TMCP technology is important to improve the products quality.
TMCP技术是改善产品质量的重要轧制工艺技术。
The replacement of tempering after rolling with TMCP for bainite transformation in SBL steel is a kind of diffusion type.
结果表明,控轧控冷代替常规轧后回火工艺的途径是可行的,并有力地支持了粒状贝氏体的扩散型长大学说。
Adopting TMCP technique, the steel is assured to have strong toughness owing to grain refining and precipitation strengthening.
采用TM CP工艺,靠晶粒细化和析出强化保证了钢材的强韧性。
New TMCP, which hot ribbed bar is produced with ultra fast cooling technology after rolling, is a creative, applicable technology.
新一代TMCP -轧后超快速冷却技术生产热轧带肋钢筋是一种创新性的适用技术。
By using appropriate TMCP process, complex phase of acicular ferrite with different compositions could be obtained in low carbon alloy pipeline steel.
采用合适的TMCP工艺,可以在低碳合金管线钢中获得不同组成比的针状铁素体复相组织。
The pipeline steel was updated from X70 to X80 through TMCP technique, and its mechanical properties and fracture separation of rolled plate were studied.
利用TMCP技术实现了管线钢x 70级向X80级的升级,并研究了板材的力学性能及断口分离现象。
Quenched and tempered steel after the tests have a high uniformity, as compared with the TMCP has superior strength and plasticity and strength and toughness.
调质后的试验钢有较高的均匀性,与TMCP相比,具有更优异的强塑性和强韧性。
Using advanced TMCP technology, Baosteel's hot-rolled pickled strip for high hole expansion has high expansion rate and excellent forming and welding properties.
宝钢高扩孔用热轧酸洗钢带是采用先进的控轧控冷技术生产的具有高的扩孔率、优良的成形性能和焊接性能。
The effect of TMCP parameters on microstructure and property was studied, and a controversial question about bainite transformation mechanism also was discussed.
在热模拟试验机上研究了控轧控冷工艺对微合金化低碳贝氏体型非调质钢组织性能的影响,并探讨了贝氏体转变机制问题。
The differences between conventional TMCP and new type TMCP were compared, and two mechanisms of low temperature large deformation for fine-grained were summarized.
比较了传统TMCP与新型TMCP的异同,总结了目前采用的细化晶粒低温大变形方法的两种机制。
Hot-rolled pickled steel for automotive wheel is low carbon micro-alloyed steel with excellent properties of cold forming and welding produced by using advanced TMCP technology.
宝钢车轮用热轧酸洗钢带是采用控轧控冷工艺生产的具有优良冷成形性能和焊接性能的低碳微合金化钢。
The effects of processing parameters of TMCP, such as finish rolling temperature and coiling temperature on microstructure and mechanical properties of low CMn steel were studied by TMCP tests.
通过TMCP工艺实验,研究了终轧温度和卷取温度对低碳锰钢力学性能和微观组织的影响规律。
The effects of processing parameters of TMCP, such as finish rolling temperature and coiling temperature on microstructure and mechanical properties of low CMn steel were studied by TMCP tests.
通过TMCP工艺实验,研究了终轧温度和卷取温度对低碳锰钢力学性能和微观组织的影响规律。
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