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引用次数: 0
摘要
研究了在缓冲层(Nb, Mo, Ta, W)上沉积薄膜应变来改善TiNi的形状记忆效应。首先,计算TiNi薄膜与缓冲层之间各表面上的接触点(其中接触点定义为薄膜与缓冲层表面晶格轴上各原子成键的原子位差),得到错配率在1%以下。其次,用XRD对ECR溅射沉积法沉积的各缓冲层上的TiNi薄膜进行了评价,并根据ICDD筛选入射角计算了缓冲层作用下薄膜中晶格常数变化的应变。结果表明,基于XRD强度数据计算的接触点与薄膜中应变晶格常数的关系呈现出较强的负相关关系,接触点可以有效地控制薄膜的晶格常数,使应变进入薄膜。
Development of SMA thin film deposited on buffer layer
The shape memory effect for TiNi to improve by using strain in the thin film deposited on a buffer layer (Nb, Mo, Ta, and W) has been investigated. First of all, the contact points on each surface between TiNi thin film and buffer layers (where the contact point is defined as atomic position difference for bonding between each atom on lattice axis in both surface of thin film and buffer layer) were calculated to obtain the mismatch rate under 1 %. Secondly, TiNi thin films on each buffer layers deposited by ECR sputter deposition method were evaluated by XRD and these strains in the films by changed lattice constants by the effect of buffer layer were also calculated from the sifted incident angles based on ICDD. As the result, the relationship between contact points and strained lattice constant in thin film calculated by using data based on XRD intensity data showed strong negative correlations and the contact points is effective to control the lattice constant of the thin films to give the strain into the thin film.
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