机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2015年
3期
206-212
,共7页
李登万%陈洪涛%冯锦春%钟成明
李登萬%陳洪濤%馮錦春%鐘成明
리등만%진홍도%풍금춘%종성명
均匀设计%精密车削%参数优化%刀具寿命%表面残余应力
均勻設計%精密車削%參數優化%刀具壽命%錶麵殘餘應力
균균설계%정밀차삭%삼수우화%도구수명%표면잔여응력
uniform design%precision turning%parameter optimization%tool life%surface residual stress
为了探索难加工材料-奥氏体不锈钢精密车削的参数优化问题,引入伪变量A表达车削冷却降温条件,用均匀设计法设计含定性因素混合水平的精密车削试验方案。在干式、环保型湿式和低温冷风微油雾三种不同车削冷却降温条件下,实现低成本高效率的精密车削试验。在这三种条件下,以切削速度、进给量、背吃刀量和刀尖半径为优化变量,以表面粗糙度、表面残余应力、切削力、切削温度、刀具寿命和切削效率为优化目标函数,建立了奥氏体不锈钢精密车削参数优化模型,还对车削参数进行了优化和验证,效果明显。以刀具磨钝前能车削出的总金属表面积作为刀具寿命,在工件连续表面不出现接刀现象的前提下进行精密车削参数优化。研究成果对指导大型工件精密车削的参数选择具有实际意义。
為瞭探索難加工材料-奧氏體不鏽鋼精密車削的參數優化問題,引入偽變量A錶達車削冷卻降溫條件,用均勻設計法設計含定性因素混閤水平的精密車削試驗方案。在榦式、環保型濕式和低溫冷風微油霧三種不同車削冷卻降溫條件下,實現低成本高效率的精密車削試驗。在這三種條件下,以切削速度、進給量、揹喫刀量和刀尖半徑為優化變量,以錶麵粗糙度、錶麵殘餘應力、切削力、切削溫度、刀具壽命和切削效率為優化目標函數,建立瞭奧氏體不鏽鋼精密車削參數優化模型,還對車削參數進行瞭優化和驗證,效果明顯。以刀具磨鈍前能車削齣的總金屬錶麵積作為刀具壽命,在工件連續錶麵不齣現接刀現象的前提下進行精密車削參數優化。研究成果對指導大型工件精密車削的參數選擇具有實際意義。
위료탐색난가공재료-오씨체불수강정밀차삭적삼수우화문제,인입위변량A표체차삭냉각강온조건,용균균설계법설계함정성인소혼합수평적정밀차삭시험방안。재간식、배보형습식화저온랭풍미유무삼충불동차삭냉각강온조건하,실현저성본고효솔적정밀차삭시험。재저삼충조건하,이절삭속도、진급량、배흘도량화도첨반경위우화변량,이표면조조도、표면잔여응력、절삭력、절삭온도、도구수명화절삭효솔위우화목표함수,건립료오씨체불수강정밀차삭삼수우화모형,환대차삭삼수진행료우화화험증,효과명현。이도구마둔전능차삭출적총금속표면적작위도구수명,재공건련속표면불출현접도현상적전제하진행정밀차삭삼수우화。연구성과대지도대형공건정밀차삭적삼수선택구유실제의의。
In order to explore precision turning parameter optimization of austenitic stainless steel which is a difficult cutting material, pseudo-variable A is introduced as a factor of cooling cutting conditions, and a precision turning experiment program is projected by uniform design method, which contains qualitative factors hybrid level. A low cost and high efficiency turning test is carried out in three different conditions of dry cutting, wet cutting and cutting with low temperature air containing micro-oil mist. Under the three cooling cutting conditions, the precision turning parameter optimization model of austenitic stainless steel is established, in which, cutting speed, feed amount, cutting depth and tool nose radius are taken as optimization variables, and surface roughness, surface residual stress, cutting force, cutting temperature, tool life and cutting efficiency are taken as objective functions. Meanwhile, the parameters are optimized and verified, and the test results show that the optimization effect is good. Total metal surface area that can be lathed before cutter blunt is taken as the cutter life, and precision turning parameters are optimized in the condition of workpiece continuous surface without machined trace. The results are useful for precision turning parameters selection in heavy workpiece cutting.
