.
研究了空淬、等温淬火及锻热等温淬火对含1。
3.
2)=900~1000 MPa,σ_b=1300~1564 MPa)and excellence plasticity(δ_5=15%~18%)were obtained after aus- tenitization at 840~880℃followed by isothermal hardening for 3 hours.
试验用钢经840~880℃加热,保温20min,在320~360℃的盐浴炉中等温淬火3 h,得到较高的强度(σ_(0。
5) austempering treatment
等温淬火
1.
The influence of austempering treatment on the microstructure, retained austenite and fracture toughness of high silicon cast steel has been studied.
研究了在不同等温淬火温度热处理后高硅铸钢的显微组织与残余奥氏体量和材料断裂韧性间的关系。
2.
The results show that a pure ausferrite structure that consists of bainitic ferrite and carbon riched retained austenite can be obtained by austempering treatment of high silicon cast steel over a large temperature range (240~400℃).
结果表明 ,高硅铸钢经等温淬火热处理后 ,在较大的温度范围 (2 4 0~ 4 0 0℃ )内都可以得到单一的由贝氏体铁素体和富碳的残余奥氏体交替排列的奥贝双相组织 (Ausferrite) ,组织中没有碳化物析出。
6) isothermal quenching
等温淬火
1.
The results show that the better match of strength and toughness of 20Mn2SiVB steel can be obtained by isothermal quenching at 420℃.
研究了20Mn2SiVB贝氏体钢经940℃完全奥氏体化后,再进行不同温度和时间的盐浴等温淬火,通过调整贝氏体的相对含量来控制材料热处理后的组织和综合力学性能。
2.
Isothermal quenching treatment is one of effective methods to improve properties of austenitic-bainitic steel.
等温淬火是提高奥氏体-贝氏体钢性能的重要手段,选择合理的奥氏体化温度对提高奥氏体-贝氏体钢性能具有重要意义。
3.
The isothermal quenching process of the ductile iron camshaft was analyzed.
对球铁凸轮轴的等温淬火工艺进行了分析,认为产生淬火裂纹的主要原因是:加热炉内的温度过高及等温槽内盐浴老化、等温淬火温度偏低。
补充资料:35CrNi3MoV钢等温淬火组织
35CrNi3MoV钢等温淬火组织
35CrNi3MoV钢等温淬火组织马氏体(绿)+见氏体(棕)残余奥氏体(浅黄)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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