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- silane cvd 硅烷化学汽相淀积
- SiC thin films of large area were prepared successfully in a plasma-enchanced CVD reactor at room temperature, with silane and ethene used as raw materials and Ar as carrier gas. 采用射频等离子体增强的气相沉积法,以硅烷和乙烯为原料,在常温下成功的合成了碳化硅薄膜。
- Factors Contributing to the Decline in CVD Deaths? 哪些工作对心血管病死亡率下降起到作用?
- Silane is a colorless, pyrophoric compressed gas. 硅烷是无色的、可以自燃的压缩气体。
- The higher value is comparable to those obtained in CVD epitaxy. 这个高的数值可以和从化学气相淀积外延得到的数值相比拟。
- Water reacts with the silane forming silanol groups. 水与硅烷反应形成硅醇基因。
- CC genotype was not found both in CVD and control group. 在研究总对象中没有发现CC基因型。
- It may also be necessary to provide a silane MSDS to the physician. 还有必要为医生提供硅烷的MSDS。
- They did find that CVD event rate was reduced by statins (RR=0.82). 但心血管疾病的发生率在使用他汀后有所下降。
- Adhesion is a basic factor for the application of CVD diamond film. 附着性能的高低是CVD金刚石膜应用的基本问题之一。
- Underweight was not linked with cancer or CVD mortality. 体重过轻与癌症或心血管病死亡率无关。
- A new technology for manufacturing CVD diamond thick film cutters is presented. 提出一种制作CVD金刚石厚膜焊接刀具的新工艺。
- Effects of the CVD temperature and heat treatment were studied in detail. 考察了小同沉积温度以及退火处理对沉积结果的影响。
- Silane coupling agents are compatible with almost every type of organic polymer. 硅烷偶联剂几乎对每一种类型的有机聚合物都是合适的。
- Silane coupling agents are also used in many commercial sand-epoxy-type composites. 硅烷偶联剂亦用于许多通用的砂子环氧型复合材料中。
- This paper reviewed the advances and the applications of the silane crosslinking technology at home and abroad. 摘要综述了国内外硅烷文联聚烯烃技术的研究进展及其应用情况。
- ZSEJ90-2 is tow-step silane nature cross-linkable polyethylene insulating compound for low and middle voltage cables. 2是中低压电缆用二步法硅烷自交联聚乙烯绝缘料。
- The wearresistance of TA1 was improved by chemical vapor deposition(CVD) to enhance the TA1 properties. 为提高TA1表面的耐磨性能,在TA1表面采用化学气相沉积(CVD)表面处理。
- However, it is unknown if serum phosphorus levels influence vascular risk in individuals without CKD or CVD. 然而无机磷水平在没有慢性肾病或心血管疾病的个体中是否影响其血管事件的危险仍然不明确。
- Toxicity: The major hazards of silane stem from its ability to spontaneously ignite on contact with air and its toxicological properties. 毒性:硅烷的主要危险来自它接触空气可以自发燃烧的能力和它的毒物学的性质。