摘要
微孔镗削加工采用椭圆超声技术具有降低切削力和改善表面加工质量的优势。为了充分发挥椭圆超声技术的优势,针对航空发动机燃油喷嘴精细加工的难题,分析了微孔镗削微细加工和微孔椭圆超声镗削的加工机理,通过振动振幅对比实验验证了微孔椭圆超声镗削加工比普通镗削加工更具有降低切削力和提高表面加工质量的能力。微孔椭圆超声振动加工为发动机燃油喷嘴的精细加工提供了一条有效途径。
Ultrasonic elliptical vibration micro-hole boring method is successfully applied to precision cutting due to its superior performances, such as low average cutting force and high machining precision. The theory of micro-hole boring machining and ultrasonic elliptical vibration micro-hole boring is analyzed to give fully play to the advantage of ultrasonic elliptical vibration for the problem of aviation engine fuel nozzles micro fabrication. The vibration amplitude contrast experiment proves that the ultrasonic vibration micro hole boring method has the advantages of low average cutting force and high surface quality compared with the traditional micro boring method. The micro hole ultrasonic elliptical boring is an effective method for micro hole machining.
出处
《工业技术创新》
2014年第4期405-409,共5页
Industrial Technology Innovation
关键词
微孔镗削
椭圆超声
切削力
表面质量
Micro hole boring
Ultrasonic elliptical vibration
Cutting force
Surface quality
