工程科学学报
工程科學學報
공정과학학보
Journal of University of Science and Technology Beijing
2015年
5期
108-114
,共7页
郑书华%束学道%孙宝寿%彭文飞
鄭書華%束學道%孫寶壽%彭文飛
정서화%속학도%손보수%팽문비
高铁%空心车轴%楔横轧%壁厚%均匀性
高鐵%空心車軸%楔橫軋%壁厚%均勻性
고철%공심차축%설횡알%벽후%균균성
high-speed railway%hollow shafts%cross-wedge rolling%wall thickness%uniformity
在空心轴楔横轧多楔轧制中,控制壁厚均匀性是衡量车轴成形质量的重要标准。本文先分析空心轴楔横轧多楔轧制的稳定轧制条件,得到了确定空心车轴楔横轧压扁失稳的准则。在此基础上,基于DEFORM-3D软件,建立楔横轧多楔同步轧制高铁空心车轴的三维刚塑性有限元模型,分析展宽角、成形角等工艺参数对壁厚均匀性的影响,获得了工艺参数影响轧制空心车轴壁厚变化的规律。结果表明:成形角越大,壁厚均匀性越好;展宽角越大,壁厚均匀性越好,但在展宽角大于10。时,壁厚均匀性反而下降。基于多楔轧制实验,轧制1:5缩比的空心车轴,测量了轧制力矩和轧制空心轴的壁厚,与仿真结果作比较,相对误差均在10%以内,验证了所建有限元模型的正确性。
在空心軸楔橫軋多楔軋製中,控製壁厚均勻性是衡量車軸成形質量的重要標準。本文先分析空心軸楔橫軋多楔軋製的穩定軋製條件,得到瞭確定空心車軸楔橫軋壓扁失穩的準則。在此基礎上,基于DEFORM-3D軟件,建立楔橫軋多楔同步軋製高鐵空心車軸的三維剛塑性有限元模型,分析展寬角、成形角等工藝參數對壁厚均勻性的影響,穫得瞭工藝參數影響軋製空心車軸壁厚變化的規律。結果錶明:成形角越大,壁厚均勻性越好;展寬角越大,壁厚均勻性越好,但在展寬角大于10。時,壁厚均勻性反而下降。基于多楔軋製實驗,軋製1:5縮比的空心車軸,測量瞭軋製力矩和軋製空心軸的壁厚,與倣真結果作比較,相對誤差均在10%以內,驗證瞭所建有限元模型的正確性。
재공심축설횡알다설알제중,공제벽후균균성시형량차축성형질량적중요표준。본문선분석공심축설횡알다설알제적은정알제조건,득도료학정공심차축설횡알압편실은적준칙。재차기출상,기우DEFORM-3D연건,건립설횡알다설동보알제고철공심차축적삼유강소성유한원모형,분석전관각、성형각등공예삼수대벽후균균성적영향,획득료공예삼수영향알제공심차축벽후변화적규률。결과표명:성형각월대,벽후균균성월호;전관각월대,벽후균균성월호,단재전관각대우10。시,벽후균균성반이하강。기우다설알제실험,알제1:5축비적공심차축,측량료알제력구화알제공심축적벽후,여방진결과작비교,상대오차균재10%이내,험증료소건유한원모형적정학성。
Wall thickness uniformity is an important quality criterion of railway hollow shafts by multi-wedge synchrostep cross wedge rolling. The stable rolling condition of railway hollow shafts in this rolling process is analyzed, and a flattening instability criteri-on is presented. Based on this result, a rigid-plastic finite element model of hollow railway shafts by multi-wedge synchrostep rolling is established with DEFORM-3D software, the influence of processing parameters such as broadening angle and forming angle on the wall thickness uniformity is discussed, and the change law of wall thickness is obtained by changing these processing parameters. The big-ger the forming angle, the more uniform the wall thickness is;the bigger the spreading angle, the more uniform the wall thickness is, but when the spreading angle is more than 10., the wall thickness uniformity will decrease. A 1:5 ratio high-speed railway hollow shaft is rolled based on multi-wedge synchrostep cross wedge rolling experiment. Rolling torque measurements and wall thickness com-parisons between experimental and simulated results show that the relative error is controlled within 10%, which verifies the validity of this finite element model.
