机械工程材料
機械工程材料
궤계공정재료
Materials for Mechanical Engineering
2015年
11期
52-55,60
,共5页
朱涛%刘政%邓可月%沈俊波%吴强
硃濤%劉政%鄧可月%瀋俊波%吳彊
주도%류정%산가월%침준파%오강
高速钢%交变磁处理%正交试验%硬度
高速鋼%交變磁處理%正交試驗%硬度
고속강%교변자처리%정교시험%경도
high-speed steel%alternating magnetic treatment%orthogonal experiment%hardness
基于前期采用Ansoft有限元分析软件对自制磁能强化装置进行建模仿真的基础上,通过正交试验的方法系统研究了磁场频率、励磁电压、磁化时间和磁场方向对 W6Mo5Cr4V2高速钢硬度的影响规律,得到了最佳的交变磁处理参数,并对最佳参数下处理的高速钢组织进行了观察.结果表明:交变磁处理可使高速钢的硬度提高4.6 HRC;最佳的交变磁处理参数为磁场频率5 Hz,励磁电压30 V,磁化时间60 s,试样被测表面和磁力线在同一个平面上;磁场频率和励磁电压对硬度的影响最大,磁场方向和磁化时间的影响较弱;经最佳参数交变磁处理后,碳化物的分布更加均匀,且尺寸更小,从而使得高速钢的硬度提高.
基于前期採用Ansoft有限元分析軟件對自製磁能彊化裝置進行建模倣真的基礎上,通過正交試驗的方法繫統研究瞭磁場頻率、勵磁電壓、磁化時間和磁場方嚮對 W6Mo5Cr4V2高速鋼硬度的影響規律,得到瞭最佳的交變磁處理參數,併對最佳參數下處理的高速鋼組織進行瞭觀察.結果錶明:交變磁處理可使高速鋼的硬度提高4.6 HRC;最佳的交變磁處理參數為磁場頻率5 Hz,勵磁電壓30 V,磁化時間60 s,試樣被測錶麵和磁力線在同一箇平麵上;磁場頻率和勵磁電壓對硬度的影響最大,磁場方嚮和磁化時間的影響較弱;經最佳參數交變磁處理後,碳化物的分佈更加均勻,且呎吋更小,從而使得高速鋼的硬度提高.
기우전기채용Ansoft유한원분석연건대자제자능강화장치진행건모방진적기출상,통과정교시험적방법계통연구료자장빈솔、려자전압、자화시간화자장방향대 W6Mo5Cr4V2고속강경도적영향규률,득도료최가적교변자처리삼수,병대최가삼수하처리적고속강조직진행료관찰.결과표명:교변자처리가사고속강적경도제고4.6 HRC;최가적교변자처리삼수위자장빈솔5 Hz,려자전압30 V,자화시간60 s,시양피측표면화자력선재동일개평면상;자장빈솔화려자전압대경도적영향최대,자장방향화자화시간적영향교약;경최가삼수교변자처리후,탄화물적분포경가균균,차척촌경소,종이사득고속강적경도제고.
Based on modeling and simulating results of self-made magnetization unit using the finite element analysis software Ansoft, the effects of magnetic field frequency, excitation voltage, magnetization time and magnetic orientation on hardness of W6Mo5Cr4V2 high-speed steel were studied by orthogonal experiment method. The best alternating magnetic parameters were achieved and microstrucute under the best magnetic parameters were observed.The results show that alternating magnetic treatment could enhance the hardness of high-speed steel by 4.6 HRC.The optimal alternating magnetic parameters as followed:magnetic field frequency was 5 Hz,excitation voltage was 30 V,magnetization time was 60 s,measured surface of the sample was on the same plane with the magnetic field line.Magnetic field frequency and excitation voltage had the largest influence on hardness,and magnetic orientation and magnetization time had relative weak influnce.After alternating magnetic treatment with the best parameters,the hardness of high-speed steel increased due to more homogeneous and smaller carbides.