硬质合金刀具

同时研究了Inconel718与硬质合金刀具材料对偶时的摩擦磨损特性。

Additionally , the friction and wear performance of Inconel 718 / carbide tool are also researched .

高精切削用CVD涂层硬质合金刀具的质量控制

Quality Control of CVD Coating Carbide Tool in High-accuracy Cutting

整体硬质合金刀具CAD系统的研究与开发

Development and Study of CAD System for Solid Carbide Cutting Tools

C离子注入对硬质合金刀具TiN涂层性能的影响

Effects of C-ion Implantation on Properties of TiN Coatings on Carbide Tools

硬质合金刀具切屑形态的RBF神经网络识别

Recognize chip shapes of carbide cemented tool using RBF neural network

TiN涂层硬质合金刀具切削奥氏体高锰钢的磨损破损研究

Wear and Fracture Study of TiN Coated Carbide Tool for Austenitic Manganese Steel Cutting

CVD涂层硬质合金刀具的耐磨性和破损特性

Characteristics of wear resistance and fracture of CVD coated carbide tools

TiN基复合涂层硬质合金刀具的力学性能与切削性能研究

Investigate of mechanics and Cutting performance of Cemented Carbide Cutting Tools with TiN based Composite Coatings

基于热力学的WC基硬质合金刀具加工各种常见工件材料的匹配研究

Matching Study on WC-carbide Tools with Typical Normal Workpiece Materials Based on Thermo-dynamics

CVD金刚石薄膜涂层刀具是通过化学气相沉积（ChemicalVaporDeposition）在硬质合金刀具材料基体上沉积金刚石膜制备而成的。

Diamond coated cutting tools are prepared by depositing a diamond thin film on cemented carbide substrate with Chemical Vapor Deposition ( CVD ) method .

金刚石薄膜涂层硬质合金刀具是CVD金刚石薄膜的重要应用领域之一。

The cemented carbide tool coated with diamond film is one of the important application of CVD diamond film .

采用新型复合SiC，Si3N4和TiN涂层硬质合金刀具对高锰钢进行了切削加工对比研究。

The experimental tool materials for the steel cutting included compound SiC , compound Si_ 3N_ 4 and TiN coated carbide .

目前提高硬质合金刀具表面摩擦磨损性能的方法主要是采用化学气相沉积在刀具表面喷涂TiN、TiC等涂层。

Currently , the main surface strengthens treatment technology for the carbide tool is depositing TiN , TiC and other coats by Chemical Vapor Deposition .

试验结果表明，nm硬质合金刀具由于晶粒细化可以改善刀具的切削性能，提高抗破损性和刀具寿命。

The results of experiments indicate that nano cemented carbide cutting tools can improve cutting performance , increase breakage resistance and prolong cutting life due to the fine grain size .

聚晶金刚石刀具（polycrystallinediamond，简称PCD）呵以实现对钛合金的高效加工，与硬质合金刀具相比具有切削速度高、刀具寿命长等优势。

Compared with uncoated carbide cutting tools , the polycrystalline diamond ( PCD ) cutting tools can have higher cutting speed and have longer tool life .

在金刚石涂层与硬质合金刀具基体间设计适当的中间过渡层，可能是提高CVD金刚石涂层附着力的最有效途径。

Designing proper interlayers between diamond coatings and cemented carbide cutting tools may be the most prospective ways to improve the adhesion of CVD diamond coatings .

YG类硬质合金刀具电解抛光的研究

The Study on Electropolishing of WC - Co Cemented Carbide

机加工试验在一台无切削润滑液的K10硬质合金刀具的NC机床上进行的。基于NURBS的NC机床运动方案创成设计系统研究

Machining tests were carried out on an NC lathe using K10 carbide tools without a cutting fluid . Conceptual nc Movement Multi solution Configuration Based on Nurbs

金刚石涂层在硬质合金刀具基体上的附着力过低是CVD金刚石涂层刀具商品化进程的最大技术障碍。

However , poor adhesion of diamond coatings to cemented carbide cutting tools is one enormous technological obstacle to the wildly commercial applications of the diamond coated tool inserts .

采用硬质合金刀具研究了挤压铸造Al2O3短纤维强化ZA22合金复合材料的切削加工表面质量。

The cutting surface quality of the squeeze casting ZA22 / Al 2O 3 composites was researched with a hard metal alloy cutter .

PVD涂层与未涂层硬质合金刀具切削力的对比试验研究

A Survey on Coating Tools for Metal Cutting Experimental Investigation on Contrasting Cutting Forces of Coated-PVD Cemented Carbides Inserts with Non-Coated Cemented Carbides Inserts

结果表明，TiN涂层硬质合金刀具切削奥氏体高锰钢时耐磨性优于单一硬质合金刀具，且适于低速切削（小于30m/min）。

The results show that the wear resistant of the TiN coated tool is better than that of a single one . The TiN tool is appropriate for low speed cutting ( v < 30m / min ) .

低压气相金刚石薄膜硬质合金刀具在直流弧光放电等离子体CVD镀膜设备上制备。基底为YG6（WC-6%Co，质量分数）硬质合金刀具。

The diamond film was deposited on WC-6 % Co ( mass fraction ) cemented carbide by DC arc discharged plasma chemical vapor deposition .

硬质合金刀具YT15切削铸铁MT-4的磨损研究

Research on Tool Wear in Machining Cast Iron MT-4 Using Carbide Tool

CVD金刚石薄膜用于硬质合金刀具涂层，在非铁材料如钛合金、铝硅合金、有色金属、陶瓷、复合材料等难加工材料的切削加工领域应用前景广泛。

Cutting tools coated with CVD diamond thin films have wide application potential in the cutting and machining of hard-to-cut non-ferrous materials such as titanium alloy , silicon-content aluminum alloys , nonferrous metals , ceramics and composite material .

在切削铝合金材料时，硬质合金刀具的磨损寿命仅为PCD刀具的5%左右，而且PCD刀具切削速度大约为硬质合金刀具的3倍。

When cutting aluminum alloy material , hard metal cutters ' wear life is about only 5 % of PCD cutters ', and cutting speed of PCD cutters is about three times as that of hard metal cutters .

为了验证仿真准确性，进行了硬度200HB的45钢的无涂层硬质合金刀具切削试验。

As an application , machining of 45 # steel at 200 HB hardness using uncoated carbide tooling was investigated .

研究了AISIH13/硬质合金刀具材料的滑动摩擦磨损行为，硬质合金磨损区域形貌比较规则，摩擦过程中硬质合金发生了磨粒磨损，粘结磨损和氧化磨损。

The friction and wear performance of AISI H13 / cemented carbide are studied . The worn surface morphology of cemented carbide is inerratic , and the attrition wear , adhesion wear and oxidative wear are found in the cemented carbide surface .

结果表明，在切削正火态45钢、灰铸铁、淬硬钢利不锈钢时，与YT15硬质合金刀具和YG8刀具相比，纳米改性金属陶瓷刀具寿命明显较高。

Results show that in machining normalized medium carbon steel , gray cast iron , quenched steel and stainless steel cermets cutters with nano-TiN modifications definitely exhibit better cutting properties and longer tool life in comparison with cemented carbide cutters ( YT15 and YG8 ) and conventional cermets cutter .

薄切削铝合金时硬质合金刀具扩散磨损机理的研究

Research into Spreading-wear Mechanism When Hard-alloy Cutter Cuts Thin Aluminum Alloy