研究结果表明:钢的热加工性能与钢中铜含量有着密切联系。
The research results indicate that the hot-working character of steel has intimately relationship with the copper content in steel.
这种高阻隔材料价格低廉,热塑性好,热加工性能优异,可重复使用。
The high barrier material is low in price, fine in thermoplasticity and excellent in hot working property and can be reused.
随铝含量增加单相奥氏体区变小变无,液化温度降低,热加工性能恶化。
With Al content increasing, Uniphase austenite area decreases or disappears, the liquefaction temperature becomes low, and hot-workability worsens.
对IN706合金的均匀化处理工艺进行了探索,同时研究了均匀化处理对材料热加工性能的影响。
The homogenizing treatments and it 's effect on hot workability of IN706 alloy was studied in this paper.
采用偏低的加热温度、适当的保温时间和小变形量、多道次的工艺制度可以明显改善这两种不锈钢的热加工性能。
Lower heating temperature, proper heating time, light reduction and multipass processes could be adopted to improve the hot ductility of the steels studied.
对不同热加工状态的AM 50镁合金在不同试验温度下的拉伸性能进行了研究。
The tensile properties of magnesium alloy AM50 subjected to various hot-working conditions were investigated at different test temperatures.
对热加工过程中微观组织变化的计算机模拟以及组织与力学性能关系进行的研究最近已成为本学科研究领域的热点之一。
Computer modeling of microstructural changes and the relationships between mechanical properties of hot rolled steel products has been under active development in the research community.
在对经过热加工的金属表面进行清洁和除去氧化 物后,可对金属进行冷加工得到最后的尺寸和性能。
After the hot-worked surface has been cleaned and oxides removed, the metal can be cold worked to give the final dimensions and properties.
但该钢在热加工过程中极易产生粗晶,从而影响性能。
But the large grains will be created in microstructure during heat processes.
本文主要讨论热加工车间用耐热地面浇注料“TUFFLOOR”的性能和使用方法。
Properties and application of the heat-resist floor castable "TUFFLOOR" in heat process workshop are studied.
本文就与TDS2101板材制造方面相关的冶炼、热加工技术以及实物性能进行研究。
In this paper, the refining, hot rolling and practice performances of TDS2101 are investigated in term of plate manufacturing.
实践证明,所采用的冶炼及冷热加工工艺是可行的。该合金具有优越的力学性能和耐腐蚀性能。
It shows that the adopted melting process, as well as the hot and cold working process are appropriate, the corrosion-resistance and mechanical properties of NS334 alloy are superior.
实践证明,所采用的冶炼及冷热加工工艺是可行的。该合金具有优越的力学性能和耐腐蚀性能。
It shows that the adopted melting process, as well as the hot and cold working process are appropriate, the corrosion-resistance and mechanical properties of NS334 alloy are superior.
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