片语

cutting-force experience formulas eestablished切削力经验公式

cutting-force induced error力误差

Cutting gate force切浇口力

Max cutting force最大破切力

mathematical model of cutting-force切削力数学模型

cutting perpendicular force[机]

cutting resistance force切削阻力

英汉例句

• the influences of cutting parameters on cutting force and its fractal dimension, surface roughness on the fractal theory during glass cutting is presented.

  基于分形理论研究了玻璃切削时不同切削参数对切削力及其分形维数以及表面粗糙度的影响。

• based on traditional cutting force model in face milling, a new cutting force model for the prediction of static cutting forces has been presented.

  以传统的端铣切削力模型为基础，提出了一种新的端铣加工中静态切削力的预报模型。

• applying the concept of relative cutting velocity, the expression of velocity type dynamic cutting force and the mechanics model of chatter vibration in turning or boring process were advanced.

  针对规避切削颤振问题，应用相对切削速度概念，提出了速度型动态切削力表达式以及车削或镗削的振动力学模型。

• after analyzing the effect factors of the cutting force in peripheral milling, the paper establishes a steady cutting force allowance model.

  并在分析了周铣加工中切削力影响因素的基础上，建立了针对周铣加工的等切削力余量模型。

• the cutting force reduce with the increase of water pressure.

  切削力随着水射流压力的增大而减少。

• the regression equation of cutting force meets the experiment result very well, the response curved face derived from the regression equation can help to choose proper high-speed cutting parameters.

  切削力回归方程与实验高度符合，运用该回归方程作出的响应曲面有助于合理选择铝衬微波印制板高速铣削加工切削参数。

• on the basis of cutting force model and vibration model of machine tools structure, the effect of the regenerative chatter on the stability of end milling is focused.

  存得到切削力模型和机床结构振动模型的基础上，着重研究了再生型颤振对铣削加工过程稳定性的影响。

• aiming at little fluctuation of cutting force of glass bulb panel「s surface, the best tool path is three dimension and the second is furthest highness .

  以切削力波动最小为目标，加工屏凸模表面刀具切削路径优先选择三维偏置法，其次选择最佳等高法。

• the article studies the influence of cutting speed to the cutting force in the foundation of high speed cutting experimentation.

  本文在高速车削的试验基础上，研究高速车削时切削速度对切削力的影响。

• since the parts」 stiffness and precision of the spindle units are quit high, and the loads are usually not heavy, so the machining error caused by the cutting force is small.

  在高速切削机床中，由于主轴单元系统各零件刚度和精度都较高，而负荷却不是很大，主轴因切削力引起的加工误差较小。

• the tool lifespan, surface roughness and main cutting force of the two kinds of tools with different machining parameters are used as the evaluation criterion of machining ability.

  以这两种刀片在不同切削用量条件下的耐用度、加工表面粗糙度和主切削力作为刀具加工性能的评价依据，同时研究了刀片的磨、破损机理和卷、排屑稳定性。

• the variation of cutting force and cutting temperature for al-si alloy cutting with diamond cutter are investigated.

  研究金刚石刀具切削硅铝合金时切削力和切削温度的变化规律。

• the cutting force and machined surface quality during high speed milling a typical al alloy c shape workpiece are experimental investigated.

  对高速铣削典型铝合金框架结构工件时的切削力和加工表面质量进行了试验研究。

• pcd tool is the best tool material for precise machining from points of the cutting force view.

  从切削力这一因素来看，pcd是精加工颗粒增强铝复合材料的最佳刀具材料。

• good toughness and wear resistance, suitable for low speed cutting allowing a big rake angle, ensuring the sharpness of the edges, bearing a heavy cutting force and achieving good surface finish.

  具有优良的韧性和耐磨性，适用于低速切削，允许采用大前角，保证刀刃的锋利性，从而可随大的切削力，并获得光洁度高的表面。

• at last, the cutting force model is validated through cutting tests.

  最后，通过切削实验对切削力模型进行了验证。

• cutting force simulation is not only an important part of physical simulation in milling process, but also the foundation of vibration prediction and surface topography estimate.

  铣削力仿真不仅是铣削加工过程物理仿真的重要组成部分，同时也是颤振预报、表面形貌评估的基础。

• the cutters used in high speed machining(hsm) have poor rigidity, therefore the method fits to hsm of die cavity due to the unfluctuating cutting force characteristic.

  其切削力平稳的特性更适合于模具型腔的高速数控加工，可以克服高速加工用刀具刚性差的不足。

• this paper researches into the unbalance factor of the cutting force and the cutting area in the face-milling process.

  本文研究了端面铣削过程的切削力不均衡系数和切削面积不均衡系数。

• the monitoring principle which includes machine tool vibrancy, principal axis displacement, cutting tool temperature, cutting force of cutting tool, temperature field of turner is discussed.

  论述了对机床的振动、主轴的位移、刀具温度、刀具切削力、旋转工件温度场进行监测的原理。

• at first, the basic cutting force prediction model of the flat end milling cutter is studied.

  本文对平头铣刀的基本切削力预报模型进行了研究。

• the purpose of this paper is to determine the cutting parameters and the experiential formula of cutting force in cutting polyurethane polishing material.

  本主旨在通过切削聚氨酯抛光材料时的切削力研究，选取这种材料切削加工时的各切削参数和确定切削力经验公式。

• the comparison between cutting force results from this model and that from the experiment validates the veracity and practicability of the cutting force model established.

  通过与试验结果的对比，本文所建立的高速铣削切削力解析模型对切削过程中切削力的变化趋势预测较为準确；

• a new approach is proposed to modeling the milling force based on the cutting force shape characteristics in end milling.

  提出了一种根据切削力变化曲线的形状特征精确建立铣削力预测模型的方法。

• second, by analyzing the influence of the cooling fluid on the cutting force, we find that the cutting force and its fluctuation range can be minished by using the cooling fluid.

  其次，通过分析冷却液对切削力的影响指出，冷却液的润滑作用可以减小切削力及其波动幅度，从而获得低表面粗糙度、低残余应力和较少脆性损伤的优质表面。