The role of ammonium salt of polyacrylic acid ( NH4-PAA) in the dispersion of nanosized titanium nitride aqueous suspensions was investigated experimentally. 研究了聚丙烯酸铵在纳米氮化钛粉体上的定量吸附及其影响因素。
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。
Visible Light Photoelectrochemical Response of Nitrogen-Doped TiO_2 Thin Films Prepared by Anodic Oxidation of Titanium Nitride Films 阳极氧化TiN薄膜制备N掺杂纳米TiO2薄膜及其可见光活性
Titanium nitride films were grown by plasma immersion ion implantation and deposition on titanium alloys and silicon substrates. 利用多功能等离子体浸没离子注入设备,采用等离子体浸没离子注入和沉积技术在Ti合金表面制备具有优异力学性能的TiN薄膜。
The Investigation of Titanium Nitride Coatings Deposited onto Aluminium alloy by Magnetron Sputtering Ion Plating 铝合金基板上磁控溅射离子镀氮化钛膜层的研究
A Study of Vacuum Sputtering of Titanium Nitride 真空溅射氮化钛的研究
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。
Growth of titanium nitride films by dynamic ion beam mixing and investigation of their properties 离子束动态混合氮化钛薄膜生长及其组分和结构分析
Studies of formation of titanium nitride layer with laser nitriding in a pure Ti in nitrogen atmosphere are described. 纯钛在氮气中通过激光氮化表面形成了TiN为主要增强相的表面涂层。
Investigation on titanium nitride synthesis by direct reaction of titanium hydride 氢化钛直接反应合成氮化钛的研究
Titanium nitride films were grown by unbalanced magnetron sputtering on substrates of Si ( 100) and Ti alloy at different partial pressure ratios of N_2 and Ar and at different target substrate separations. 本文利用非平衡磁控溅射技术,通过改变薄膜沉积时氮气和氩气分压比(PN/PAr)和靶基距,在Si(100)和钛合金(Ti6A14V)基体上制备了氮化钛薄膜。
Determination of Nitrogen in Ultrafine Titanium Nitride Powder 超细氮化钛粉末中氮的测定
This indicates that titanium nitride coating may improve the biocompatibility of non-precious alloys. 【结论】氮化钛涂层可降低贱金属合金析出金属离子的量,提高合金的生物相容性。
On titanium nitride inclusions in Ti-STABILIZED stainless steel 含Ti不锈钢中氮化钛夹杂的研究
Study on preparation and reaction mechanism of titanium nitride powder 氮化钛粉体制备及反应机理的研究
Conclusions: Magnet coated titanium nitride has good biocompatibility. 结论:镀氮化钛的钕铁硼磁体具有良好的细胞相容性。
Research on the Kinetics for the Preparation of Titanium Nitride Powders 氮化钛粉末制备的动力学和热力学研究
A Comparison on Structural and Tribological Properties of Diamond-like Carbon and Titanium Nitride Films 类金刚石碳膜和氮化钛的摩擦学性能研究
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。
Effect of Target Working Conditions of Multi Arc Ion Plating on Titanium Microdroplets in Titanium Nitride Films 多弧离子镀弧源靶工作条件对氮化钛薄膜中钛液滴的影响
The Effect of Nitrogen Partial Pressure on the Properties of Titanium Nitride Coating by Using Ion Plating Process 氮分压对离子镀氮化钛涂层的影响
The result of GDS showed that the surface modified layers were composed of titanium nitride. ⑵. GDS检测分析结果表明:钛、钛合金两种表面处理后,表面主要由氮化钛化合物组成。
The formation mechanism of titanium nitride powders by reduction of carbon and nitridation was researched by method of continuous weighing. 用连续称重法研究了钛白粉被活性碳还原氮化合成氮化钛粉末的还原氮化反应机理,并进行了反应的热力学、反应产物的显微结构以及X-ray衍射分析。
The Preparation of Nanometer Ultrafine TiO_2 Powder and Microwave Synthesis of Titanium Nitride 、 Titanium Carbide and Titanium Carbonitride Powder 纳米TiO2超细粉的制备及钛的氮化物和碳化物粉体的微波合成
The nitriding layer is 400 μ m thick and contains titanium nitride dendrites. 其氮化层的厚度为400μm。在氮化层中存在大量氮化钛枝晶。
He effect of nitrogen partial pressure on properties of titanium nitride coating by using hollow cathode discharge ion plating process has been investigated. 研究了氮分压对空心阴极离子镀氮化钛涂层性能的影响。
Titanium nitride ( TiN) as a kind of biomaterial with excellent mechanical properties and biocompatibility is widely used. 氮化钛(TiN)作为力学性能和生物相容性优异的生物材料,广泛应用于义齿和髋关节的涂膜等方面。
We obtained different titanium nitride thin films in different energy parameters. 实验采用不同的能量参数得到不同的氮化钛薄膜。
Ti-Al-N layer consisted of titanium nitride, aluminum nitride and a little titanium oxide, aluminum oxide. Ti-Al-N层主要由钛的氮化物、铝的氮化物和少量的钛的氧化物、铝的氧化物组成。