表面滲鋁 的英文怎麼說

中文拼音 [biǎomiànshèn]
表面滲鋁 英文
alitizing
  • : Ⅰ名詞1 (外面;外表) outside; surface; external 2 (中表親戚) the relationship between the child...
  • : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
  • : 動詞(液體慢慢地透過或漏出) ooze; seep
  • : 名詞[化學] aluminium (13號元素, 符號al)
  • 表面 : surface; superficies; boundary; face; rind; sheet; skin; outside; appearance
  1. Aluminizing of steel surfaces and its oxidation resistance

    表面滲鋁及其抗氧化性能研究
  2. Anti penetration of hardened mortar can reach 10 - 7cm / s. adopting sulfate - aluminum cement, phosphorus slag, flying ash, yellow slag and ect raw materials, the optimized mixture program of dmm is a3b3c2 ( cement 480 m2 / kg, phosphorus slag352 m2 / kg, activated agent 3 % ), 28 strength is low, due to cement alkality, resulting in activity of phosphorus slag and flying ash small

    採用硫酸鹽水泥,磷渣、粉煤灰、黃砂等原武漢理工大學碩士學位論文料配製抗干拌砂漿最優配料方案為: a3b3c2 (水泥比積4som , / kg ,磷渣比積352mz / kg ,激發劑3 % ) 。
  3. The surface elemental analysis shows that al / o atomic ratio change from about 2 / 3 of not wetted part to about 1 / 1 of wetted part. the damage of coating surface seems to be related to the interaction of outside layer with liquid pb - 17li and thermal stress during heating sample

    未浸潤的ai / o原子比約為2 / 3 ,浸潤約為1 / 1 ,明液態鉛鋰合金對的al2o3薄層造成了損傷。
  4. Oxidation erosion, liquid aluminum erosion and the erosion mechanism of grey cast iron crucible for aluminum melting were described in detail. the methods such as alloying of as - cast surface for improving oxidation resistance of the grey cast iron crucible and both composition adjustment and infiltration protection for improving liquid aluminum erosion resistance of the crucible were introduced. the corrosion resistance and service life of grey cast iron crucible were improved effectively with these methods through decreasing various channels of erosion developing from the surface to the inner of crucible

    詳細論述了熔灰鐵坩堝的氧化腐蝕、液腐蝕及其腐蝕機制,介紹了能夠提高灰鐵坩堝抗高溫氧化能力的鑄態合金化法和能夠提高灰鐵坩堝抗液腐蝕能力的調整成分法與浸保護法,這些方法通過減少腐蝕由坩堝向基體內部發展的各種「通道」 ,有效地改善了灰鐵坩堝抗腐蝕性能,提高了坩堝使用壽命。
  5. Abstract : oxidation erosion, liquid aluminum erosion and the erosion mechanism of grey cast iron crucible for aluminum melting were described in detail. the methods such as alloying of as - cast surface for improving oxidation resistance of the grey cast iron crucible and both composition adjustment and infiltration protection for improving liquid aluminum erosion resistance of the crucible were introduced. the corrosion resistance and service life of grey cast iron crucible were improved effectively with these methods through decreasing various channels of erosion developing from the surface to the inner of crucible

    文摘:詳細論述了熔灰鐵坩堝的氧化腐蝕、液腐蝕及其腐蝕機制,介紹了能夠提高灰鐵坩堝抗高溫氧化能力的鑄態合金化法和能夠提高灰鐵坩堝抗液腐蝕能力的調整成分法與浸保護法,這些方法通過減少腐蝕由坩堝向基體內部發展的各種「通道」 ,有效地改善了灰鐵坩堝抗腐蝕性能,提高了坩堝使用壽命。
  6. Lmpa, the relationship is f di = l 55xl0 - " e47j l t ) in this range, the relative error of the hydrgen permeabilty bbeen the experimental values and the formula values are less than 3 %, the durability test showed that after the cycle experiments of prcssure and tempebe for 30 days, the perfrmance of the membran did not change, at last, the theory of hydrogen permeaton was discussed, too. through this work, the pfepared surf ases modified zirconium memran can satisfy the requirement of the purity and the permeating fiux of hydrogen isotope gas

    Imp范圍內,改性選擇氫膜的數學達式為: ( 1320 i 155x10 」 exd l 「 t )在這個溫度和壓差范圍內,氫系數的實驗數據計算值與數學公式計算值的誤差在3以內;鉻改性選擇氫膜的壽命考核實驗明,經過連續30大的循環溫度、壓力實驗,膜的質量、性能無變化;並討論了膜的氫理論。
  7. Analyzing of spinodal decomposition and its microstructure in hot - dipped aluminum steel

    熱浸層組織中的調幅分解及其分析
  8. The researches indicate that after a heat treatment at high temperature ( 1700 ? ), the chemistry properties of the boron carbide surface are changed. the new boron carbide surface, react weaker with aluminum, thus a better infiltration can be achieved

    碳化硼預制體經高溫預燒后,碳化硼化學狀態發生改變,預燒后形成的碳化硼新的反應活性降低,從而保證在本文工藝條件下浸過程的順利進行。
  9. In the process of alloy melt and infiltrate the boron carbide, reaction between the boron carbide and aluminum interface occur, the key of achieving a good interface bond is the control of the reaction between the boron carbide and aluminum interface

    研究明,在熔融潤濕碳化硼預制體並向碳化硼預制體中浸的過程中,取得良好界結合的關鍵是保證在預制體達到完全浸前不發生過度的界反應。
分享友人
分享到 Line

分享到臉書