机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2015年
7期
188-196
,共9页
张成光%张勇%张飞虎%栾殿荣
張成光%張勇%張飛虎%欒殿榮
장성광%장용%장비호%란전영
磨料水射流%冲击变形磨损%磨粒运动机制%去除模型
磨料水射流%遲擊變形磨損%磨粒運動機製%去除模型
마료수사류%충격변형마손%마립운동궤제%거제모형
abrasive waterjet%impact deformation wear%movement mechanism of abrasive%removal model
采用ANSYS Fluent对磨粒流场进行瞬态CFD仿真,得到射流过程中磨粒的分布和速度;并研究射流加工区磨粒运动机制,研究表明,新型后混合式磨料水射流加工中磨粒很容易穿过射流加工的静压区直接与工件发生作用进而去除材料。建立磨粒冲击塑性材料的冲击变形磨损模型,并结合Finnie塑性剪切磨损去除模型建立磨料水射流加工去除模型,模型表明,射流加工中心区域的材料去除量最高。根据新型后混合式磨料水射流系统进行塑性材料的磨料水射流加工试验,结果表明,射流加工中心区域材料去除最高,这是由于射流加工中心区域磨粒冲击角度较大、磨粒速度较高,材料以冲击变形磨损去除为主;远离射流冲击中心区域材料去除较低,材料以剪切磨损去除为主,与磨料水射流加工去除模型是完全一致的,证实磨料水射流加工去除模型的正确性。
採用ANSYS Fluent對磨粒流場進行瞬態CFD倣真,得到射流過程中磨粒的分佈和速度;併研究射流加工區磨粒運動機製,研究錶明,新型後混閤式磨料水射流加工中磨粒很容易穿過射流加工的靜壓區直接與工件髮生作用進而去除材料。建立磨粒遲擊塑性材料的遲擊變形磨損模型,併結閤Finnie塑性剪切磨損去除模型建立磨料水射流加工去除模型,模型錶明,射流加工中心區域的材料去除量最高。根據新型後混閤式磨料水射流繫統進行塑性材料的磨料水射流加工試驗,結果錶明,射流加工中心區域材料去除最高,這是由于射流加工中心區域磨粒遲擊角度較大、磨粒速度較高,材料以遲擊變形磨損去除為主;遠離射流遲擊中心區域材料去除較低,材料以剪切磨損去除為主,與磨料水射流加工去除模型是完全一緻的,證實磨料水射流加工去除模型的正確性。
채용ANSYS Fluent대마립류장진행순태CFD방진,득도사류과정중마립적분포화속도;병연구사류가공구마립운동궤제,연구표명,신형후혼합식마료수사류가공중마립흔용역천과사류가공적정압구직접여공건발생작용진이거제재료。건립마립충격소성재료적충격변형마손모형,병결합Finnie소성전절마손거제모형건립마료수사류가공거제모형,모형표명,사류가공중심구역적재료거제량최고。근거신형후혼합식마료수사류계통진행소성재료적마료수사류가공시험,결과표명,사류가공중심구역재료거제최고,저시유우사류가공중심구역마립충격각도교대、마립속도교고,재료이충격변형마손거제위주;원리사류충격중심구역재료거제교저,재료이전절마손거제위주,여마료수사류가공거제모형시완전일치적,증실마료수사류가공거제모형적정학성。
The flow field of abrasive is transiently simulated with ANSYS Fluent, obtaining distribution and velocity of abrasive in the abrasive waterjet machining (AWJ). The movement mechanism of abrasive is studied in the area of jet machining. It also suggests that abrasive easily threads zone of static pressure and directly impacts workpiece in new entrainment abrasive waterjet machining. The impact deformation wear model of AWJ is established. The removal model of AWJ is established with impact deformation wear model and Finnie plastic shear model. This removal model suggests that the material removal is high in the central region of the workpiece. The experiments of AWJ are carried according to new entrainment abrasive waterjet system. The results have shown that the material removal is high in the central region of the workpiece. This is because that impact angle of abrasive is bigger and speed of abrasive is higher in the jet machining center areas, materials are mainly removed by impact deformation wear. The material removal is low away from the centre areas of jet machining, materials are mainly removed by plastic shear wear. The experimental result of AWJ is fully consistent with theoretical removal model of AWJ, confirming that removal model of AWJ is right.