depositing coating 中文意思是什麼
depositing coating
解釋
淀積層- depositing : 沉澱的
- coating : n. 1. 被覆,表皮,塗層;包覆物;(食品上的)面衣,糖衣;塗料。2. 上衣料;細呢,花呢。
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The research results show that, from the viewpoint of second phase morphologies, there exist quite differences between the grain - type materials ( such as wc / bcu brazing deposit material, wrs1000 and 1zt tungsten carbide strengthening overlaying material, as well as the wear - resistant material of polymer adhesive coating etc. ), and the aggregation - type as well as dispersion - type ones ( such as zg35simn, wrd - 1 and khc - k2 depositing material ) in the wear - resistance and sand slurry abrasion mechanism. the sand slurry abrasion mechanisms are brought forward, of new wear - resistant materials with the features of grain - type second phase morphologies
研究發現,與聚合型、彌散型第二相的材料(如zg35simn 、 wrd ? 1和khc ? k2熔敷材料等)相比,顆粒型第二相的材料(如wc bcu釬焊熔敷耐磨材料、 wrs1000型耐磨材料、 1zt碳化鎢顆粒增強熔敷材料及ktc ? 1耐磨膠粘塗層材料等)在耐磨性能和磨損機理等方面均有不同,總結提出了以「顆粒型第二相」為特徵的耐磨新材料泥沙磨損機理。 -
The result shows that with the addition of rare earth elements, ultrasonic irradiation and magnetic field, the chemical component, surface configuration, microstructure and properties of electroless co - ni - b and co - fe - b alloy changes remarkably. such kind of change can be described as the followings. firstly the depositing speed of electroless alloy bath is raised while the polarizability and cathodic overpotential are reduced ; secondly the surface quality of the alloy coating and adhesion of the coating and matrix are improved ; thirdly in the coatings the content of the elements in the transient group increases, but the content of cobalt decreased ; fourthly the amorphous structure is transformed to microcrystal structure and polycrystal structure ; fifthly the microhardness and wear resistance of the coating are enhanced ; sixthly coercitive force is reduced, and magnetoconductivity of the coating is increased ; lastly the magnetic intensity of the coating increases with the addition of energy and light rare earth elements such as ce, la and decreases with the addition of heavy rare earth elements such as y. on the other side, when the alloy coatings passes through the heat treatment under the temperature of 250 or 500, their properties will change
結果顯示化學沉積co - ni - b 、 co - fe - b工藝在稀土元素( ce 、 la 、 y 、 dy ) 、能量(超聲波、磁場)介入后,沉積過程、合金成分、鍍層形貌結構和性能都有顯著變化,表現在:鍍液的陰極極化過電位和極化度降低,沉積速度提高;鍍層的結合力、表面質量改善;鍍層中過渡族元素的含量增加,輕元素硼的含量降低,同時證實了稀土元素與過渡族元素共沉積的可能性;鍍層的顯微結構由非晶態向微晶和多晶態轉變;鍍層的顯微硬度與耐磨性提高,力學性能優化;鍍層的矯頑力降低;磁導率提高;鍍層的磁化強度在能量(超聲波、磁場)和輕稀土元素ce 、 la介入后提高,重稀土元素y介入后降低。 -
Seen from the experiment result, it is clear that the deposited coating obtained with the trivalent chromium electrodepositing method we use is smooth, homogeneous, dense, and has good unti - erosive ability, high stiffness. the color ol ihe deposited coaling ol irivalent chromium is similar with that of hexavalent chromium. further more, this process has a good ability of homogeneous and deep depositing with simple facility, high current efficiency, and wide working current flow and even more it avoids environmental pollution
實驗結果表明,本文採用的三價鉻鍍鉻方法能電鍍出鍍層光滑、均勻、緻密、抗蝕性好、硬度高的鍍層,而且解決了鍍層顏色的問題,使三價鉻鍍層不僅具有現行六價鉻鍍層的天藍色光澤,同時還具有電流效率高、均鍍能力與深鍍能力好、工作電流密度寬、設備簡單、無環境污染等特點。 -
The dispersion and diffusion of the effective nickel plating solution were enhanced by adding a small amount of rare earth compound, the depositing rate, hardness, anti - wear and the surface quality of the coating were accordingly improved
摘要通過在快速鎳電刷鍍液中加入少量稀土化合物,改善鍍液的分散能力和深鍍能力,提高鍍層刷鍍速度,從而增加鍍層的硬度和耐磨性,改善鍍層表面質量。 -
Abstract : the main factors including pre - coating ' s qualities and depositing process which affect the appearance, adhesion and thickness of sputtering film have been discussed in this paper
文摘:本文對鍍層的外觀、鍍層的附著力以及鍍層的厚度的影響因數包括塗層的質量和鍍膜工藝參數進行了分析。 -
With the induction depositing process especially, as well as the overlaying deposit and the adhesive coating process for wear resistance, in consideration of the material manufacture and application, some types of new wear - resistant materials, including metallic materials, their composites and polymers are designed and developed. the research results on wear - resistant properties, microstructures and worn morphologies show that these materials possess their own characteristics, present the excellent and synthetic properties
特別運用感應熔覆法以及堆焊覆層法和耐磨膠粘塗層方法,並從材料的加工應用考慮,設計研製了多種類型的金屬及其復合材料和高分子等耐磨新材料,對這些材料的耐磨性能、微觀組織和磨損形貌的研究表明,它們各具特色,具有優異的綜合性能。
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