1) complete decarburization
全脱碳
1.
The results show that when the thickness of complete decarburization of hot rolling wire is 0.
5 mm热轧线材从线材、拉丝半成品到油淬火—回火成品生产过程进行跟踪,结果表明:热轧线材全脱碳层厚度约为0。
2) Fully decarburized layer
全脱碳层
3) decarbonization
[di:,kɑ:bənai'zeiʃən]
脱碳
1.
Decarbonization and Protective Coating of High Speed Steel;
高速钢的脱碳和涂料防护
2.
NHD Desulphurization and Decarbonization Device;
合成氨原料气NHD法脱硫脱碳装置
4) decarburization
[英][di:,kɑ:bjuəri'zeiʃən] [美][di,kɑrbjərɪ'zeʃən]
脱碳
1.
Analysis of Surface Decarburization of Spring Steel Coil Produced by Baosteel Long Product Mill;
高速线材生产的弹簧钢盘卷的表面脱碳分析
2.
Anti-decarburization Coating for GCr15 Steel;
GCr15钢脱碳保护涂层
3.
An activity decarburization model in RH vacuum refining;
一个RH处理过程的脱碳动态模型
5) carbon removal
脱碳
1.
Analysis on Quenching and Carbon Removal Distortion;
轴承圈淬火脱碳和变形分析
2.
It can be used in sulfur removal, carbon removal of acidic gas, removal of carbon with removal of inorganic and organic sulfur simultaneously, which covers almost the entire field of gas purification.
从选择脱硫开始,经过十余年的发展,以甲基二乙醇胺(MDEA)为中心的工艺已成为气体净化领域内最具活力的工艺,可用于选择脱硫、酸气提浓、脱碳,同时脱硫脱碳和脱除有机硫,几乎覆盖了整个气体净化领域。
6) CO 2 removal
脱碳
1.
Simulated calculation was made on MDEA CO 2 removal system using PRO(Ⅱ)software.
应用 PRO (II)软件对 MDEA脱碳系统进行了模拟计算 ,并提供了在年产 1 0万 t合成氨装置中的 MDEA系统模拟数据。
2.
NHD CO 2 removal process and its characteristics in No.
阐述了山西丰喜集团临猗分公司一分厂的 NHD脱碳工艺及特点。
3.
This paper presents the engineering feasibility of aMDEA process revamped from HPC Loheat process,its process properties and its expected economic benefits in the CO 2 removal system of ammonia plant Compared with HPC method,the method is especially superior in solving the process effluent problems and its incremental environment compliance cost is reduced to almost nothin
叙述氨厂脱碳系统由HPC低热工艺改造为MDEA法的技术可行性、工艺特征及其所能取得的经济效益。
补充资料:脱碳层
脱碳层
decarbonized zone
tuotanceng脱碳层(deearbonized zone)含碳耐火材料在高温使用中,表层受氧化性介质侵蚀,碳被氧化后形成的层带。脱碳层的气孔率比原砖显著增大,故强度降低。 含碳耐火材料经熔渣侵蚀后,工作面常附有一层渣层,其成分主要由熔渣与被熔渣溶蚀或冲蚀下来的耐火材料构成。紧接着附渣层的是熔渣与脱碳后的耐火材料相互作用而形成的反应层(见变质层)在反应层内,相互作用生成的液相形成了连续基质,耐火材料的晶粒或颗粒一般多呈蚀损状态并被这些基质所包围。反应层与原砖之间则为脱碳层。脱碳层一般都较薄,反应层则较厚些。 (陈肇友)
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参考词条