1) Zn-Cu alloy
Zn-Cu合金
1.
Zn-Cu alloy with four different compositions as Zn-2.
为了对包晶合金的凝固组织演化、组织及相选择规律、快速凝固条件下的层片生长结构及其形成原因进行系统性研究,本文以Zn-Cu合金为实验合金,选择了亚包晶、过包晶以及接近包晶点成分的四组试样,在45K/mm的温度梯度和2μm/s~6400μm/s的凝固速度区间进行了定向凝固实验。
2) Cu-Zn alloy
Cu-Zn合金
1.
Nonlinear math′s model on Cu-Zn alloy bionic coupling hydrophilic surface;
Cu-Zn合金仿生耦合亲水表面非线性数学模型
2.
Hydrophobic capability of bionic Cu-Zn alloy surfaces;
Cu-Zn合金仿生耦合表面的疏水性能
3.
Analysis of valence electron structures of Cu-Zn alloy solid solutions
Cu-Zn合金固溶体的价电子结构分析
3) Ag-Cu-Zn alloy
Ag-Cu-Zn合金
1.
Adding Cr/Ti metal powder to improve brazing performance of Ag-Cu-Zn alloy to diamond;
Cr、Ti金属粉改善Ag-Cu-Zn合金对金刚石的钎焊性能研究
2.
Cr powder was added between Ag-Cu-Zn alloy and diamond grits to braze diamond on the steel substrate by means of high frequency induction heater.
在Ag-Cu-Zn合金钎料中添加Cr粉,将混合钎料用于钢基体上的金刚石高频感应钎焊。
3.
By appropriate process parameters,the Ag-Cu-Zn alloy ingot with good surface quality and even unidirectional microstructure was fabricated on the self-designed horizontal heated mould continuous casting apparatus.
在自制的水平式热型连铸设备上,选用合适的工艺参数制备出了表面质量良好、内部组织沿轴向均匀分布的Ag-Cu-Zn合金铸棒。
4) Cu-Zn-Cr alloy
Cu-Zn-Cr合金
1.
The effects of different heat-treatment process on Cu-Zn-Cr alloy s hardness are studied.
文章通过不同的热处理工艺来研究固溶时效对Cu-Zn-Cr合金硬度的影响。
2.
Cu-Zn-Cr alloy was prepared by Ingot Metallurgy.
发现,Cu-Zn-Cr合金的强化机制包括固溶强化、形变强化及析出强化。
3.
The results show that: The first,Cu-Zn-Cr alloy is .
Cu-Zn-Cr合金是典型的时效强化型合金。
5) Cu-Zn-Al alloy
Cu-Zn-Al合金
1.
Ledge structure of bainites in Cu-Zn-Al alloys;
Cu-Zn-Al合金贝氏体的台阶结构
2.
Effect of Zr Addition on the Cold Deformability in a Cu-Zn-Al alloy;
微量Zr对Cu-Zn-Al合金冷变形能力的影响
3.
Microstructure and shape memory effects of Cu-Zn-Al alloy;
Cu-Zn-Al合金的显微组织及形状记忆效应
6) Al-Cu-Zn alloy
Al-Cu-Zn合金
1.
Based on these models, the equilibrium solute partition ratios of Al-Cu-Zn alloy were calculated.
提出了计算多元合金溶质分凝行为的热力学模型,分析了活度法和浓度法两种计算平衡分凝因数方法的异同,应用提出的模型系统地研究了Al-Cu-Zn合金的平衡分凝因数,计算表明,活度法和浓度法的计算结果接近,溶质Cu和Zn的平衡分凝因数在凝固温度范围内随温度增加下降10%左右,Zn和Cu任何一种溶质元素的浓度增加都会降低另一种元素的平衡分凝因数,同时研究了杂质元素对三元Al-Cu基合金中Cu的平衡分凝固数的影响。
2.
The formula to calculate the driving Gibbs energy and interface temperature during solute trapping in the ternary alloy is present on base of the continuous growth solute trapping model of Aziz and Kaplan, and used to model the solute trapping behavior during the primary solidification of Al-Cu-Zn alloys.
在连续生长模型(CGM)基础上,提出了三元合金溶质截留过程中的驱动自由能和界面温度的计算公式,模拟了Al-Cu-Zn合金单相凝固过程中的溶质截留和界面温度行为。
补充资料:cu、zn-superoxide dismutase
CAS: 9054-89-1
中文名称: 过氧化物岐化酶
英文名称: Dismutase, superoxide;cu、zn-superoxide dismutase;superoxide dismutase;Dismutase,superoxide
中文名称: 过氧化物岐化酶
英文名称: Dismutase, superoxide;cu、zn-superoxide dismutase;superoxide dismutase;Dismutase,superoxide
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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