NH 4试验钢的强化方式包括固溶强化和析出相强化。
The strengthen of "NH4" steel were solution strengthen and precipitation strengthen.
将摘要固溶强化并与本堂课的新观念-析出强化进行比较。
Solid solution strengthening is summarized and compared to the new concept for this lecture: precipitation strengthening.
研究合金的强化机制包括固溶强化、加工硬化及析出强化。
The strengthening mechanisms of the alloy mainly include solution strengthening, strain-strengthening and aging strengthening.
理论分析表明:硼对沉淀强化、固溶强化和晶界强化均有贡献。
Theoretical analyses have shown that boron benefits precipitation strengthening, solution strengthening and grain boundary strengthening.
多元膜层强化机理主要是:晶粒细化、固溶强化、多元素优化。
The main strengthening mechanisms of (Ti, Cr)N films were grain fining, solid solution strengthening and multi elements strengthening.
复合材料固溶处理后硬度值较高是由合金元素的固溶强化所致。
The highest hardness of the composite in the solution state is due to the solution strengthening.
认为固溶强化和第二相强化是加入合金元素强化镁合金的主要方式。
It is thought that solution strengthening and second phase strengthening are two main ways for improving mechanical properties of magnesium alloy.
固溶强化效应的增加、位错密度的提高及硬质相邻接度的减少被认为是固溶处理改善韧性的主要原因。
The reasons are mainly due to the increase of solution strengthening and dislocation density in the binding phases, and the decrease of bonding degree among of hard phases.
最后讨论并分析了影响固溶强化效果的四个主要因素,激光功率、扫描速度、光束质量以及光斑几何形状。
Finally, four main factors, laser power, scan speed, beam quality and geometric shape of spot are discussed which can can affect the result of laser solid solution.
在高强度船体结构钢中,藉助于添加合金元素而使钢得以强化的主要机制有晶粒细化、析出强化和固溶强化。
The principle of steel strengthening is due to fine grains, precipitation strengthening and solution strengthening by adding alloyed elements.
当氢含量大于0.2%(质量分数)时,由于此时氢元素的固溶强化起主导作用,因此随氢含量的增加,峰值应力随之增加。
When hydrogen content was bigger than 0.2%, the peak stress increased with the increase of hydrogen content, because hydrogen played a main role of strengthening.
即叶轮断裂是由于锻造加热时温度控制不好导致过热,在随后的淬火工序中又因加热温度过低,组织固溶强化效果差等综合原因所致。
The results show that the wheel hub cracking during radial impact testing was caused by excessive content of magnesium in the alloy as well as the overheating of the alloy during the solution process.
外氧化使合金表面贫铬;内氧化将降低合金固溶时效强化效果。
The external oxidation will lead to chromium dilution in the surface layer of alloy, and the internal oxidation will decrease the strengthening effect of solution and aging treatment.
作者通过改变固溶热处理条件并结合金相组织观察和断口分析研究了强化固溶对提高70 5 5铝合金力学性能的作用。
The effects of promotively solutionizing of soluble remaining constituent phases on the microstructure and mechanical properties of 7055 alloys were studied.
作者通过改变固溶热处理条件并结合金相组织观察和断口分析研究了强化固溶对提高70 5 5铝合金力学性能的作用。
The effects of promotively solutionizing of soluble remaining constituent phases on the microstructure and mechanical properties of 7055 alloys were studied.
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