Mechanical performances of the ceramic coating manufactured are tested.
对所制备的纳米复合系列陶瓷涂层进行了性能测试。
The enamel technology was a good method to prepare the ideal ceramic coating.
搪瓷技术在制备陶瓷涂层时效果理想。
Biomimetic synthesis is a new process of fabricating inorganic ceramic coating.
仿生合成是制备无机陶瓷涂层的新途径。
SEM results showed that the ceramic coating was well bonded with the substrate.
SEM结果表明,陶瓷膜完整连续,与基体呈犬牙状牢固结合。
A bottom layer of metal is attached between the braking face and the ceramic coating.
于所述刹车面与陶瓷涂层之间还附着有一金属底层。
Latest progress and research status of laser cladding ceramic coating was summarized.
综述了激光熔覆稀土陶瓷涂层研究现状及其最新进展。
Abstract: Ceramic coating on the surface of workpiece can improve its properties remarkably.
文摘:在工件表面用喷涂方法形成陶瓷涂层,可以显著改善其性能。
The suspension principle of Li-Bentonic slip and its application in ceramic coating were explored.
探讨了锂基膨润土泥浆的悬浮特性和机理及其在陶瓷涂料中的应用效果。
The ceramic coating was produced with sulfuric acid dregs instead of industrial ferri powder by SHS.
采用自蔓延高温合成法(SHS),用硫酸渣代替工业铁粉生产陶瓷涂层。
Ceramic coating was obtained by micro arc oxidation on the substrate of casted aluminum silicon alloy.
用微弧氧化的方法在铸造铝-硅合金基体上获得陶瓷层。
Conclusion The ceramic coating added by laser is testified in vitro to be a kind of good biocompatible ceramic.
结论激光熔覆钙磷涂层具有较好的体外生物相容性,是一种生物陶瓷涂层。
Experiments have shown that ceramic coating is one of the useful methods for thermal insulation of the diesel engine.
试验表明,陶瓷涂层是发动机隔热的有效方法之一。
The effects of vacuum heat treatment on ceramic coating behavior and the key technological parameters were researched.
研究了真空热处理对陶瓷涂层性能的影响以及起主要作用的工艺参数。
Study on plasma sprayed nanostructured ceramic coating is one of the present promising fields in nanostructured coating.
等离子喷涂纳米陶瓷涂层的研究是目前纳米涂层领域研究热点之一。
The results show that the ceramic coating on semi-solid forging mould can improve the service life of the mould remarkably.
试验表明,在半固态金属加工模具内表面用静态法制备陶瓷涂层,将显著提高模具的使用寿命。
The results indicate that ceramic coating can greatly improve the corrosion resistance of matrix in various corrosive media.
结果表明,陶瓷涂层能大幅度提高基体在各种腐蚀介质中的耐蚀性。
The survey, peculiarity, technology, application and wide developing prospect of ceramic coating are summarized in this paper.
本文综述了近代陶瓷涂层的概况、特点以及陶瓷涂层的技术,应用和发展前景。
The ceramic coating blade is the blade which is sprayed with metallic oxides using thermal spraying and then accurate grinded.
陶瓷涂布刮刀是在钢刮刀表面进行金属氧化物热喷涂并进行精密磨削加工后的刮刀,耐磨损、使用寿命长。
An inorganic crystalline ceramic coating is received on at least a portion of the inorganic amorphous glass tube exterior surface.
在所述无机多孔玻璃管外表面的至少一部分上设有无机晶状陶瓷涂层。
The corrosion resistance of micro arc oxidation ceramic coating is better than the corrosion resistance of chromate and anode coating.
微弧氧化陶瓷层的耐蚀性优于阳极氧化和铬化处理膜层的耐蚀性。
The influence of diluent and powder packing density on reaction propagating velocity and the thickness of ceramic coating was analyzed.
分析了稀释剂添加量和粉体充填密度对反应蔓延速度以及陶瓷涂层厚度的影响。
The results show that the ceramic coating obtained under the condition of DC impulse source is more compact than that of AC impulse source.
结果表明:直流脉冲电源条件下取得的陶瓷膜比交流脉冲电源条件下取得的陶瓷膜更致密,因而具有更佳的耐腐蚀性;
In this paper the influence of additives on the structure and properties of ceramic coating produced by static thermit SHS was investigated.
研究了添加剂对静态铝热shs陶瓷涂层结构和性能的影响。
Products are mainly for armored anti-corrosion coating licensing, patent products: coal for epoxy cold asphalt and bound with epoxy ceramic coating.
产品主要为铁甲牌防腐涂料,专利产品:为环氧煤沥青冷缠带和环氧陶瓷涂料。
The thermal shock failure of ceramic coating is essentially the fatigue failure induced by cyclic thermal stress during repeated heating and cooling.
陶瓷涂层的热震失效是由于涂层在循环加热和冷却过程中,涂层内产生循环热应力,导致涂层发生热疲劳失效。
The residual stress fields of thermal barrier ceramic coating were measured for every twenty thermal cycles by using micro-Raman spectroscopy technique.
再应用微拉曼光谱法测量了热障涂层样品内残余应力场大小,并分析了试样尺寸、热处理温度和陶瓷涂层厚度对残余应力的影响。
The results indicate that the ceramic coating films increase drastically the lifetime of the substrate metal in corrosive media and oxidizing atmosphere.
分析试验结果表明,这些陶瓷涂层大幅度提高了基底金属在腐蚀介质及氧化环境中的寿命。
The results indicate that the ceramic coating films increase drastically the lifetime of the substrate metal in corrosive media and oxidizing atmosphere.
分析试验结果表明,这些陶瓷涂层大幅度提高了基底金属在腐蚀介质及氧化环境中的寿命。
应用推荐