展望了磁场淬火工艺的应用前景。
The prospect of the application of the magnetic field quenching was also put forward.
外加磁场淬火的温度场分布模拟是一个新的领域。
The distribution of the temperature field during magnetic field quenching is a kind of new research.
分析结果表明,运用热传导理论和计算机技术来模拟外加磁场淬火过程在理论上是可行的。
Through the results and analysis, we can discover that utilizing heat transfer theory and computer technology to simulate magnetic field quenching process is feasible.
此外,磁场淬火还提高了T10钢的抗回火能力,这是由于磁场淬火后的钢中含有大量弥散碳化物所致。
In addition, the magnetic field quenching will increase the resistance of the T10 steel to tempering because of a large amount of dispersed carbides in the steel after magnetic field quenching.
与经普通淬火和高温回火的相比,经磁场淬火和高温回火的T10钢的抗拉强度提高了28%,断后伸长率提高了8。
The tensile strength, elongation and hardness of T10 steel subjected to magnetic field quenching and to high temperature tempering were separately increased by 28%, by 8.
淬火时施加磁场,使合金时效后的强度和塑性有所提高。
Quenching in magnetic field can increase the strength and the elongation of the alloy after ageing.
对20钢进行不同强度交流磁场下的临界区淬火处理,观察相变后的组织。
To quench 20 steel in critical zone under different intensity alternation magnetic field and to observe the microstructure after phase transformation.
对20钢进行不同强度交流磁场下的临界区淬火处理,观察相变后的组织。
To quench 20 steel in critical zone under different intensity alternation magnetic field and to observe the microstructure after phase transformation.
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