1) drawing draught
拉拔配模
1.
The paper introduces the K series parameters and their relations,and gives the linear regression equation of residual stress of the drawn HSnTO-1 copper tube,to a certain extent,which could predict the corrosion-resisting property of the tube, and point out the drawing-up of drawing draught for the low residual stress tubes is an energy-saving measures.
编制低残余应力的拉拔配模规程将是一项节能措施,文章中的新编规程实例供同行们参考。
2) dieless drawing
无模拉拔
1.
Prediction model of wire diameter in dieless drawing process based on BP neural network;
无模拉拔过程中金属线材直径的BP神经网络预测模型
2.
Thermo-mechanical coupling analysis in the dieless drawing process of NiTi shape memory alloy wires;
NiTi合金线材无模拉拔加工过程热力耦合数值模拟
3.
Application of PID control algorithm based on genetic algorithm and BP neural network to temperature control during dieless drawing;
基于遗传BP网络的PID控制算法在无模拉拔温度控制中的应用
3) drawing mould corner
拉拔模角
4) roller dies drawing
辊模拉拔
1.
Based on the experiments,the characters of deformation and technology in drawing fluxcored welding wires through conventional dies and roller dies have been analyzed in this paperThe results indicate that the process of roller dies drawing is feasible,and has practice and theory valuein improving quality and satisfying the need of production
分析固定模拉拔与辊模拉拔药芯焊丝的不同变形特点和工艺特点。
5) roller die drawing
辊模拉拔
1.
To introduce the application of the technology of deforming with roll forging, design parameter would be gotten by discussing the methods of groove designing about roller die drawing and three roller rolling.
介绍辊锻变形技术在线材生产中的应用,提出辊模拉拔和三辊连轧的孔型设计方法和设计参数。
6) pull-out model test
拉拔模型
1.
The large-scale pull-out model test was done to study the interaction of the geogrid and the filling, the relationship of the drawing capacity and deformation, and the bearing upsi.
采用大尺寸拉拔模型研究土工格栅与填料之间的相互作用,建立了拉拔力与变形、材料上层覆压之间的关系,结果表明:在土工格栅与土的相互作用中,可以用双曲线函数来描述土工格栅受到的拉力与变形的相关关系;格栅受到的极限抗拔力与上覆压力成线性关系,而初始拉拔模量与上覆压力成幂函数关系,这些结论为相关理论分析和设计计算提供了依据。
补充资料:管材旋转模冷拔
管材旋转模冷拔
cold drawing of tube through revolving die
的主动旋转外模与顶头(或芯棒)之间拔制管材的工艺(见图)采用旋转模拉拔,拉拔的部分变形为滚轧所取代,滚珠或滚柱与管材接触表面之间为滚动摩擦。摩擦系数小,可以降低拔制力。这对薄壁管和低塑性材料的拉拔很有利。但是,旋转模冷拔管材存在以下的缺点:(1)旋转槽内滚珠或滚柱的咬入角较小(镇15。),睿二瑙 滚珠式旋转模的结构及拔管过程 l一端支持环;2一安装在旋转支持器内的模套; 3一管材;4一芯棒guaneai xuanzhuanmu lengba管材旋转模冷拔(eold arawing of:ub。thro-u只h revolving die)室温下在装有滚珠或渡杜使得每转的减壁量不能取大,一般小于滚珠或滚柱直径的2%;(2)为防止管体表面出现螺旋线,旋转模每转动一次管材的轴向送进量必须很小,对于滚珠组装的旋转模,约为管材周长的2%一4%;(3)模内相互接触的滚珠或滚柱体之间以及它们与模套之间摩擦能耗的比重也很大。由于上述原因,旋转模冷拔管材未能在大生产中广泛应用。 (周忠民)
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