Thermal analysis on runout table under on-line solution treatment;
在线固溶条件下的输出辊道受热分析
Effect of solution temperature on aging of steel containing copper;
固溶温度对含铜钢时效行为的影响
Phase Transformation Kinetics of Solutioned Cu-Ni-Si Alloy;
固溶态Cu-Ni-Si合金的相变动力学
Effect of Cold Rolling and Solid Solution Treatment on Structure and Mechanical Properties of Modified Type 202 Stainless Steel;
冷轧和固溶处理对改进型202不锈钢组织和力学性能的影响
Effect of solid solution and aging on hardness of Cu-17Zn-0.4Cr alloy;
固溶时效对Cu-17Zn-0.4Cr合金硬度的影响
The effects of solid solution and aging parameters on microstructure and electrical conductivity properties of Cu-0.
为了研究固溶时效处理工艺对Cu-0。
The microstructure and the mechanical performances of ZM5 magnesium alloys with RE-Ce addition in as-cast and solid-solution treatment state are investigated.
研究添加富铈混合稀土的ZM5合金在铸态和固溶处理后的显微组织与力学性能。
The mechanical testing indicates that alloying and solid-solution treatment can evidently enhance mechanical properties of ZM5 alloy,Ca and mischmetal additions refined the microstructure obviously.
拉伸试验表明,合金元素的加入和固溶处理明显改善了ZM5镁合金的常温力学性能,微量Ca和稀土元素的加入能够显著细化显微组织。
Effect of solution treatment with electric field on properties and fracture characters of Al-Li alloys;
电场固溶对铝锂合金性能和断裂特征的影响
The microstructure and mechanical property of a new kind of cast duplex stainless steel after different solution treatment were studied by using optical microscope(OM),scanning electron microscope(SEM),X-ray diffraction and mechanical property testing.
采用金相显微镜(OM)、扫描电镜观察(SEM)、X射线衍射(X-Ray)分析及力学性能测试等研究手段,研究了不同固溶温度对某种新型铸造双相不锈钢组织及力学性能的影响。
The effects of solution treatment and deformation-aging on the microstructures and tensile mechanical properties of Al-Cu-Li-Zr alloy were investigated by microstructure observations and tensile tests at room temperature.
通过显微组织观察和室温拉伸实验,研究了固溶热处理制度和时效前预变形对Al-Cu-Li-Sc-Zr合金拉伸力学性能和显微组织的影响。
The effects of solution heat treatment processes on the microstructure and mechanical properties of the spray deposited 7090/SiC_P composite were investigated.
研究了固溶处理工艺对喷射沉积7090/SiC_p铝基复合材料的显微组织和力学性能的影响。
It is thereby shown that the spinning and bulging forming can be done successfully, when taking four paths stepped spinning process, non-completed solution heat treatment (460℃±10℃ 30 min quenching by water) before spinning and completed solution heat treatment (515℃±10℃ 15 min quenching by water) before bulging for 6061.
结果表明,以6061铝合金为材质,采取4道次错距强旋成形工艺以及旋压前进行不完全固溶处理[(460±10)℃ 30 min、水淬]、胀形前进行完全固溶处理[(515±10)℃15 min、水淬],可确保旋压及胀形过程顺利进行,壳体的凹槽形状、尺寸精度、力学性能以及表面质量均可得到有效的保证。
To dissolve the intermetallics which precipitated from the matrix of the layer, a solution heat treatment is conducted.
采用双层辉光离子渗金属技术 ,首先在低碳钢表面渗入合金元素钨、钼 ;然后作固溶处理 ,使金属间化合物溶于基体中 ;接着渗碳 ,使合金层内形成大量弥散、均匀、细小的合金碳化物。