通过采用滑移线场理论,建立了一种正交切削模型,使用这一模型,从理论上预测了切屑卷曲半径。
By constructing a metal cutting model using slip-line field theory, chip curling radii are predicted theoretically in orthogonal cutting processes.
运用新近的解析-数值势流理论方法,生成正交数值网格,用差分法计算出平面二维流场。
The recent potential flow theory and finite-difference method are applied to generate orthogonal numerical grids and to compute two-D plane flow fields.
经典特征模理论提供了一套在导体表面形成加权正交系的特征电流,在无穷远球面上形成正交系的特征场。
The mode currents form a weighted orthogonal set over the conductor surface, and the mode fields form an orthogonal set over the sphere at infinity.
通过采用滑移线场理论,建立了一种正交切削模型,使用这一模型,从理论上预测了切屑卷曲半径。
A cutting model is constructed by slip-line field theory, in which the influences of cutting edge roundnesses are considered.
通过采用滑移线场理论,建立了一种正交切削模型,使用这一模型,从理论上预测了切屑卷曲半径。
A cutting model is constructed by slip-line field theory, in which the influences of cutting edge roundnesses are considered.
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