1) temperature-strength
温度-强度
2) temperature strength
温度强度
3) zero strength temperature
零强度温度
1.
θ_d and θ_s, zero ductility temperature (ZDT) and zero strength temperature (ZST) respectively, were measured.
利用Gleeble 1500热模拟实验机,采用加热法和凝固法两种加热变形制度,研究了实验用低碳钢的热塑性及强度,测定了该钢种的零塑性温度(ZDT)θd及零强度温度(ZST)θs,分析了其裂纹敏感性及断口组织·结果表明,凝固法所测结果更符合实际;实验钢的高温脆性温度范围为1300℃至熔点,在1100~1300℃范围内,此钢的断面收缩率均大于60%,具有良好的塑性·实验用低碳钢的高温脆性区较小,具有较强的抗高温裂纹特性·其θd和θs分别为1350℃和1400℃
2.
The effects of C, Mn, S and P on the interdendritic segregation, zero strength temperature (ZST), and zero ductility temperature (ZDT) are discussed.
对导致连铸坯中内裂纹形成的微观偏析进行了模型研究,模型中考虑了铁素体(δ)凝固向奥氏体(γ)凝固的转化以及MnS的析出,讨论了钢中 C, Mn, S和 P对凝固过程中品间偏析、零强度温度(ZST)、零塑性温度(ZDT)的影响结果表明,钢中碳含量对凝固前沿枝晶间的微观偏析有显著影响,碳含量在 0。
3.
The effects of C, Mn, S, and P on the interdendrihc segregation, zero strength temperature(ZST), and zero ductility temperature (ZDT) of the steel were discussed.
主要讨论了钢中C,Mn,S,P对凝固过程中晶间偏析、零强度温度(ZST)、零塑性温度(ZDT)的影响。
5) high-temperature strength
高温强度
1.
To probe balance between room-temperature plasticity and high-temperature strength of Nb-Si based alloys, Nb-15W-5Si-2B-xHf(x=0,5,10,15 at%)alloys with an NbSS-dominant microstructure were developed, and the effects of Hf addition on the microstructure and mechanical properties of Nb-5Si-15W-2B-xHf at room-temperature and high-temperature were investigated and compared.
为了寻求Nb-Si基合金高温强度和室温塑性之间的平衡,设计了以Nb基固溶体相NbSS占主导的Nb-15W-5Si-2B-xHf(x=0,5,10,15,原子百分数)合金,研究了Hf元素对Nb-15W-5Si-2B合金的组织、室温和高温压缩性能以及高温蠕变性能的影响。
2.
The effect of trace addition of RE on high-temperature strength and microstructure of ZL109 piston alloy was investigated by means of Tensile Testing, SEM, EPMA, etc.
作为以低成本提高现役活塞合金高温性能的初步探索,利用材料高温试验机、扫描电镜、电子探针等手段研究了加入微量混合RE对ZL109活塞合金高温强度和显微组织的影响。
3.
MSP testing has been used to evaluate high-temperature mechanical properties of MoSi_2 based composites including high-temperature strength,brittle-to-ductile transition temperature and creep resistance.
采用MSP(Modified Small Punch)试验法对MoSi_2系复合材料的高温力学性能进行评价,不仅能方便地得到各组分复合材料高温强度随温度的变化,还能得到各组分复合材料的脆性延性转变温度,其结果和材料的微观结构相对应。
6) high temperature strength
高温强度
1.
Before the marked self-reduction of the pellets at 1 000 ℃,the high temperature strength depends on organic binder; and after that,on reduced metallic iron.
采用自制的高温抗压强度测定装置,研究了使用有机黏结剂的含碳球团在不同温度、气氛条件下高温强度随时间的变化。
2.
The detailed contrast of E309L with E309Nb regarding their chemical components, mechanical properties, anti intergranular corrosion, anti thermal cracks, high temperature strength and e.
文章对不锈钢焊条E309L和E309N b的化学成分、力学性能、抗晶间腐蚀、抗热裂纹、高温强度和经济性几方面进行了较详细的分析对比,得出了选用E309L焊条的理论依据。
3.
Research and development work for increasing the high temperature strength of sapphire is a major problem with sapphire in high-speed or high-temperature applications.
提高蓝宝石高温强度的研究已成为蓝宝石在高速、高温应用中一个亟待解决的重要课题。
补充资料:表光合强度(见光合强度)
表光合强度(见光合强度)
forecast of sowing or transplanting time
b iaoguanghe qiangdu表光合强度见光合强度
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