nano-ceramic 中文意思是什麼
nano-ceramic
解釋
納米陶瓷-
It is found that the nano material is distributed not only among general material grains to form inter - granular structure of the coating but also in the general material grains to form intra - granular structure. micro - crack caused by laser will be eliminated greatly. 3 mechanical performances of the ceramic coating manufactured are tested
得到的結論是經過激光熔覆后的塗層緻密化程度有了很大的提高,比單純的激光重熔塗層還高,納米顆粒不僅填充在晶粒之間,而且還嵌入在大晶粒內部,有利於消除激光作用產生的微裂紋。 -
6, the formation of nano - nano sic / al2o3 composite ceramic coating : the heating difference of the powder in - outer layer during spraying results in that the inner nanoparticles are only partially melted, without growing into larger grain, a lot of nanoparticle agglomerates with sintered shape were detected in the coating
6 、納米?納米sic al _ 2o _ 3復相陶瓷塗層形成過程為:乾粉顆粒內外層在噴塗過程中受熱歷史不同,導致內層納米粒子僅僅熔化而沒有結晶長大,塗層中形成了許多呈燒結形態納米粒子構成的團聚體。 -
It mainly includes new - type cement and wall - building material with coal gangue, industrial waste and fly ash as the raw material ; neody mi um - iron - boron material, nano - material, fire - resistance material, kaolin earth material, high - performance ceramic and fiber material, magnetic material, silicon - manganese alloy, and other nonferrous metal materials, along with production technologies of green environmental, clean materials and so on
以煤矸石、粉煤灰、工業廢渣為原料的新型水泥和新型墻體材料、釹鐵硼材料、納米材料、耐火材料、高嶺土材料、高性能陶瓷和纖維材料、磁性材料、硅錳合金等有色金屬新材料,以及綠色環保、清潔材料的生產技術等。 -
Sinter technique in preparing nano - ceramic
納米陶瓷材料制備中的燒結技術 -
In this paper, we tried to get metal - coated composite powders with different particle sizes by electroless silver plating on different ceramic powders such as nano - al2o3, micro - cenospheres and submirco - sio2. the nano - al2o3 powder with average size about 10 to 20 nanometers was pretreated to produce catalytic activity before the electroless silver plating
本文利用化學鍍的方法在不同粒徑的陶瓷粉體(包括納米al _ 2o _ 3 、微米空心玻璃微珠及亞微米級的sio _ 2 )上包覆金屬銀,制備不同粒徑的金屬包覆型復合粉體。 -
The objective of this paper is to obtain metal - ceramic composite materials with better complex properties by the way of preparing nano - composite powders of metal and ceramic. in our thought, firstly we should prepare nano - ceramic powders coated with metal, and then during the period of sintering, the film of metal could prevent the nano ceramics powder from dumpling and keep the powders to be nano - sized
這樣,在隨后制備塊材的燒結過程中,由於復合粉體復合充分,相容性提高,結合力高,另外金屬表面層可抑制納米陶瓷粉體的融合長大,使粉體在燒結后保持納米尺寸,從而發揮納米顆粒的作用;同時通過引入均勻分佈的韌性金屬相,進一步改善陶瓷的脆性。 -
In this paper, select li 3 # and grease 7014 as basis grease. select nano diamond and sio _ 2 are selected as additives, design 14 recipe using k and l10 as appraise norm study the dose of nano particle to the effect of contact fatigue of ceramic and steel friction has the conclusion that proper quantities nano particle which put in two grease can improve the contact fatigue life of ceramic using sem and edax, nano particles fatigue resistance mechanism are analyzed. which can improve the contact fatigue life of ceramic and steel friction
本文選用3 #通用鋰基脂和7014號寬溫航空潤滑脂作為基礎脂,選取納米金剛石粉和納米二氧化硅微粒作為添加劑,設計了14種配方。利用威布爾斜率k和額定壽命l10作為評價指標,研究了納米微粒的用量對陶瓷球/鋼副的接觸疲勞壽命的影響,得出在所選兩種基礎脂中添加合適用量的納米微粒添加劑可以提高陶瓷球的接觸疲勞壽命。利用sem和edax ,初步揭示了納米微粒提高陶瓷/鋼副滾動接觸疲勞的機理。 -
To obtain the ultra fine atc ceramic with fine, uniform grain and high mechanical properties and solve the problem of brittle of ceramic, the technique of electroless cobalt plating under low temperature and ultrasonic was used to get a cobalt deposition on nano / micro al2o3, tic ceramic. the nano / micro al2o3 - tic - co composite powder with different cobalt content was prepared by changing the load. the composite powder was then hot - pressed into a ultra fine composite ceramic
為了得到品粒細小、均勻,力學性能優異的co - al _ 2o _ 3 - tic ( atc )復合陶瓷,解決陶瓷的脆性問題,本文在化學鍍鈷制備高性能atc復合陶瓷的基礎上,採用超聲波化學鍍方法,以提高鈷在陶瓷粉末以及al _ 2o _ 3與tic陶瓷顆粒之間的分佈均勻性,以期進一步提高atc陶瓷的力學性能。 -
By using the method of burning, we fabricated the ceramic powder of al2o3, and discussed the effect of mole percentage of metal ions and urea on forming phases of al2o3. we calculated the x - ray powder diffraction by scherrer formula, and we thought that the ceramic powder reaches nano order
採用燃燒法制備了al _ 2o _ 3陶瓷粉末,討論了金屬離子和尿素的摩爾比對al _ 2o _ 3成相的影響;對其x射線粉末衍射數據用scherrer公式計算得出所得al _ 2o _ 3陶瓷粉末已達到納米量級。 -
It ' s well known that nano - materials have good ductility, and the composite powders have the better consistency properties. on the other hand, because the metal phase was evenly distributed, the ductility of the ceramic composites could be promoted further
因此,本文的研究內容設定為用化學鍍的方法在納米級的al _ 2o _ 3陶瓷粉體上包覆金屬銅,制備納米的金屬包覆型陶瓷復合粉體。 -
4, the formation mechanism of the n - sic particles in the ceramic coating prepared by the nano - micrometer n - sic / al2o3 composite powder located within m - al2o3 grains is revealed : m - al2o3 would be well melted during spraying and form droplet, the n - sic particles existing on the surface of droplet, then the particle enter the droplet when it is impacted and flattened on the substrate
4 、提出了利用納米一微米n - sic al _ 2o _ 3包覆復合粉末所制的陶瓷塗層中n - sic粒子分佈於m - al _ 2o _ 3晶內的機理:在噴塗過程中微米級al _ 2o _ 3完全熔化形成液滴, n - sic粒子存於液滴表面,在液滴撞擊基材平鋪過程中n - sic粒子進入液滴內部形成。 -
With the technology gotten above, series of nano modifying ceramic coating are fabricated to verify its feasibility
獲得了在該工藝下的納米改性陶瓷系列塗層,實驗驗證了該工藝的可行性。 -
2 nano ceramic material is infiltrated into plasma - spraying coatings by laser - cladding nano - material. the microstructures of the coating series gotten are studied in detail with x ray diffraction, scanning electron microscopy. it is concluded that after laser cladding the density of the nano material infiltrated coating is improved and superior to density of laser - remelting coating
( 2 )在等離子塗層的基礎上,利用激光熔覆將納米陶瓷材料熔滲到等離子塗層中,然後採用x射線衍射、掃描電鏡、能譜儀等,對陶瓷系列塗層的微觀組織與結構進行了詳細分析。 -
Optics material such as optical glass, optical crystal and glass ceramic can be machined with mrf. the mrf machine tool is the fundamental equipment to fulfill advanced techniques of manufactory. as a part of the key project, “ research on nano - scaled ultra - smooth surface magnetorheological finishing technique ”, the mrf machine cnc system was developed and some key techniques such as surface control, contour control, servo control and interpolate algorithm are deeply studied in this dissertation
磁流變拋光機床是實現磁流變拋光技術的重要基礎設備,本論文結合「納米級超光滑表面磁流變加工新技術研究」的課題,開發了磁流變拋光機床數控系統,並對其諸如面形控制、輪廓控制、伺服控制及插補演算法等關鍵技術進行了比較深入的研究。 -
Progress on single - phase nano - ceramic of - a12o3 by powder preheating and explosive sintering
預熱粉體爆炸燒結單相納米氧化鋁陶瓷的研究 -
4 nano - al2o3 material is pressed to slice and is sintered by laser. with the hardness tests, some process parameters are determinated suitably. laser - cladding nano - ceramic material creates a new applied future for nano - material. compared to traditional methods, it has many advantages such as consuming less material, cooling more rapid, laser - cladding many kinds of metal and alloy on other metal and alloy
激光熔覆納米陶瓷開辟了一個新的納米材料應用前景,和傳統方法相比能進行選區熔覆,材料消耗少:冷速快,發生非平衡凝固,組織細小,可使納米材料仍然在納米尺度:許多合金和金屬能夠熔覆到其他的合金和金屬上。 -
The ceramic knife is a high - tech and antibacterial product, and it is made of the advanced synthetic gem material - - nano - technical zirconia ( zro2 )
採用先進的人造寶石材料? ?二氧化鋯和高新的納米材料,有抗菌作用。 -
Study of resistance to thermal shock of inter - type and nano nano - type ztm al2o3 composite ceramic
3復相陶瓷抗熱震性能的研究 -
In this paper, we tried to get nano - composite powders of metal - coated ceramic by electroless cobalt plating of nano - al2o3 powder. the nano - al2o3 powder used in experiments were about 10 to 20 nanometer, and they were pretreated to produce catalytic activity before the electroless copper plating
實驗中所用的al _ 2o _ 3粉體平均粒徑為10 20nm ,化學鍍銅前進行了必要的預處理,使al _ 2o _ 3粉體表面具有催化活性。 -
Namiyanghuaxin, nano magnesium oxide, nano ceramic material production
納米氧化鋅、納米氧化鎂、納米陶瓷材料生產。
分享友人