| 1. | Simulation of incremental deep drawing process of dish
盘形件增量拉深成形过程的数值模拟 |
| 2. | Neural network based prediction of frictional coefficient in metal forming deep drawing
基于神经网络的板料拉深成形摩擦系数预测 |
| 3. | Deep drawing experiments were carried out for tailor - welded blank square boxes
摘要本文对拼焊板方盒件的拉深成形进行了试验研究。 |
| 4. | Friction characteristics and tribology design of drawing formability on the big cover element
大型覆盖件拉深成形的摩擦特性与摩擦学设计 |
| 5. | Acquisition technology of process knowledge from simulation results of cylindrical cup drawing process
圆筒件拉深成形仿真结果的工艺知识挖掘 |
| 6. | The 3d simulation model of box deep drawing was presented and validated with the homologous experiment
摘要建立了矩形盒拉深成形的三维仿真分析模型,并将其与实验结果进行了对比验证。 |
| 7. | The effect of different yield criteria on the finite element simulation of deep drawing formability for different thickness tailor welded blanks
屈服准则对差厚铝合金拼焊板拉深成形数值模拟的影响 |
| 8. | Taking typical drawing workpiece circular cup as the research object , a stamping technological parameters artificial neural network ( ann ) model for bhf forecast has been built up
摘要压边力是板料成形中的一个重要的工艺参数,也是板料拉深成形中的重要控制手段。 |
| 9. | The history and progress of springback researche in bending and 3 - d shallow drawing are all - sidedly presented in this paper with three aspects of theoretic analyzing , numerical simulating and springback controlling
摘要本文从回弹理论、回弹数值模拟分析、回弹控制三方面对弯曲成形、 3 - d复杂浅拉深成形中间弹研究的历史和最新发展状况作了较全面的介绍。 |
| 10. | With analysis on the forming process of a deep drawing part , the process of the reason for crack due to thinning and wrinkling during sheetmatel deep drawing is discussed , and the solution is also put forward
摘要通过对备胎槽零件进行拉深成形的工艺分析,介绍了模具调试的过程,分析薄板料的深拉深成形危险断面的变薄与起皱造成碎裂的产生原因、解决方法,以及采取的措施。 |
