氮化钛;
For extra durability it features carbide diff balls and a titanium nitride-coated diff screw.
为额外的耐用性,它的特点碳化物差异球和氮化钛涂层差异螺钉。
To investigate the effect of titanium nitride coating on corrosion resistance of dental casting alloys.
研究氮化钛涂层对牙科铸造合金腐蚀性能的影响。
The results show that the compound layer is composed of titanium sulfide, titanium nitride, interlayer and substrate.
结果表明:复合渗层由钛的硫化物、钛的氮化物、过渡层及基体组成。
These membranes are made of three layers of a conducting material, titanium nitride, separated by insulating layers of silica.
这些膜使用三层导电材料,氮化钛制成,中间隔着硅土绝缘层。
Titanium nitride has been widely used as tools material, structural and special materials dus to its outstanding characteristics.
氮化钛由于其优异特性,已在工具材料、结构材料及特殊材料中广泛应用。
Based on the preparation of titanium nitride, the effects for the choice of the precursor on the CVD systems have been illustrated.
本文以氮化钛的CVD制备为例,说明了源物质的选择对CVD过程的影响。
The titanium nitride film layer and the glass have strong combing ability and the light penetrating ability and the color of beautiful shallow blue.
氮化钛膜层与玻璃之间具有较强的结合能力和透光能力,同时具有漂亮的浅兰色。
Titanium nitride coating can decrease corrosion tendency and improve corrosion resistance of dental casting alloys, especially of non precious alloys.
氮化钛涂层可降低牙科铸造合金,尤其是贱金属合金的腐蚀倾向,提高其耐蚀性。
The rapidly solidified in-situ wear resistant composite materials reinforced by hard titanium nitride were successfully fabricated in the laser modified surface layer.
在激光表面改性层中成功地制得了以高硬度氮化钛为增强相的新型快速凝固“原位”耐磨复合材料。
Titanium nitride(TiN) hard protective films were fabricated on AISI52100 bearing steel surface employing plasma immersion ion implantation and deposition(PIIID) technique.
用等离子体浸没离子注入与沉积(PIIID)复合强化新技术在AISI52100轴承钢基体表面成功合成了硬而耐磨的氮化钛薄膜。
Hard and wear-resistant titanium nitride coatings were deposited by pulsed high energy density plasma technique on silicon nitride ceramic cutting tools at ambient temperature.
用高能量密度脉冲等离子体于室温下在氮化硅陶瓷刀具上成功沉积了高硬耐磨的氮化钛涂层。
Titanium nitride was synthesized by ammonia reduction and nitridation under flowing ammonia atmosphere while the content and tetragonal phase structure of zirconia was unchanged.
采用氨气还原氮化法,在流动的氨气氛下原位反应生成氮化钛,同时保持四方相氧化锆含量和结构不变。
This equipment adopts the titanium nitride metal mixing techs forming ion gold membrane with good abrasion resistance, therefore it fits for various top-grade decorating membrane.
该设备采用氮化钛表面掺金技术,形成离子金膜层,耐磨性非常好,广泛用于各种高档装饰膜层。
The results in the titanium nitride synthesis by direct reaction of titanium hydride powder under certain low pressure condition and the potential advantages were given in the paper.
本文概述了用氢化钛粉在一定的低压条件下直接反应合成氮化钛的研究结果并论述了其潜在优势。
Titanium nitride coating has great application in industry owing to its superior properties, such as good wear and corrosion resistance, low friction coefficient and good thermal barrier properties.
氮化钛涂层因具有良好的耐蚀性、耐磨性及低的摩擦系数在工业上得到广泛应用。
PURPOSE: to evaluate the effect of N48 NdFeB magnets coated with titanium-nitride on the growth and apoptosis of L929 mouse fibroblast cells, and to determine the material biocompatibility.
目的:观察镀氮化钛膜n48钕铁硼磁体对小鼠l929成纤维细胞生长和凋亡的影响,评价该材料的生物相容性。
A new kind of boron nitride based shell mold used for investment casting titanium alloys was fabricated and the reaction between it and Ti-Ni alloy was investigated.
研究了一种新型钛合金精密铸造用型壳——氮化硼基复合型壳及其与钛镍合金的界面反应和反应层的形成机制。
A new kind of boron nitride based shell mold used for investment casting titanium alloys was fabricated and the reaction between it and Ti-Ni alloy was investigated.
研究了一种新型钛合金精密铸造用型壳——氮化硼基复合型壳及其与钛镍合金的界面反应和反应层的形成机制。
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