1) ferritic rolling
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铁素体区热轧
1.
It is found that texture characteristic at the surface is absolutely different from that at the mid-section in ferritic rolling as well as in cold rolling and annealing.
为了揭示铁素体区热轧、冷轧和退火过程中高强Ti-IF钢中织构的演变过程,采用X射线衍射仪研究了铁素体区热轧及随后的冷轧和退火织构的特点。
2) lubriciously hot rolling
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铁素体区润滑热轧
3) ferritic rolling
![点击朗读](/dictall/images/read.gif)
铁素体区轧制
1.
The effects of processing parameters of ferritic rolling on microstructures and mechanical properties especially on deep drawability of ultra-low carbon and Ti-stabilized interstitial-free steels were investigated,and the precipitates in Ti-IF steel were also analyzed.
本文研究了铁素体区轧制工艺条件对超低碳(ULC)钢和钛处理的无间隙原子(Ti-IF)钢组织和性能,特别是对深冲性能的影响,并分析了Ti-IF钢中的析出物。
4) ferrite rolling
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铁素体区轧制
1.
Functions of alloying elements in ultra low carbon IF steel and advantage of ferrite rolling are introduced.
介绍了超低碳IF钢中合金元素的作用、铁素体区轧制的优点,并对铁素体区轧制时变形温度、压下量、润滑条件及退火工艺对板卷深冲性能的影响进行了分析。
2.
It is introduced that the features, superiority and developing trend of ferrite rolling in thin slab continuous casting and rolling production and its application in ultra-thin hot-rolling strip steel.
介绍了薄板坯连铸连轧生产中铁素体区轧制技术的特点、优势、发展趋势,以及铁素体轧制工艺 在超薄热轧带钢项目中的应用。
5) rolling technology at ferritic range
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铁素体区轧制技术
1.
Advantages and characteristics of rolling technology at ferritic range are discussed and the state-of-arts of the technology applied to domestic and abroad producers is introduced as well.
讨论了铁素体区轧制技术的优势、特点及其在国内外生产厂家的应用现状 ,分析了铁素体区轧制工艺在攀钢实施的可行性。
6) ferritic rolling
![点击朗读](/dictall/images/read.gif)
铁素体轧制
1.
Furthermore, two new technologies, semi endless rolling and ferritic rolling, are introduced, which have been used.
进一步介绍了为生产超薄带开发出来的两项新技术—半无头轧制和铁素体轧
2.
Through analysis,the best optimization ferritic rolling process is determined.
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通过对本钢薄板坯板连铸连轧生产线铁素体轧制工艺开发过程进行工艺跟踪及现场取样,对钢板的金相组织和力学性能检验,将不同生产工艺下钢板的组织与力学性能进行对比分析,确定了低碳钢铁素体轧制最优的热轧与冷轧生产工艺。
3.
Through analysis the best optimization ferritic rolling process is determined.
![点击朗读](/dictall/images/read.gif)
针对本钢 FTSR 生产线铁索体轧制工艺开发过程进行工艺跟踪及现场取样,进行金相组织和工艺性能检验,分析不同生产工艺下钢板的组织和力学与工艺性能,确定了低碳钢铁素体轧制最优的热轧与冷轧生产工艺。
补充资料:低温铁素体钢
分子式:
CAS号:
性质:适合低温(273~153K)使用的低合金铁素体钢。它们在脆性转变温度以上使用。可为三类:(1)低碳-锰钢,如233K用钢16Mn属于此类;(2)低镍钢,在233~213K用0.5%Ni钢;当温度降至193~183K时,用2.25%Ni钢,或含锰的1.5%Ni钢;(3)无镍铬低温铁素体钢,主要有203K用钢09Mn2V及09MnTiCuRE,183K用钢06MnNb,153K用钢06AlCu和06AlNbCuN。低温铁素体钢主要用于液体丙烷与丙烯、液氨等液化气的储存及输送装置,寒冷地区野外作业的设备和工程结构以及一些冷冻设备等。
CAS号:
性质:适合低温(273~153K)使用的低合金铁素体钢。它们在脆性转变温度以上使用。可为三类:(1)低碳-锰钢,如233K用钢16Mn属于此类;(2)低镍钢,在233~213K用0.5%Ni钢;当温度降至193~183K时,用2.25%Ni钢,或含锰的1.5%Ni钢;(3)无镍铬低温铁素体钢,主要有203K用钢09Mn2V及09MnTiCuRE,183K用钢06MnNb,153K用钢06AlCu和06AlNbCuN。低温铁素体钢主要用于液体丙烷与丙烯、液氨等液化气的储存及输送装置,寒冷地区野外作业的设备和工程结构以及一些冷冻设备等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条