ferrite grain 中文意思是什麼
ferrite grain
解釋
鐵素體晶粒-
The microstructure of lamellae pearlite has evolved ultrafine cementite particles throughout the ferrite matrix uniformly after five passes. the ferrite matrix is homogeneous grains, average grain size is - 0. 3 m. 2
變形五道次后,片層狀的珠光體組織演變成了超細的滲碳體顆粒均勻分佈於鐵素體基體的組織,鐵素體基體為均勻的等軸晶,平均晶粒大小為0 . 3 m 。 -
The main results are as the following : ( 1 ) the microstructure of lamellae pearlite has evolved ultrafine cementite particles throughout the ferrite matrix uniformly after four passes. the ferrite matrix is homogeneous grains, and average grain size is - 0. 3um
主要結果如下: ( 1 ) ecap變形四道次后,片層狀的珠光體組織演變為了超細的滲碳體顆粒均勻分佈於亞微晶鐵素體基體的組織。 -
Ferrite grain size
肥粒鐵晶粒度 -
Cold rolled low - carbon steel sheet - ferrite grain size - test methods
低碳鋼冷軋薄板鐵素體晶粒度測定法 -
So far as the grain size order of magnitude is concerned, the thickness of the acicular ferrite is about 200nm, while the thickness of the austenite existing inside the ferrite is only several nm to 10 nm
從晶粒尺寸數量級來說,針狀鐵素體的厚度約為200納米,而鐵索體內奧氏體的厚度僅為幾到10納米數量級。 -
Toughness of grain boundary allotriomor phic ferrite granular bainite duplex microstructure
粒狀貝氏體復相組織的韌性 -
Study on deformation induced ferrite transformation of the grain boundary allotriomorphic ferrite granular bainite fgba bg and nb - ti microalloyed duplex steel
粒狀貝氏體復相鋼的形變誘導鐵素體相變的研究 -
There is an obviously increase on the resistivity of the composite sample doped with the increasing of the ( ni, zn ) fe2o4 content, which can be due to the following two reasons : ( 1 ) the grain size of ferrite is much larger than one of lao. ? sro smnos
2隨著鐵氧體材料( ni , zn ) fe _ 2o _ 4含量的增加,復合體系的電阻率迅速增大。分析其原因,這一方面可歸結為,大量異質界面的增加使得電子通過隧穿機制在界面之間的躍遷就變得更為困難,從而導致了體系電阻的增大。 -
To investigate the effect of different laminar cooling patterns on the microstructure and mechanical properties of plates in rolling process, the changes in temperature and microstructure of plate in such cooling process were calculated simulatively by coupling finite difference method with microstructural evolution models, thus predicting the ferrite grain size and phase composition under different cooling patterns
摘要為了研究層流冷卻方式對中厚板組織和性能的影響,用耦合有限差分和微觀組織演變模型模擬計算了中厚板層流冷卻過程中的溫度和組織變化,預測出了不同冷卻方式下的鐵素體晶粒尺寸和相組成。 -
Microstructures and mechanical property of low carbon manganese steel with grain boundary allotriomorphic ferrite bainite structure
貝氏體低碳錳鋼的組織和力學性能 -
The test results show that the grain sizes do not reduce further after 6 passes of ecap, the slip systems of ferrite is mainly belonging to { 110 } < 111 > and { 112 } < 111 > slip system family during the first and the second pass of the ecap with route c, and under the annealing conditions of 300 ~ 550 x lh, ultrafme grains are thermally stable
研究發現,在c方式ecap變形中,各道次ecap變形細化程度不同, 1道次細化效果最大,隨后道次細化作用逐步減少,變形6道次為實驗用鋼的ecap晶粒細化的極限。鐵素體c方式ecap變形第1和第2道次的主要滑移系為{ 110 } < 111 >和{ 112 } < 111 > 。 -
Simulation and rolling test results showed that the effect of laminar cooling patterns on the plate products is small in final phase composition but great in ferrite grain size
模擬結果和軋制實驗表明,對于低碳中厚板,層流冷卻方式對最終相組成的影響較小,而對產品的鐵素體晶粒尺寸有較大的影響。 -
Thinning the crystal grain and increasing the center vent are effective approach to raise the limiting frequency of high permeability mnzn ferrite. through large quantities of experiments, we made progress in raising limiting frequency of high permeability mnzn ferrite. we prepared the broad band mnzn ferrite of which the initial permeability was 10000
通過採用上述實驗中的優化配方、添加劑組合以及制備工藝,我們在高磁導率材料的寬頻特性方面取得了很大的進展,研製出了起始磁導率磁導率為10000的寬頻mnzn鐵氧體材料,當頻率達到300khz時,起始磁導率下降不到20 % ,其性能相當于epcos公司改進的t38材料。
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