电沉积宽晶粒度分布纳米镍的组织结构与力学性能研究(英文)  被引量:2

Microstructures and Mechanical Properties of Electro-deposited Nanocrystalline Ni with Broad Grain Size Distribution

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作  者:许伟长[1] 戴品强[1] 

机构地区:[1]福州大学,福建福州350108

出  处:《稀有金属材料与工程》2009年第12期2075-2079,共5页Rare Metal Materials and Engineering

基  金:Natural Science Foundation of Fujian Province (E0410011);Science and Technology Key Project of Fujian Province (2006H0020)

摘  要:通过直流与脉冲电沉积分别制各平均晶粒度为20~30nm,宽晶粒度分布(5-120nm)的纳米镍。在室温静拉伸应变速率范围内,直流电沉积制备的纳米镍的平均抗拉强度和平均断裂延伸率分别为1176MPa与10.6%。而由脉冲电沉积技术制备的纳米镍抗拉强度可达1500MPa之上,最高断裂延伸率可达13.3%。与电沉积获得的普通窄晶粒度分布的纳米镍相比,宽晶粒度分布的纳米镍的塑性要高出100%以上。其原因是大型晶粒内部允许位错的存在,且理论计算表明,晶内位错可通过Frank—Read源机制进行增殖。The flawless nanocrystalline (nc) Ni with a broad grain size distribution ranging from 5 to 120 nm and an average grain size of 20-30 nm were prepared by direct current and pulse electrodeposition, respectively. In the region of room-temperature static tensile strain rates, for the nc Ni prepared by direct current electrodeposition, the average ultimate tensile strength and the average elongation to failure are 1176 MPa and 10.6%, respectively. While for the nc Ni prepared by pulse electrodeposition, the ultimate tensile strength exceeds 1500 MPa and the max elongation to failure reaches 13.3%. In contrast to the typical electrodeposited nc Ni with a narrow grain size distribution below 50 nm, the ductility is increased by more than 100% for the present nc Ni samples. This enhancement can be interpreted by the reason that dislocations can exist and multiply in the large grains by the mechanism of Frank-Read source in the plastic deformation process revealed by theoretical calculation.

关 键 词:纳米镍 力学性能 晶粒度分布 变形机制 电沉积 

分 类 号:TB383.1[一般工业技术—材料科学与工程]

 

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