切削加工性

Fuzzy数学在材料切削加工性评价中的应用

Application of fuzzy mathematics to evaluation of material machinability

铝锂合金切削加工性的研究

Study on the Machinability of Alloy with Aluminum and Lithium

原位TiCP/Fe复合材料的铸态和退火态力学性能及切削加工性

Mechanical Properties and Cutting-machinability of TiC_P / Fe In-situ Composite As-annealed and As-cast

为改善玻璃纤维增强塑料（GlassFibreReinforcedPlastics）的切削加工性，提高加工精度和质量，采用超声波振动切削的方式对GFRP进行了精密切削加工。

In order to improve the machinability and machining accuracy of glass fibre reinforced plastic ( GFRP ), GFRP is finish cut using ultrasonic vibration .

综合评判结果将所制备的几种CeZrO2/CePO4复合陶瓷材料分为3个切削加工性等级，材料的切削加工性等级随CePO4含量的增加而提高，评判结果与钻削实验的材料去除率结果相符。

Then cutability grade of material was determined through fuzzy operation . Prepared Ce-ZrO_2 / CePO_4 composites were classified as three cutability grades according to comprehensive evaluation results , which was consistent with the material removal rates in drilling experiments .

针对一种新型的难加工钛合金材料β21s，进行了刀具磨损试验和铣削力的测量试验，对材料的切削加工性进行评价，并且给出优选结果，为实际生产提供参考。

β 21s is a new type of titanium alloy which has poor machining ability . In this paper , the tool wear and cutting force of milling was studied by experiment . The evaluation of machining ability and the optimized machining parameters were given out .

改善铍青铜切削加工性

Improving the Capability of Be-bronze 's Cutting and Machining

工件材料切削加工性的模糊聚类分析

Analysis of Fuzzy Classification on Cutability of Workpiece Material

综述了国内外在金属基复合材料切削加工性及机理方面研究的进展情况。

The advances in recent researches on MMCs'machinability are reviewed in this paper .

氧化物与稀土磷酸盐复合陶瓷的切削加工性评价

Cutability Evaluation of Oxide Ceramics Containing Rare Earth Phosphates

环氧树脂玻璃钢的切削加工性研究

Machinability Research on Glass Fibre Reinforced Epoxy Resin

钛合金的切削加工性及其改善方法

Machining Feature and Improving Method of Titanium Alloy

不锈钢和高温合金钢的切削加工性探讨

Discussion on the machining work of the stainless steel and high temperature alloy steel

钛合金切削加工性综述

Analysis of machining features of titanium alloys

SiCp/Cu复合材料切削加工性及其加工表面微观结构研究

Research on the SiCp / Cu Composite Material 's Cutting Performance and Machined Surface Texture

难加工材料的切削加工性研究与实践

Study and Practice of Difficulty Processing Materials

形状记忆合金切削加工性试验研究

Machin ability of Shape Memory Alloy

改善硫化锰和氟化钙的分布，将会改善切削加工性。

To improve the homogeneity of manganese sulfide and calcium fluoride , the machinability could be enhanced .

钨及其合金是非常好的工程材料熏但其切削加工性差。

Tungsten and its alloy are very good materials in engineering , but their machinability is worse .

铅黄铜的切削加工性试验

Cutting-Property Test of Leaded Brass

试图用指标体系来描述和评价材料的切削加工性。

The material cutability is described and evaluated with a target system and the fuzzy comprehensive evaluation method .

本文探讨了晶体材料的切削加工性，重点分析了切削条件对表面粗糙度的影响。

The machinability of crystal material is studied , and the influence of the cutting condition on surface roughness is analyzed .

热处理的目的就是提高材料的机械性能、消除残余应力和改善金属的切削加工性。

The action of heat treatment is to enhance the mechanical properties of material , relieve residual stress , and improve machinability of metal .

材料切削加工性的评价方法建立了材料性能与加工技术之间的关系，可提供一种新的材料设计方法。

The evaluation method for material cutability establishes the relation between material properties and machining technologies , and can provide oae new material design method .

针对小型数控铣床，切削加工性一般的普通工件材料通过该函数模型所确定的切削用量有较高的可信度。

The cutting parameter based on function model bulit in this paper had the higher credibility for low-power NC milling machine and ordinary workpiece material .

本文从不锈钢的性质着手，分析了它的可切削加工性，并提出了改善其切削加工性的方法。

In light of the features of stainless steel , this paper analyses of its machinability and puts forward some methods to improve its machinability .

介绍了钛合金的类型、性能和用途，并对其切削加工性进行了综合分析和探讨。

The features and uses of titanium alloys are introduced and the machining features of titanium alloys are also analyzed and discussed in this paper .

针对难加工材料的特点，总结了难加工材料的切削加工性改善的方法及其非常规加工方法和特种加工方法的概况及进展。

Directing at the characteristic of hard processing material , this paper sums up the developing trends of cutting , abnormal and special processing ways .

镁合金作为工程材料的优点在于：低的密度，良好的刚性、减震性和切削加工性，易于回收利用等。

The advantages of magnesium alloy being engineered material are as follows : low density , high rigidity , damping capacity , easy machinability and recyclability etc.

镁合金是目前比重最轻的结构材料，具有高的比强度、比刚度和良好的磁屏蔽性、阻尼性、切削加工性等优点。

As the lightest constructional material , magnesium alloy has high specific strength , high specific stiffness , good magnetic-shielding ability , good damping ability , and good machinability .