1) C-SiC and W coatings
C-SiC和W涂层
2) SiC-C films
SiC-C涂层
1.
SiC-C films were deposited on the surface of stainless steel using ion beam mixing.
利用Ar+离子束轰击混合沉积技术(ion beam mixing)在不锈钢基体上制备在不锈钢和碳钢基体上沉积SiC-C涂层,并然后对样品进行加后热处理热去氩处理(400℃/30min),再用5keV的氢离子辐照样品。
2.
There have been many studies on hydrogen retentiontheory of SiC-C films, but there are little study on process of preparing SiC-C films,and how to improve the hydrogen retention ability of SiC-C films.
本工作对不同工艺离子束混合制备的SiC-C涂层,研究SiC-C涂层阻氢性能及其影响因素,为SiC-C涂层实际应用提供依据。
3) C-SiC coating
C-SiC涂层
1.
XPS analysis for the C-SiC coatings before and after H~+ ion irradiation;
H~+辐照前后C-SiC涂层的XPS分析
4) SiC-C coatings
SiC-C涂层
1.
50%SiC-C coatings were prepared on stainless steel with ion beam mixing in order to improve the hydrogen resistance of stainless steel,which is made of container storing radioactive waste materials.
为了提高放射性废物包装用的不锈钢材料的阻氚性能,采用离子束混合技术在不锈钢表面沉积低Z材料的SiC-C涂层,对50%SiC-C涂层进行不同条件的加热处理以及随后进行的剂量为1×1018/cm2H+的注入,研究涂层微观结构的变化,该研究为涂层的实际使用提供科学依据。
2.
SiC-C coatings were deposited on stainless steel substrates using ion beam mixing.
在不锈钢基体上用离子束混合技术沉积SiC-C涂层,为有效提高SiC-C涂层与不锈钢基体元素的混合效应,采用涂覆后对样品进行加热处理以及在不锈钢基体上预沉积Cu薄膜的方法,试图改善SiC-C涂层与基体的混合效果。
5) C-90%SiC coating
C-90%SiC涂层
1.
On the morphology and hydrogen resistance of C-90%SiC coatings before and after heating
C-90%SiC涂层加热处理前后形貌特征及其阻氢性能的研究
6) C/ SiC-W composite
C/SiC-W复合材料
补充资料:等离子喷涂羟基磷灰石涂层-钛合金人工牙根和髋关节
等离子喷涂羟基磷灰石涂层-钛合金人工牙根和髋关节
等离子喷涂羟基磷灰石涂层一钛合金人 工牙根和髋关节 四Ⅲ联旮走学t枷材利却宽中心{4稿
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