机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2014年
16期
83-88
,共6页
郭良刚%邸伟佳%杨合%李永堂
郭良剛%邸偉佳%楊閤%李永堂
곽량강%저위가%양합%리영당
难变形材料%环件双向辗轧%轧制曲线设计%组织均匀性
難變形材料%環件雙嚮輾軋%軋製麯線設計%組織均勻性
난변형재료%배건쌍향전알%알제곡선설계%조직균균성
difficult-to-deform materials%radial-axial ring rolling%rolling curve design%microstructure uniformity
轧制曲线描述了环件双向辗轧过程中径向与轴向变形量的瞬时分配关系,决定了变形过程的历史和轧辊路径,因而对轧制环件的几何精度、特别是微观组织具有重要影响作用,对钛合金和铸坯等难变形材料的环件辗轧成形更是如此。提出一种环件双向辗轧过程轧制曲线的设计方法,该方法只要给定环件及环坯尺寸,便可设计“上凸形”、“直线形”和“下凹形”三类轧制曲线。以某 TC4钛合金环件双向辗轧为研究对象,采用有限元建模仿真方法,揭示上述三类轧制曲线对环件圆度及组织(α相晶粒尺寸及体积分数)均匀性的影响规律。结果表明,相对于“直线形”轧制曲线,“下凹形”轧制曲线有利于提高环件圆度,而“上凸形”轧制曲线有利于提高环件的组织均匀性。为了同时发挥“下凹形”和“上凸形”轧制曲线的优势,提出并设计一种“S形”轧制曲线,可获得同时具有较高形状尺寸精度与良好组织均匀性的TC4钛合金环件。
軋製麯線描述瞭環件雙嚮輾軋過程中徑嚮與軸嚮變形量的瞬時分配關繫,決定瞭變形過程的歷史和軋輥路徑,因而對軋製環件的幾何精度、特彆是微觀組織具有重要影響作用,對鈦閤金和鑄坯等難變形材料的環件輾軋成形更是如此。提齣一種環件雙嚮輾軋過程軋製麯線的設計方法,該方法隻要給定環件及環坯呎吋,便可設計“上凸形”、“直線形”和“下凹形”三類軋製麯線。以某 TC4鈦閤金環件雙嚮輾軋為研究對象,採用有限元建模倣真方法,揭示上述三類軋製麯線對環件圓度及組織(α相晶粒呎吋及體積分數)均勻性的影響規律。結果錶明,相對于“直線形”軋製麯線,“下凹形”軋製麯線有利于提高環件圓度,而“上凸形”軋製麯線有利于提高環件的組織均勻性。為瞭同時髮揮“下凹形”和“上凸形”軋製麯線的優勢,提齣併設計一種“S形”軋製麯線,可穫得同時具有較高形狀呎吋精度與良好組織均勻性的TC4鈦閤金環件。
알제곡선묘술료배건쌍향전알과정중경향여축향변형량적순시분배관계,결정료변형과정적역사화알곤로경,인이대알제배건적궤하정도、특별시미관조직구유중요영향작용,대태합금화주배등난변형재료적배건전알성형경시여차。제출일충배건쌍향전알과정알제곡선적설계방법,해방법지요급정배건급배배척촌,편가설계“상철형”、“직선형”화“하요형”삼류알제곡선。이모 TC4태합금배건쌍향전알위연구대상,채용유한원건모방진방법,게시상술삼류알제곡선대배건원도급조직(α상정립척촌급체적분수)균균성적영향규률。결과표명,상대우“직선형”알제곡선,“하요형”알제곡선유리우제고배건원도,이“상철형”알제곡선유리우제고배건적조직균균성。위료동시발휘“하요형”화“상철형”알제곡선적우세,제출병설계일충“S형”알제곡선,가획득동시구유교고형상척촌정도여량호조직균균성적TC4태합금배건。
The rolling curve, which is defined as the instantaneous relationship between the radial and axial deformation degrees during the radial-axial ring rolling(RARR) process thus determines the deformation history and roll paths, plays an important role in the geometry precision and microstructure of the rolled ring, especially for rolling of difficult-to-deform materials such as titanium alloy and as-cast billet. A design method of rolling curves for radial-axial ring rolling process is proposed. The method can be used to design three kinds of rolling curves, namely the convex, linear and concave ones, for known sizes of ring product and ring blank. And then the effects of different rolling curves on the circularity and microstructure (mainly including α phase volume fraction and grain size) uniformity of the rolled TC4 titanium alloy ring by finite element(FE) simulations are numerically revealed. The results show that:Compared with the linear rolling curve, the concave rolling curve contributes to increasing the circularity of the rolled ring;and the convex rolling curve contributes to improving the microstructure uniformity. So in order to combine the advantages of the concave and convex rolling curves, An “S” form rolling curve is designed which is helpful to obtain TC4 titanium alloy ring simultaneously having precise dimensions and favorable microstructure uniformity.
