1) asymmetric and cross rolling
异步交叉轧制
1.
The energy consumption (EC) characteristics of asymmetric and cross rolling (AC) technology were analysed by rolling theory and translated principle of power.
采用纵轧理论和功率转换原则对异步交叉轧制的能耗特性进行了分析,并进行了实验验证。
2.
In order to expound the axial thrust characteristics of asymmetric and cross rolling, a systematic experiment has been performed on the first AC mill developed by ourselves.
为阐明异步交叉轧制的轴向力特性,在自行研制的首架异步交叉轧机上进行了系统的实验研究。
2) cross rolling
交叉轧制
1.
The experimental results show that the cross rolling and annealing can significantly improve the mechanical property of magnesium sheet metal;Und.
结果表明:交叉轧制和退火工艺能够显著提高镁合金板材的力学性能;在极限拉伸温度150℃、极限拉伸速度15 mm/s的工艺条件下,极限拉伸比能够达到3。
2.
The results show that the elongation can be increased apparently by cross rolling, while the ultimate tensile strength and the yield strength are decreased.
研究轧制方式对Mo-1钼板组织和性能的影响,交叉轧制可使钼板的延伸率显著提高,σ0。
3.
AZ31 magnesium alloy sheet with good shape and formability is fabricated by warm cross rolling.
通过温热交叉轧制工艺制备了板形以及成形性能良好的AZ31镁合金薄板;开发了可加热的变压边力双动液压机,并详述其工作原理;采用不同的压边力方案,对盒形件进行温热拉延实验,分析了变压边力对AZ31镁合金板材温热拉延性能的影响。
3) differential speed rolling
异步轧制
1.
Research on drawability of AZ31 magnesium alloy sheet processed by differential speed rolling at room temperature;
异步轧制AZ31镁合金板材室温冲压性能研究
2.
Microstructure of AZ31 magnesium alloy sheets processed by differential speed rolling;
异步轧制AZ31镁合金板材组织
3.
The objective of this study on microstructure and grain orientation of AZ31 magnesium alloy sheets produced by differential speed rolling was to investigate the possibility of improving deformability of AZ31 magnesium alloy sheets.
主要对异步轧制AZ31镁合金板材的显微组织和晶粒取向进行了研究,以探讨提高镁合金板材塑性变形能力的途径。
4) asymmetric rolling
异步轧制
1.
It is revealed that the cold rolling texture is composed of strong incomplete α(〈110〉∥RD) fiber and relatively weak complete γ fiber(〈111〉∥ND) no matter what rolling schedule is taken on,but asymmetric rolling affects greatly the textural strength and its distribution along thickness.
研究了同步和异步轧制下无取向硅钢的冷轧织构及其沿层厚的分布特征。
2.
By means of analyzing four high mill for its rolling torque,this paper has established a structrural modle that suit to calculate the rolling torque of cold strip mill drived through back-up rolls in asymmetric rolling.
用辊系力矩分析法,建立了支持辊传动四辊冷轧机异步轧制轧制力矩的理论计算结构式,并对异步冷轧轧制力矩特性进行了生产实验分析,为异步工艺在冷轧带钢生产中的应用提供了理论及实验依据。
3.
This paper is to research the thickness distribution across the strip and it's re-lationship with roll's thermal crown in asymmetric rolling.
从而为将异步轧制工艺应用于冷轧窄带钢生产提供了完整的实测数据资料和实用工程计算软件。
5) Asynchronous Rolling
异步轧制
1.
Microstructure and Properties Evolution of Asynchronous Rolling AZ31 Magnesium Alloy Sheets during Annealing
异步轧制AZ31镁合金板材在退火处理中的组织性能演变
2.
The magnetic rariance is studied of different thiclcness two crystallization grain-oriented silicon steel finished product, underasynchronous rolling condition, the relationship is found between the tnagnetic and finished products thickness and asynchronous speed ratio of the grain oriented silicon steels.
研究了异步轧制条件下不同厚度的二次再结晶取向硅钢成品的磁性能的变化,找到了硅钢磁性能与成品厚度和异步速比之间的关系。
3.
The results indicated that the asynchronous rolling is effective to decrease rolling passes and improve the rolled texture and magnetic properties of thin silicon steel sheets.
结果表明 :异步轧制可有效地减少轧制道次 ,并有利于改善硅钢薄带的织构和磁性
6) cross shear rolling
异步轧制
1.
Evolution of texture of the AZ31 magnesium alloy by the cross shear rolling at room temperature;
AZ31镁合金室温异步轧制的织构演变
2.
Effect of the cross shear rolling technological parameters on tertiary recrystallization of ultra - thin silicon steel strips;
异步轧制对硅钢极薄带三次再结晶的影响
3.
Effect of reduction on textures of high purity aluminum foils after cross shear rolling;
冷轧形变量对异步轧制高纯铝箔织构的影响
补充资料:异步轧制
不对称轧制(asymmetrical rolling)的一种,是利用上下轧辊线速度差来改变变形区中的变形条件,产生有利于轧制变形的工艺。这种工艺具有降低轧制压力和生产更薄、精度更高产品等优点,但有容易使轧机颤振等缺点。一般轧制过程中本来就有工作轧辊间线速度不等的现象,只是未被看作是异步轧制而已。如单辊传动的薄板轧机、三辊劳特式轧机以及其他各种辊径不同的轧机的轧制过程都具有异步轧制的特点。异步轧制工艺还未在实际生产中发挥作用,尚存在许多问题,仍在研究中。
参考书目
汤富麟:《钢铁》,Vol.14,No.6,1979。
朱泉:《钢铁》,Vol.15,No.6,1980。
吴隆华:《钢铁》,Vol.15,No.3,1980。
参考书目
汤富麟:《钢铁》,Vol.14,No.6,1979。
朱泉:《钢铁》,Vol.15,No.6,1980。
吴隆华:《钢铁》,Vol.15,No.3,1980。
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