austenite 中文意思是什麼
austenite
解釋
n. 名詞 【冶金】奧氏體〈鋼的結構〉。-
Strengthening effect of c and v on austenite stainless steel welds
對奧氏體不銹鋼焊縫的強化 -
Austenite stainless steel revolving cutter
加工奧氏體不銹鋼盤狀銑刀 -
Preparation technology of fe - n single - phase austenite by gas nitriding
奧氏體的氣體滲氮制備工藝 -
Austenite grain growth behavior of steel 33mn2v designed for oil - well tubes
的奧氏體晶粒長大規律 -
Influence of hot rolling technology on austenite grain size of 20mnmob steel
鋼奧氏體晶粒度的影響 -
Austenite stainless steel auger bits
加工奧氏體不銹鋼鉆頭 -
Study on properties and plastical deformation of austenite - bainite steel
奧貝雙相鋼力學性能及塑變分析 -
Chromiumnickel austenite stainless steel
鉻鎳奧氏體不銹鋼 -
Continuous cooling transformation of undercooling austenite of swrch22a steel
鋼過冷奧氏體的連續冷卻轉變 -
Continuous cooling transformation of deformed austenite in weathering steel
耐候鋼變形奧氏體的連續冷卻轉變 -
Abstract : for analyzing the residual stress distributing state within the weld joint, and its effect on the performance of welding structure, when welding the ferrite pearlite steel with the austenite steel, this paper develops a finite element program to compute the interface stress of two or over two material. finally, this program is used to analyze the mechanical behavior of heterogenic joint
文摘:為了分析鐵素體、珠光體類鋼與奧氏體類鋼焊接時,焊接接頭處焊接殘余應力的分佈狀態及其對焊接構件性能的影響,研製了可計算兩種或兩種以上材料界面應力的有限元程序,並用此程序分析了異質接頭的力學行為。 -
Effect of ti content on coarsening temperature and austenite grain size of ah
36粗化溫度和奧氏體晶粒大小的影響 -
Based on the analyses on mechanical properties, microstructure and fracture of - the microalloyed steels socrv with various heat treatment technique, it can be affirmed that various fractures arttribute to various mechanism, we can draw conclusion that the strength and toughness of microalloyed steels 50crv will be increase simultaneously by optimal heat treatment technique. to illustrate the mechanism of the strength and toughness of microalloyed steels socrv, we designed the comparative experiment and observed the microstructure of the sample which occurred at different quench and tempering temperature and different tempering time. the last experiment results were determined by the four factors : fined microalloyed elements grains, the decompound of martensite, martensite transformation of remnant austenite and the second phase precipitation
為解釋微合金化50crv鋼強韌化機理,本文通過對不同淬火溫度,回火溫度,回火時間下的力學性能指標的對比及顯微分析,認為微合金元素的細化晶粒,馬氏體的回火分解,殘余奧氏體的轉變,第二相的沉澱析出共同決定了微合金鋼的強韌化情況,特別是由於微合金元素的存在,其細化晶粒及其碳氮化物的沉澱析出,導致鋼的良好的強韌性,並且如果工藝滿足第二相的沉澱析出強化大於回火馬氏體分解引起的軟化效應,會在硬度曲線中產生明顯的二次硬化現象。 -
The particles distributed hi the matrix of grey cast iron, but some contact each other. the composite layer extend gradually into the substrate. when volume fraction of wc is 36 wt % and 27 wt %, the matrix of the composite is high chromium cast iron, consist of white carbide bars and the austenite. wc particles distributed uniformly, retaining approximately quondam granular form in the composite layer which has an evident interface area with the substrate, with good bonding strength
對不同碳化鎢體積分數的灰鐵和低鉻鑄鐵基復合材料的微觀組織結構分析表明:碳化鎢體積分數為52時,復合層內基體為灰口鑄鐵組織,顆粒直接分佈在灰鐵基體上,部分碳化鎢顆粒有相互接觸的現象,基材與復合層之間沒有明顯的過渡;碳化鎢體積分數為36 、 27時,復合層內基體為高鉻鑄鐵,由面塊狀的奧氏體和白條狀碳化物組成,碳化鎢顆粒表面固溶於基體組織中,粒形基本保持完整,分佈均勻,與基體構成冶金結合,基材與復合層之間存在一個明顯的平緩過渡區。 -
The anti - wearing property of chme steel is 15 percent to 35percent higher than zgmnl3, which is a widely used anti - wearing steel. the reason of the excellent mechanical properties and anti - wearing property of chme steel is that the heat treatment sturcture of chme steel is composed of tempered martensite, bainite, temper troostite, remaining austenite and carbonide
磨面分析表明, chme鋼基體高強度,高硬度、良好的強韌性配合和碳化物硬質點的彌散分佈,磨痕細短淺小,擠塑變形區細小均勻,抵抗沖擊滑動累積塑性疲勞能力強,是其耐磨性比zgmn13高的原因。 -
Austenite carbon steel
奧氏體碳鋼 -
Effect of austenite recrystallization on microstructure and properties of q345 plate steel
345鋼奧氏體再結晶行為對組織和性能的影響 -
The results show that the solidification microstructure of high speed steel fe - 2 % c - 4 % v - 4 % mo - 5 % cr - x % w ( wt ) contains of martensite, retained austenite structure, and mc, m6c, m2c carbides, and mc / m2c complex carbides by xrd, sem and metallographs. most of the mc carbides locate in the cell and other carbides distribute along the boundary of the cell
結果表明:經金相組織觀察、 x射線衍射和掃描電鏡分析, fe - 2 c - 4 v - 4 mo - 5 cr - x w合金系高速鋼凝固組織包含馬氏體基體、殘余奧氏體及各種類型的碳化物如mc型碳化物、 m _ 2c型碳化物、 m _ 6c型碳化物和mc m _ 2c類型復雜碳化物,大部分mc型碳化物分佈於晶粒內部,其它類型碳化物則沿晶界呈網狀分佈。 -
Measuring retained austenite of carburize layer of low carbon alloys with x - ray diffraction method
射線衍射法測定滲碳鋼中殘余奧氏體 -
Calculation of cohesive energy of alloyed austenite by interatomic pair potential
原子間相互作用對勢計算合金奧氏體結合能
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