鈦氧陶瓷 的英文怎麼說
中文拼音 [tàiyǎngtáocí]
鈦氧陶瓷
英文
titania ceramics-
Grain boundary reoxidation of barium titanate ceramics doped with lanthanum
摻鑭鈦酸鋇陶瓷晶界的再氧化At last, the surface of the alumina femoral head was grade - polished with sic micropowder and diamond grinding cream, the join part was trimmed with specific instrument, which made the surface of the alumina femoral head reach the degree of approximating mirror finish and match the femoral stem well. the artificial partial hip joint prostheses was finally got by articulating the alumina femoral head with ti alloy femoral stem coated with bioactive coating
最後,採用sic超細粉和金剛石研磨膏對氧化鋁陶瓷股骨頭表面進行分級拋光,用專用器械修整其聯接部位,得到表面具有近似鏡面光潔度並與股骨柄配合良好的氧化鋁陶瓷股骨頭,並與表面塗覆生物活性塗層的鈦合金股骨柄配伍,最終獲得人工半髖關節假體。The ceramic is a diclectric whose main material is titanium oxide, barium titanate or strontium. it becomes ceramic capacitor after a process called silver coating and is widely applied in various kinds of electronic equipment
用氧化鈦、鈦酸鋇、鈦酸鍶等材料製成陶瓷並以此作為介質製成的電容器稱為陶瓷電容器,這種電容器廣泛用於各種電子設備。In this paper, the ceramic coatings were prepared in situ on ti - 6al - 4v alloy by micro - plasma oxidation ( mpo ). the phase composition, microstructure and corrosion resistance of the ceramic coatings were studied in detail and the technology of corrosion resistant coatings was optimized. the dissolution of the substrate and the changes of the elements in the electrolyte during the mpo process were studied to discuss the growing characters and the structure of the ceramic coatings
本文通過微等離子體氧化( mpo )方法在ti - 6al - 4v鈦合金表面原位生長陶瓷膜,系統地研究陶瓷膜的相組成、微觀結構及膜層耐腐蝕性能,並優化耐蝕性陶瓷膜層制備工藝;分析基體在mpo過程中的溶解現象和電解液中離子濃度變化特點,探討電極表面陶瓷膜層生長規律和結構特點;研究膜層的等效電路、膜層結構與耐腐蝕性能的關系,並對優化工藝條件下制備的陶瓷膜層進行進一步的耐腐蝕性能測試和耐腐蝕機制研究。The power prepared was examined by many kinds of analytic measures, like as xrd, xps, tem, sem and x rays fluorescence, etc. the sol - gel method was used to synthesize dy - doped titanium oxide, the impact of elements such as solvent ' s quantities, temperature, ph value, calcination temperature on the course of sol - gel is studied, and the quantities of mixed rare earth is also studied on the influence about the structure of phase, thus established the best technology parameter
本文對摻雜稀土元素鏑的氧化鈦和氧化鋯超微陶瓷粉末的制備的工藝過程進行了研究,並用xps 、 xrd 、 tem 、 sem和x射線熒光等多種測試手段對制得的粉末進行了分析。用溶膠-凝膠法合成氧化鏑/氧化鈦的陶瓷粉末,研究了溶劑量,溫度, ph值,煅燒溫度等對溶膠-凝膠過程的影響,以及摻雜稀土量對相結構的影響,從而確立了最佳的工藝參數。Titanium oxide ceramics
氧化鈦陶瓷Effect of phase transformation and grain size on pressureless sintering behavior for tio2 ceramics
相變和晶粒尺寸對二氧化鈦陶瓷無壓燒結行為的影響We have an independent company to develop new products and high - tech ceramics technical capacity, it has been possible to produce wear - resisting, 95 % alumina ceramics, pottery, 99 % alumina oxide ceramic - hardness above 99 %, against electrostatic red ceramics, etc., and our company is uniquely polishing technology, the technical indicators have reached or come close to the same level
我公司具有獨立開發新產品及高新陶瓷技術的能力,現已能生產耐磨、 95 %氧化鋁陶瓷、 99 %氧化鋁陶瓷及超硬度99 %以上氧化鋁陶瓷、防靜電氧化鈦陶瓷等等,並且我公司具有獨特的拋光技術,各項技術指標都已達到或接近國際同等水平。分享友人