1) oxidation film inclusion
氧化膜夹杂
1.
The formation mechanism of oxidation film inclusion in aluminum alloy was analyzed in the paper, and the corresponding control measures were also put forward.
结合生产实际,阐述铝合金中氧化膜夹杂的形成机理,针对5182罐盖料等易产生氧化膜夹杂的高镁合金在熔铸工序上采取相应的控制措施,取得良好效果。
2) oxide inclusion
氧化物夹杂
1.
Property and Morphology of Oxide Inclusion in Spring Steel Produced with Different Deoxidization Processes;
不同脱氧条件下弹簧钢氧化物夹杂的性质和形貌
2.
Electrolytic extraction-X-ray fluorescence spectrometric analysis of individual oxide inclusion in steel
电解提取-X射线荧光光谱法测定钢中氧化物夹杂分量
3.
Stabilized oxide inclusion size of electro- chemical extraction was determined.
测定经电解提取出的稳定氧化物夹杂粒度大小,其测量的粒径范围:0。
5) oxide inclusions
氧化夹杂物
1.
It is found that oxide inclusions in the Al sheet are mainly γ-Al2O3, and Fe-rich impurity phases in the sheet are mainly Al3Fe,T1 (Al12Fe3Si) or (AlFeSiRE),and the crystal structure of (AlFeSiRE) phase is too complicated to determinate it.
结果表明,压力罐用铝材中的氧化夹杂物主要为面心立方晶格的γ-Al2O3,富Fe杂质相主要有单斜晶格的Al3Fe相、六方晶格的T1(Al12Fe3Si)相,或(AlFeSiRE)相,其中(AlFeSiRE)相的晶体结构较复杂,有待进一步确定。
2.
It is found that oxide inclusions in the Al sheet are mainly γ-Al2O3, and Fe-rich impurity phases in the sheet are mainly Al3Fe, Tl(Al12Fe3Si) or (AlFeSiRE), and the crystal structure of (AlFeSiRE) phase is too complicated to determinate it.
结果表明:压力罐用铝材中的氧化夹杂物主要为面心立方晶格的γ-Al2O3,富Fe杂质相主要有单斜晶格的Al3Fe相、六方晶格的Tl(Al12Fe3Si)相,或(AlFoSiRE)相,其中 (AlFeSiRE)相的晶体结构较复杂,有待进一步确定。
6) ultrafine oxide inclusions
超细氧化物夹杂
1.
The aim of this work is to introduce a method of studying the nonmetallic inclusions,especially the ultrafine oxide inclusions in steel by dissolving the ferric matrix in dilute hydrochloric acid(HCl) and filtering the solution with a special membrane.
钢中超细氧化物夹杂对提高钢材性能有重大意义。
补充资料:氧化膜
分子式:
CAS号:
性质: 活性溶解着的金属进入钝态后,在金属表面上存在着一成相的保护膜。这层膜为氧化膜,亦称钝化膜,它阻滞腐蚀的阳极过程,从而使腐蚀速度显著降低。氯离子是活性阴离子,它能破坏钝化膜,使钝态的金属重新活化。因此研究钝化膜的生长和破坏、膜的性质和结构、膜和金属的溶解,对于了解金属的腐蚀行为至关重要。
CAS号:
性质: 活性溶解着的金属进入钝态后,在金属表面上存在着一成相的保护膜。这层膜为氧化膜,亦称钝化膜,它阻滞腐蚀的阳极过程,从而使腐蚀速度显著降低。氯离子是活性阴离子,它能破坏钝化膜,使钝态的金属重新活化。因此研究钝化膜的生长和破坏、膜的性质和结构、膜和金属的溶解,对于了解金属的腐蚀行为至关重要。
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参考词条