機械合金化 的英文怎麼說
中文拼音 [jīxiègějīnhuà]
機械合金化
英文
ma mechanical alloying- 機 : machineengine
- 械 : 名詞1. (器械) tool; instrument 2. (武器) weapon 3. [書面語] (枷和鐐銬之類的刑具) fetters, shackles, etc
- 合 : 合量詞(容量單位) ge, a unit of dry measure for grain (=1 decilitre)
- 金 : Ⅰ名詞1 (金屬) metals 2 (錢) money 3 (古時金屬制的打擊樂器) ancient metal percussion instrum...
- 機械 : 1. (利用力學原理組成的各種裝置) machinery; machine; mechanism 2. (死板; 刻板) mechanical; inflexible; rigid
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The effect of trace co on properties of mosi2 mechanical allo ying material
2機械合金化材料性能的影響Carbon can promote the forming of carbide of fe3c mostly during the ma, while it seems that chromium makes amorphism easier. in addition, this paper also made a research on the milled powder forming technology, and presented some improvement methods
機械合金化過程中,碳元素可以促進以fe _ 3c為主的碳化物的析出,鉻元素使粉末更趨向于非晶態轉變,並使材料出現超順磁現象。In this paper, metastable cu - al alloy powder with different aluminum content was prepared by mechanical alloying technique. high strength and high conductivity cu - al2c > 3 composites were prepared by a new type vacuum internal oxidation technique
本文採用機械合金化法制備了不同鋁含量的亞穩態的cu - al合金粉末,採用新型真空內氧化工藝制備了不同成分的高強度高導電cu - al2o3復合材料。The unstable solid solution would disintegrate and transform into carbide phases in these systems of sisocso, tisocso and zrsocso, based on the increase of free energy introduced by the effect mechanical alloying. for the system of wsocso, the solid solution had not transformed into tungsten carbides but an amorphous phase, which was different from those systems. the exist of fe in these experiments, which came from the abrasion of ball - milling tool because of the higher hardness of w and w - c solid solution, would induce the crystalline - to - amorphous phase transformation during milling
C50球磨體系中,繼續球磨時,不穩定的固溶體在機械合金化作用下,由於體系能量提高,會發生分解相變,從而可以形成碳化物;對于w扣c50球磨體系, w ? c固溶體具有較高的硬度,磨削不銹鋼質的球磨介質和球磨容器,而引入雜質,其中fe會促使固溶體向非晶相轉變。The effects of yttrium on the mechanical alloying of alw system
系統機械合金化的影響The theoretical prediction of amorphization for iron based binary by mechanical alloying
基二元合金機械合金化致非晶化的理論預測Characterization techniques and methods on single crystal surface machined damages
機械合金化與非晶合金材料的研究進展It was found that the mo - cu compound powder after high energy ball milling was in a inequilibrium energy storage state
本文通過對mo - cu復合粉末的機械合金化研究表明,經過高能球磨后的mo - cu復合粉末,處于非平衡儲能狀態。The technique of producing metal matrix composite include powder metallurgy, casting ( including stirring casting process, in situ contact reaction process, liquid - phase metal infiltration process, co - spray deposition forming process ), reaction mechanic alloying process
制備金屬基復合材料的工藝分為粉末冶金法、鑄造法(鑄造法細分為攪拌鑄造法、原位接觸反應法、液相浸滲法、共噴射沉積法) 、反應機械合金化技術。Being fine, homogeneous and free of melting, the powder prepared by mechanical alloying has applied to develop scattering strengthen - material, magnetic material, high - temperature material, superconductivity material, amorphous, and non - equilibrium material, compound material etc. as a high - tech technology to prepare alloying powder, ma has become a more and more important method for preparing new materials
機械合金化法制備的粉末晶粒細小、成分均勻,且能避免熔化過程,已用於開發研製彌散強化材料、磁性材料、高溫材料、超導材料、非晶、準晶、納米晶等各種狀態的非平衡材料、復合材料、輕金屬高比強材料、儲氫材料、過飽和固溶體等。作為制備合金粉末的非平衡高新技術,越來越成為一種制備新材料的重要方法。According to the characters of transformations in solids, the ma process can be divided into three stages : physical fragment izing stage, diffusion and solid solution stage, and carbide forming stage
根據相變特點將fe - cr - c三元合金的機械合金化過程分為三個階段:物理粉碎階段、擴散固溶階段和碳化物析出階段。In this work, using elemental powders as starting reactant materials several carbide powders such as wc, sic, tic, zrc and corresponding alloys had been fabricated by ball - milling technique. x - ray diffraction ( xrd ), scanning electron microscopy ( sem ), transmission electron microscopy ( tem ) and other measurement techniques had been used to monitor the structural changes of powders after some ball milling time and the properties of the cemented tungsten carbides. and the mechanism for the formation of matal carbides by ma has also been discussed
本文主要對機械合金化( ma )技術在碳化物制備中的應用進行了研究,利用高能球磨,以元素粉末為原料,制備出wc 、 sic 、 tic 、 zrc的粉體以及wc基硬質復合材料,並利用x射線衍射、掃描電鏡、透射電鏡等方法分析和研究了球磨過程粉體的變化以及燒結后硬質合金的性能,對機械合金化制備碳化物的有關機理進行了研究和探索。In this paper, the mechanical alloy technology ( ma ) was adopted. through the designing and optimizing of the ma technology and liquid phase sinter technology, the new electrician alloy - mo - cu was made
本文採用粉末冶金的非平衡制備高新技術?機械合金化法,通過機械合金化工藝、粉末生坯壓制工藝和液相燒結工藝的設計與優化,制備出了mo - cu高比重合金。A mechanical alloying study on the fe69. 5cu1. 5v7si12b8al
2合金機械合金化研究The study of mechanical alloyed al1 - xfex
混合粉末的機械合金化Mechanical alloying for mo - p system
合金機械合金化研究Aluminum oxide dispersion strengthened copper electrode produced by mechanical alloying
機械合金化法制備彌散銅電極Martensite formation during mechanical alloying of fe - ni and martensitic transformation
機械合金化過程中馬氏體的形成及相變We can get it by mechanical alloying then sintering by sps
本文採用機械合金化的方法制備eufe粉末,然後通過sps燒結獲得eufe體材料。It is a excellent method for the whole analysis can be executed by this way. the biggest asm of eufe sample sintering by sps is 1. 6913 / kg ? k under it magnetic field and which of melting sample gdsige is 1. 9j / kg - k under same condition of measurement with eufe
通過機械合金化和sps燒結得到含有eufe合金的混合物,在1t磁場下測量,最大磁熵變為1 . 691j kg ? k ;同時,用懸浮爐熔煉法制備了gdsige樣品,在1t磁場下,該系樣品的最大磁熵變是1 . 9j kg ? k 。分享友人