特钢技术
特鋼技術
특강기술
SPECIAL STEEL TECHNOLOGY
2014年
3期
1-4,39
,共5页
TiN%0Cr18Ni10Ti%00Cr19Ni10N%非金属夹杂
TiN%0Cr18Ni10Ti%00Cr19Ni10N%非金屬夾雜
TiN%0Cr18Ni10Ti%00Cr19Ni10N%비금속협잡
TiN%0Cr18Ni10Ti%00Cr19Ni10N%Non-metallic inclusions
浅述了TiN给0Cr18Ni10Ti等含Ti奥氏体不锈钢使用带来的影响,并对如何降低0Cr18Ni10Ti钢中TiN数量及评级的措施进行了分析讨论。选择适宜的原辅料、冶炼工艺流程及工艺参数,可有效降低钢中TiN;推广应用00Cr19Ni10N是解决TiN危害的最有效手段。
淺述瞭TiN給0Cr18Ni10Ti等含Ti奧氏體不鏽鋼使用帶來的影響,併對如何降低0Cr18Ni10Ti鋼中TiN數量及評級的措施進行瞭分析討論。選擇適宜的原輔料、冶煉工藝流程及工藝參數,可有效降低鋼中TiN;推廣應用00Cr19Ni10N是解決TiN危害的最有效手段。
천술료TiN급0Cr18Ni10Ti등함Ti오씨체불수강사용대래적영향,병대여하강저0Cr18Ni10Ti강중TiN수량급평급적조시진행료분석토론。선택괄의적원보료、야련공예류정급공예삼수,가유효강저강중TiN;추엄응용00Cr19Ni10N시해결TiN위해적최유효수단。
This paper simply reviewed the effect of TiN on the applications of austenitic stainless steels containing titanium such as 0Cr18Ni10Ti,and discussed the solutions of decreasing the amount of TiN and refining its ratings. The good combinations of feedings of correct raw materials, the melting and the process parameters may decrease the amount of TiN in these steels;and further, the most effective approach is to extend the applications of 00Cr19Ni10N instead.