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单元过渡式金属硝化防护涂层多功能结构特征


14线程材料科学和工程国际会议

11月13-15日2017美国拉斯维加斯

F.B.乌合之众Yang J.Y项KY刘氏林市

台北国立大学

科学轨迹摘要解析公元前J Mat科学圈

DOI:10.4172/2321-6212-C1-011

抽象性

过渡式金属硝化、TMN涂层近几十年证明为极佳保护面层,原因是它们有前途的腐蚀抗药性、高硬度和模程、对各种子串有良好的粘合作用和显式三角行为过去十年里,在自动机覆盖多构件和多层特征特征增强方面作出了巨大的努力。工作单元素nitide薄膜中,包括TAN、MON和HfN曾并曾被操纵成非态晶状结构,由RF磁场喷射专用参数控制输入电源比调制TAN无序/晶体改变层堆栈,即a-TAN/cTAN多层涂层可生成性强行为多层TAN涂层少三重故障,如抓破剥皮,与单层涂层相比,在抓和干滑穿期间观察到类似地,单元HfN多层膜获取超机械特性和腐蚀抗药性,HfN纳米层沉积于各种RF输入权下发现Namcrystline/偏向-crystal单层亚硝化物涂层中发现的列结构的连续性可以通过单元亚化物层并装不同结构特征来有效抑制调制多层特征也有助于机械特征多层亚硝化涂层机械特征调制效果,如硬性性、模数性、粘合强度和三角行为等,都得到了演示和讨论。

传记学

Fan-Bean Wu博士,2002年毕业于台北青华大学材料科学工程系He has been recognized as a dedicated researcher in hard protective coating and specialty glass fields.  As a faculty in Department of Materials Science and Engineering in National United University, Taiwan, and a society member in both Committees of Taiwan Association of Coatings and Thin Films, TACT, and Taiwan Ceramics Society, TCS, he has served as department chairperson, director of Editing committee, and vice-director of Member committee and received Awards of Outstanding Teaching, Outstanding Service, several research conferences and innovation expos.  He welcomes all kinds of research collaboration and is willing to put efforts on developments in any interesting topics concerning coatings/surface technology/glass/material process technologies.

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