1) Cut parameter
切口参数
1.
Cut parameters are usually determined by experiences when chimney is demolished by controlled blasting.
在烟囱爆破拆除时 ,爆破切口参数的确定通常都是按经验选取 ,至于参数选取的合理与否却很少深入研究。
2) cutting parameters
切削参数
1.
Optimization and Experimental Analysis on Cutting Parameters in High-speed Cutting;
高速加工切削参数优化及实验分析
2.
Application of responding surface method on the optimization of cutting parameters in high-speed machining;
响应面法在高速加工切削参数优选中的应用
3.
The machining center tools selecting and cutting parameters generating system;
加工中心刀具选配及切削参数生成系统
3) cutting parameter
切削参数
1.
Automatic optimization method of Cutting parameters of cutting tools in MasterCAM;
MasterCAM环境下刀具切削参数的自动优化方法
2.
Establishment of numerical control processing cutting parameter model and optimization algorithm;
数控加工切削参数模型建立及优化算法
3.
Using genetic algorithm to realize optimization of cutting parameter real time in workplace;
用基因算法实现切削参数的现场实时优化
4) cutting parameters
切割参数
1.
Research on Cutting Parameters of Brittle Materials in Abrasive Suspension;
磨料浆体射流技术中脆性材料切割参数的研究
2.
Discussion of diamond saw blade s cutting parameters;
金刚石锯片在不同切割参数下的磨损分析
3.
The effect of some cutting parameters such as system pressure,stand off distance,traverse speed on the cutting process and cutting quality are examined by using a ultra high pressure abrasive water jet machining technology.
使用石榴石磨料,在高压磨料水射流数控切割机床上,研究了切割参数(压力、靶距、切割速度)对大理石切割性能(切口宽度、切口锥角、余纹角度)的影响。
5) machining parameters
切削参数
1.
The effect machining parameters on the surface quality is analyzed and the optimal machining parameters for achieving the desired surface roughness is obtained.
采用正交试验研究涂层刀具切削不锈钢材料的参数优化组合,分析了不同切削参数对加工表面质量的影响规律,得出了不锈钢较佳车削加工参数。
2.
And the optimal machining parameters for achieving the desired surface roughness is obtained.
通过切削试验研究了进给量、切削速度、刀具圆弧半径以及切屑形态等四个因素对不锈钢加工表面粗糙度的影响规律,确定了降低表面粗糙度的切削参数优化组合。
3.
The result shows that the cutter material of YG6A can meet the demand and the key ponits are reasonable machining parameters.
结果表明,对高速钢轧辊孔型加工,YG6A刀具可满足需要,关键是确定合理的切削参数。
6) sawing parameter
锯切参数
1.
The reference data can be offered for the designing of thin circular saw-blade structure and optimizing of sawing parameters.
采用ANSYS有限元分析软件,对金刚石圆锯片进行了屈曲分析,讨论了锯切转速、锯片厚度、锯片直径以及锯片结构对临界载荷的影响规律,为薄圆锯片的结构设计和锯切参数优化提供了参考依据。
2.
The simulation results of the model demonstrated that it correctly described some basic features of sawing force, and can be used to explain saw blade wear performance more detailedly and to select sawing parameters more rationally.
数值仿真结果表明 ,该模型正确地描述了锯切力变化的基本特征 ,对它的进一步分析有利于更仔细地解释锯片磨损及更好地选择锯切参
补充资料:巴伦斯氏切口