研究结果表明，高速切削马氏体不锈钢材料时，切削速度和每齿进给量之间的交互作用对切削力有显著影响； This study shows that in high speed milling of Martensitic stainless process, the interaction of depth of cut and feed per tooth has significant effect on the cutting force;
通过统计学中的响应曲面法建立了螺旋铣削过程中切削力的二阶模型，并分析了主轴转速、每齿进给量、轴向和径向切削深度等因素对切削力的影响。 A quadratic model of predicting helical milling force was researched. The effects of spindle speed, feed per tooth, and axial and radial depth of cut were analyzed.
四种切削参数，既切削速度、进给量、切削深度、刀尖圆弧半径得以最佳化，并用实验设计和分析研究了性能特性。 Four cutting parameter, namely, cutting speed, feed, depth of cut and nose radius are optimized with consideration of the surface roughness. The design and analysis of experiments are conducted to study the performance characteristic.
切削参数对加工表面残余应力影响的显著性顺序为进给量、切削深度和切削速度。 The results also show the significant factors effecting surface residual stress are in the order of feedrate, depth of cut and cutting speed.
铣削深度和每齿进给量之间的交互作用在切削力响应信号中表现为低频周期信号； The interaction of feed per tooth and depth of cut introduces a lower frequency periodic signal;
研究结果表明：高速铣削时，背吃刀量和每齿进给量是对主切削力有显著影响的效应因素； It is concluded that depth of cut and feed per tooth are the main influence factors on primary cutting forces;
在分析其切削力的非线性特征规律基础上，建立了高速切削难加工材料工艺中切削力与背吃刀量、每齿进给量和切削速度之间的非线性数学模型。 The characteristics of difficult-to-eut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed.