高速切削淬硬模具钢刀具磨损的对比实验研究

使用PCBN和陶瓷两种材质的刀具对淬硬模具钢Cr12MoV进行高速切削试验,深入研究了高速切削时的刀具寿命、刀具磨损形态和磨损原因,得出如下结论:相同的切削条件下,PCBN刀具寿命约为陶瓷刀具的2～3倍,当切削速度由153 m/min增大到241 m/min时,两种材质刀具寿命均下降50％以上;在相对低速下切削时,PCBN刀具和陶瓷刀具磨损形态主要为月牙洼和后刀面磨损,在相对高速下切削时,两种刀具均出现破损,破损形态主要包括崩刃和片状剥落等;PCBN刀具磨损原因主要为黏结磨损、氧化磨损和扩散磨损,陶瓷刀具的主要磨损原因有磨粒磨损、黏结磨损和扩散磨损;相同切削条件下,PCBN刀具抗磨粒磨损的能力好于陶瓷刀具,而陶瓷刀具的抗氧化性能要好于PCBN刀具;切削速度对刀具磨损原因有重要影响,随着切削速度的增大,磨粒磨损程度和黏结磨损程度均减弱.     

PCBN刀具切削性能和磨损机理研究综述

聚晶立方氮化硼(PCBN)刀具是继聚晶金刚石刀具之后的又一种超硬刀具,以其独特的“以车代磨”、“硬态加工”、“干式切削”等方式被誉为21世纪的绿色环保刀具。PCBN刀具在金属切削方面具有广泛的应用,主要用来加工各种淬硬钢、耐磨铸铁等铁基材料。本文介绍了PCBN刀具成分、几何形状、切削参数等对其切削性能的影响,在此基础上分析了不同材料加工时刀具的主要磨损机理,还简单对比了硬质合金和PCBN刀具切削性能上的差异。      

PCBN刀具干湿切削加工淬硬钢时的磨损对比

本文研究了在一定切削参数下干、湿式切削加工淬硬钢时四种PCBN刀具的刀具寿命、磨损形式和磨损机理。通过扫描电子显微镜观察不同切削行程下刀尖形貌和刀具后刀面磨损量,并对刀具前后刀面进行能谱分析。结果表明湿式切削时的后刀面磨损量小于干式切削,说明刀具湿切比干切时具有较好的性能;PCBN刀具的磨损形式有前刀面磨损、后刀面磨损,其中前刀面磨损的表现形式为月牙洼磨损,磨损机理为机械磨损、氧化磨损和黏结剂磨损,而后刀面磨损机理有机械磨损、氧化磨损、黏结剂磨损和扩散磨损等;同时还发现CBN含量下降,刀具的后刀面磨损量也有下降趋势,即刀具的切削寿命有延长趋势。     

PCBN刀具硬态车削的磨损机制研究

PCBN刀具用于高速切削、硬态切削、干切削以及加工自动化和难加工材料等先进切削工艺时显示出了卓越的性能,为了推动PCBN刀具在我国的推广使用,充分发挥PCBN刀具的潜能,有必要对PCBN刀具切削过程中的行为规律进行研究。目前国内外已经有很多这方面的研究报道,本文旨在对前人已进行的工作进行一个系统的总结,以期能得到PCBN硬态车削时的主要的磨损机制。     

模具高速切削刀具技术研究概况

系统地介绍了模具高速切削刀具技术在各个领域的发展现状，包括：刀具材料、刀具磨损、刀具动平衡、刀具与机床的连接、刀具的可靠性、刀具的监测技术和刀具的几何参数。指出发展模具高速切削刀具技术，要从以下几个方面展开工作：研制和开发新的刀具材料，同时进行PCBN刀具切削性能的研究，推广其应用范围；进行模具高速切削刀具磨损机理的研究，进一步提高刀具寿命；做好刀具的动平衡，防止刀具的破损，保证工作人员的安全；进一步加强刀具监测技术的研究，以获得良好的加工质量；建立模具高速切削数据库，以便有效地利用刀具，提高刀具的寿命；大力推进有限元模拟技术在高速切削刀具技术中的应用。     

不同PCBN刀具车削硼铸铁的对比研究

使用不同的立方氮化硼刀具材料(PCBN)和刀具结构,在相同加工参数下,对硼铸铁进行切削加工试验,并对比其加工效果。结果表明:同粗粒度的PCBN刀具相比,细粒度的PCBN刀具加工所得的工件表面粗糙度较低,且刀具本身的耐磨性较高;在切削过程中,随着进给量的增大,工件表面粗糙度也增大;PCBN刀具的负倒棱宽度对加工硼铸铁的切削温度和后刀面磨损有较大影响,负倒棱宽度增加,切削温度和刀具磨损增加,而倒棱角度对刀具和切削过程影响有限。     

PCBN刀具高速切削淬硬钢材料的研究

以PCBN复合片为刀具材料进行相关力学性能分析,并将其制成SNGN120408型刀具后在刀具机床上进行淬硬钢切削试验.分析结果表明:PCBN复合片的结合剂主要为TiN和TiB2,其内部结构均匀,且有良好的致密性.切削试验表明:在干式切削淬硬钢的试验中,切削进给量以及切削速度对PCBN刀具的磨损有较为明显的影响.相比于切...     

基于Fitnet的刀具磨损量预测方法研究

针对切削难加工材料时刀具磨损对加工质量的影响,通过实验研究PCBN刀具切削硬质合金YG10材料的刀具磨损机制,在一定的切削参数条件下,利用Fitnet神经网络预测刀具磨损规律,获得较好的磨损量预测精度,为刀具加工补偿提供了理论依据。     

PCBN刀具高速切削淬硬轴承钢的磨损机理研究

采用美国D.I.公司生产的BZN9000作为刀具材料制成PCBN刀具,在沈阳机床厂生产的CA6140A车床上对GCr15淬硬轴承钢进行高速切削试验。对切削试验后刀具的前、后刀面进行SEM形貌观察和EDS能谱分析,结果表明:PCBN刀具在高速切削过程中,机械磨损、黏着扩散磨损和化学磨损是刀具磨损的主要形式;前刀面磨损主要为月牙洼磨损,切削刃处、月牙洼后、前刀面处的黏着元素扩散比月牙洼底部还要严重;对后刀面的WDS线能谱分析证实,切削刃处的黏着元素扩散比后刀面要严重。      

PCBN刀具断续车削淬硬钢的试验研究

为了探索PCBN刀具在断续切削条件下刀具的破损规律,选用两种不同的PCBN刀具,在不同强度的断续方式及不同的切削速度下,对淬硬钢进行车削试验研究。根据试验条件,观察了刀具前、后刀面的磨损及破损情况,分析了刀具的失效机理,比较了刀具的切削寿命。结果表明：断续强度严重影响PCBN刀具的使用寿命,断续强度越高,刀具寿命越低;在相同强度的断续条件下,切削速度影响刀具的使用寿命,切削速度越高,刀具的寿命越低;本实验所用的断续条件下,刀具的失效判据为崩刃。     

Tool wear and machining performance of cBN–TiN coated carbide inserts and PCBN compact inserts in turning AISI 4340 hardened steel

PCBN is the dominant tool material for hard turning applications due to its high hardness, high wear resistance, and high thermal stability. However, the inflexibility of fabricating PCBN inserts with complex tool geometries and the prohibitive cost of PCBN inserts are some of the concerns in furthering the implementation of CBN based materials for hard turning. In this paper, we present the results of a thorough investigation of cBN plus TiN (cBN–TiN) composite-coated, commercial grade, carbide inserts (CNMA 432, WC–Co (6% Co)) for hard turning applications in an effort to address these concerns. The effect of cutting speed and feed rate on tool wear (tool life), surface roughness, and cutting forces of the cBN–TiN coated carbide inserts was experimented and analyzed using analysis of variance (ANOVA) technique, and the cutting conditions for their maximum tool life were evaluated. The tool wear, surface roughness, and cutting forces of the cBN–TiN coated and commercially available PCBN tipped inserts were compared under similar cutting conditions. Both flank wear and crater wear were observed. The flank wear is mainly due to abrasive actions of the martensite present in the hardened AISI 4340 alloy. The crater wear of the cBN–TiN coated inserts is less than that of the PCBN inserts because of the lubricity of TiN capping layer on the cBN–TiN coating. The coated CNMA 432 inserts produce a good surface finish (<1.6 μm) and yield a tool life of about 18 min per cutting edge. In addition, cost analysis based on total machining cost per part was performed for the comparison of the economic viability between the cBN–TiN coated and PCBN inserts.     

Effect of chamfer angle on wear of PCBN cutting tool

In precision hard turning, a remaining problem is to minimise tool wear to maintain the accuracy of geometry and surface finish. Tool wear not only directly reduces the part geometry accuracy but also increases cutting forces drastically. The change in the cutting forces also causes instability in the tool motion, which results in more inaccuracy. PCBN cutting tools are often used in hard turning. However, they are still relatively expensive compared to ordinary carbide cutting tools. In order to attain sufficiently high production rates at minimum cost, increase of knowledge on cutting tool geometry is necessary. This article presents a study of the effect of chamfer angle on tool wear of PCBN cutting tool in the super finishing hard turning. The correlation between cutting force, tool wear and tool life were investigated. The optimised chamfer angle for PCBN cutting tool is suggested. Finally, the distribution of stresses and maximum principal stress working on the tool edge were calculated with the use of finite element method.     

PCBN超硬刀具研究与进展

现代刀具切削速度的不断提高和先进的集成制造系统的发展对现代刀具的性能提出了更高的要求,刀具材料质量、性能和可靠性直接影响生产效率和加工质量,也直接影响整个制造行业的生产技术水平和经济效益,所以开发高稳定性和良好耐磨性的超硬刀具是当今的发展趋势。本文介绍了超硬材料PCBN超硬刀具的国内外发展概况和刀具性能应用,PCBN超硬刀具材料的制备方法及刀具制造过程,PCBN超硬刀具的断屑槽、修光刃结构以及新型PCBN超硬刀具,刀具车削仿真的相关研究等;并对PCBN超硬刀具及整个刀具行业的前景进行展望。      

Wear and tool life of tungsten carbide, PCBN and PCD cutting tools

The wear mechanisms of cutting tools made of tungsten-carbide (WC), PCBN and PCD were investigated using the tool life and temperature results available in the literature. For tool/work combinations WC/steel and PCBN/hardened-steel, under practical conditions, tool wear was found to be greatly influenced by the temperature. It was concluded that the most likely dominant tool wear mechanism for WC is diffusion and that for PCBN is chemical wear. For PCD, more experimental results and hence further research is required to determine the dominant wear mechanism.     

Evaluation of layer adhered on PCBN tools during turning of AISI D2 steel

Polycrystalline cubic boron nitride (PCBN) tools have high abrasion resistance and are thus suitable for application in the machining of steels with a high volume fraction of primary carbides in their microstructure. These tools are usually applied in the machining of steels with hardness above 45–50 HRC and in the case of application to steels with hardness below 45 HRC, the formation of an adhered layer on the rake face of the tools often occurs. This paper reports a study on the impact of the layer adhered on PCBN tools during the turning of AISI D2 steel, with 35 and 50 HRC. The microhardness and microstructure of the adhered material were determined, as well as the tool wear based on volumetric wear parameters. The layer adhered on the PCBN tool rake face has the same chemical elements as the machined steel alloy. Its microstructure is oriented in the direction of the chip flow and the primary carbides were fragmented. For the sample with 35 HRC the amount of material adhered (W_AM) on the rake face of the PCBN tool was approximately 360% higher than the steel with 50 HRC. The material layer adhered on the PCBN tool rake surface in the case of the 35 HRC steel acts as an edge (assuming the cutting function), while for the 50 HRC steel, the adhered layer intensifies the adhesion wear mechanism through spalling on the tool rake face. The results obtained provide important information for the selection of materials and grades for the development of new cutting tools.     

PCBN刀具干车淬硬钢时倒棱前角对切削力和刀具磨损的影响

PCBN刀具磨出负倒棱是为了加强刀具的刃口强度，以减少刀具加工时可能出现的破损情况。本文通过对PCBN刀具加工淬硬轴承钢GCr15的一系列试验数据加以分析，得出倒棱前角和切削力、刀具磨损之间的关系，进而得出在实际加工情况下应该采用的最佳倒棱前角值。试验表明：当倒棱前角取15度且切削速度为125m／s时，刀具具有最好的加工效果，不但切削力可以达到最小值，刀具磨损最轻，而且刀具寿命也达到了最大值。