Ti(C,N)基金属陶瓷刀具的切削性能

利用真空烧结工艺和表面氮化处理工艺制备纳米复合Ti(C,N)基金属陶瓷可转位刀片和功能梯度可转位刀片,并对刀片的切削性能进行分析。结果表明:切削正火态45#钢、淬火态45#钢和奥氏体不锈钢时,与YT15、YG8、TN20相比,制备的刀具皆表现出较优的切削性能和较高的耐磨性,表面经氮化处理后,刀具的表面硬度提高了HRA2.2,大幅度提高了刀具的抗热冲击性能。具有梯度结构的金属陶瓷刀片切削正火钢、铸铁和不锈钢时的切削性能比无梯度结构金属陶瓷刀片的切削性能优良,具有更高的耐磨性。     

Microstructure and cutting performance investigation of Ti(C, N)-based cermets containing various types of secondary carbides

In this paper, the effects of type and amount of various secondary carbides on the microstructure and cutting performance of Ti(C_0.7N_0.3)–12Co system have been investigated. Nine alloys with different amounts of WC, Mo₂C and Ta_0.7Nb_0.3C additives were studied, using scanning electron microscopy (SEM), Vickers hardness (HV), transverse rupture strength (TRS) and continuous turning tests. Alloys including Mo₂C and WC presented finer carbonitride grain structure, as well as higher wear resistance resulting from their higher hardness and highly solution hardened binder phase.     

Evolution of Ti （C, N）-based cermet microstructures

Two series of Ti(C, N)-based cermet materials originating from the same chemical composition but with dif-ferent grain size distribution and sintered to different stages of the sintering cycle have been studied using SEM, TEM,EDX, and XRD. Much of the surrounding structure is formed during solid state sintering. During the solid state sintering, at first, the Mo and W rich (Ti, Mo, W)C inner rim is formed by the interaction among TiC, WC, and Mo2C; then the Mo and W lean (Ti, Mo, W)(C, N)outer rim is formed. During the liquid phase sintering, the outer rim of coarse grains grows rapidly throw a solution-reprecipitation process; aLso coarse grains grow by particle coalescence. The interface between coarse grain outer rim and binder is flat (crystal surface).     

Effect of hot isostatic pressing nitrogen on the microstructure and properties of a Ti（C, N）-based cermet

The high-temperature, high-pressure hot isostatic pressing technology was used for depositing hard coatings on Ti（C, N）-based cermets. The rnicrostructure and properties of the sample were investigated using optical microscopy, scan- ning electron microscopy, X-ray diffraction, electron probe microanalysis, and microhardness tester. The results showed that the rich titanium and nitrogen in surface zone were induced by the heat treatment. The high nitrogen activity of the surface region was the driving force for outward transport of titanium and inward transport of tungsten in the cobalt binder. The toughness and hardness were improved and a hardness gradient was formed. It is the high-temperature, high-pressure N2 that enables closure of holes, thereby alleviating defects and prolonging tool life.     

Ti(C,N)基金属陶瓷添加成分的研究进展

简要介绍了Ti(C,N)基金属陶瓷的典型结构,着重概述了化学成分对Ti(C,N)基金属陶瓷组织和力学性能的影响。     

Microstructural evolution and characteristics during sintering of submicron Ti(C,N)-based cermet

1　INTRODUCTIONThebasiccompositionofTi(C ,N ) basedcer metsisTi(C ,N)andNi.IthasbeenknownthattheadditionofMoorMo2 Cisnecessarytoensuregoodwettability[1] ,andWCorothercarbidesareoftenaddedtoimprovetheplasticityofhardgrainsandhothardnessofthecermets[2 ] .Ti(C ,N) basedcermetsconsistmainlyofcarbonitride grainsandmetalbinder.The“core rim”structurewithinthehardgrainsisthetypicalmicrostructureofcermets .Thecarbonitride phaseenrichedMoandW (therimphase)hasbeenfoundtosurroundthe Ti(C ,…     

Effect of sintering on microstructures and properties of sub-micron Ti （C, N）-based cermets

The influence of different sintering processes, including vacuum sintering, vacuum sintering followed by HIP and sintering-HIP, on the microstructure and properties of sub-micron Ti(C,N) cermets with various binder contents was studied. Image analysis based on back-scattered electrons image observations was used to determine the morphologic and structural characteristics. Transverse rupture strength(TRS), hardness, fracture toughness were measured and TRS data were treated by Weibull statistics further. It is shown that a very significant improvement in TRS can be obtained by HIP or sintering-HIP treatment for the alloys with lower and middle binder content at the controlled cooling rate, but the effect is not obvious for the alloys with higher binder content. HIP is also helpful for improving the hardness of sub-micron Ti(C,N) cermets, however, but can lower the fracture toughness. The varia-tion of these properties was interpreted in terms of the difference in morphologic and structural characteristics.     

二次颗粒尺寸和添加WC对双结构金属陶瓷组织和性能的影响

研究了二次颗粒尺寸和添加WC对双结构金属陶瓷组织和力学性能的影响,结果表明二次颗粒均匀地分布在基体中,随着添加WC含量的增加,组织中白芯灰壳结构和无芯结构增加。组织中发现了一种新的四层复合结构的硬质相。随着二次颗粒尺寸的增加,材料的断裂韧性提高,但抗弯曲度和硬度下降,而提高WC加入量,断裂韧性和抗弯曲度提高,但硬度有所下降。更高的断裂韧性主要归功于裂纹的分叉、桥接、偏转、微裂纹以及二次颗粒的拔出效应。     

Ti(C,N)基金属陶瓷制备工艺研究

实验采用日本新金属公司的TiC0.7N0.3,TiC0.5N0.5两种原料粉末,比较在不同制备工艺条件下,Ti(C,N)基金属陶瓷材料的力学性能。结果表明,原料、湿磨工艺、烧结工艺、烧结后的低压热等静压显著影响合金的力学性能及金相组织。     

碳氮化钛对PcBN复合片性能的影响

本文主要研究了金属结合剂PcBN复合片中加入少量的碳氮化钛对其性能的影响.利用X射线衍射、扫描电镜、金相显微镜等分析技术对合成的PcBN试样的微观结构组织进行分析.研究结果表明:通过改变碳氮化钛的添加量可以提高PcBN复合片的磨耗比以及抗弯强度;XRD的分析结果显示在烧结过程中有新的物相生成;金相分析的结果表明PcBN...     

TiN/TiAlN涂层Ti(C,N)基金属陶瓷刀具的切削性能

采用多弧离子镀技术在Ti(C,N)基金属陶瓷基体上沉积了TiN/TiAlN多层涂层,通过扫描电镜、涂层附着力自动划痕仪对其显微组织形貌和涂层的结合强度进行了分析,并对涂层和未涂层金属陶瓷铣刀以及硬质合金铣刀进行了切削0Cr18Ni9钢的试验.结果表明,多弧离子镀TiN/TiAlN涂层均匀,TiN/TiAlN多层涂层与金属陶瓷之间的结合强度高达57.52 N.TiN/TiAlN涂层金属陶瓷的切削性能明显优于未涂层金属陶瓷和硬质合会YW2,其平均寿命为硬质合金刀具的2倍.TiN/TiAlN涂层金属陶瓷刀具的失效形式主要是磨损和崩刃,没有涂层剥落现象,TiN/TiAlN涂层与基体的结合强度很好.未涂层金属陶瓷刀具的磨损形式主要是磨损和粘着.     

Microstructure and shear strength of the brazed joint of Ti（C,N）-based cermet to steel

Firm joins were obtained between Ti(C,N)-based cermet and steel with Ag-Cu-Zn-Ni filler metal by vacuum brazing. The effects of technological parameters such as brazing temperature, holding time, and filler thickness on the shear strength of the joints were investigated. The microstructure of welded area and the reaction products of the filler metal were examined by scanning electron microscopy (SEM), metallographic microscope (OM), energy-dispersive X-ray analysis (EDS), and X-ray diffraction (XRD). The brazing temperature of 870°C, holding time of 15 min, and filler thickness of 0.4 mm are a set of optimum technological parameters, under which the maximum shear strength of the joints, 176.5 MPa, is achieved. The results of microstructure show that the wettability of the filler metal on Ti(C,N)-based cermet and steel is well. A mutual solution layer and a diffusion layer exist between the welding base materials and the filler metal.     

Ti(C,N)_w/Ti(C,N)基金属陶瓷的组织与力学性能研究

采用Ti(C,N)晶须和颗粒复合粉末(Ti(C,N)w+Ti(C,N)p)制备Ti(C,N)w/Ti(C,N)基金属陶瓷。研究了复合粉末对金属陶瓷组织及性能的影响。结果表明,Ti(C,N)w的加入,金属陶瓷的各项力学性能都得到了提高。组织表现为环形相结构特征,与Ti(C,N)基金属陶瓷相比,双层环形相结构所占比例增大,且尺寸加厚。烧结组织中Ti(C,N)w的长径比大于临界长径比,在强化金属陶瓷方面起着重要的作用。环形相使Ti(C,N)w与基体界面结合紧密,增韧机制主要表现为裂纹桥联和裂纹偏转,拔出效应不明显。     

WC含量对超细Ti(C,N)基金属陶瓷组织和性能的影响

采用真空烧结法制备超细Ti(C,N)基金属陶瓷,研究WC含量0wt%～20wt%对超细Ti(C,N)基金属陶瓷显微组织和力学性能的影响。通过SEM观察组织形貌发现,添加WC后金属陶瓷的组织出现了典型的芯壳结构,并且芯壳产生了明显细化,但当WC添加量超过15wt%时,环形相碳化物粗化、变脆。伴随着WC添加量,抗弯强度、硬度、断裂韧性均呈现先上升再下降的趋势。在WC添加量15wt%时,抗弯强度达到1262MPa,维氏硬度值达到16.3HV,金属陶瓷的综合力学性能达到最优。     

Ti(C,N)基金属陶瓷的芯-壳显微结构与性能研究

以TiC、TiN为原料,Ni、Co为粘结剂,WC、Mo2C、TaC、C、Cr3C2为添加剂,采用真空热压烧结工艺制备Ti(C,N)基金属陶瓷材料。借助于SEM、EDS和XRD分别分析其显微结构、组成和物相,并测试其性能。结果表明:按配方(质量分数,%):TiC:41.2,TiN:10,Ni:7,Co:7,Mo2C:12,WC:15,TaC:6,Cr2C3:0.8,C:1配料,在1450℃,30MPa热压制得的试样晶粒细小,具有完整的芯-壳显微结构。其主要性能为:相对密度99.12%,维氏硬度22.74GPa,断裂韧性10.1MPa·m1/2,抗弯强度1192.83MPa。     

CO冷却对Ti(C,N)基金属陶瓷表层结构和切削性能的影响

为改善Ti(C,N)基金属陶瓷刀具的抗冲击性能,从烧结碳势对表层粘结相分布影响的角度出发,制备了不同压力CO冷却的Ti(C,N)基金属陶瓷刀片.借助扫描电镜和能谱仪研究了CO冷却下金属陶瓷表层的组织结构以及粘结相分布情况.对比了CO冷却和真空冷却对金属陶瓷刀片切削性能的影响.结果表明:CO冷却对金属陶瓷常规性能影响微小...     

Ti(C,N)复合膜和TiN/Ti(C,N)多层膜组织和显微硬度

采用非平衡反应磁控溅射的方法在Si(100)基片上沉积Ti(C,N)复合膜和不同调制周期、调制比的TiN/Ti(C,N)纳米多层薄膜。薄膜的微观结构和力学性能采用X射线衍射仪(XRD)、显微硬度计进行表征。结果表明,Ti(C,N)复合膜的微观结构和力学性能与掺入C的含量有关;TiN/Ti(C,N)纳米多层膜的微观结构和力学性能与调制周期和调制比有关,其显微硬度在一定的调制周期和调制比范围内出现了超硬现象。Ti(C,N)、TiN/Ti(C,N)均为δ-NaCl面心立方结构;Ti(C,N)复合膜显微硬度提高是因为固溶强化,TiN/Ti(C,N)纳米多层膜硬度的提高主要是共格外延生长在界面处产生的交变应力场。     

纳米Ti(C,N)增强Ti(C,N)基金属陶瓷的研究

采用纳米Ti(C，N)粉末制备Ti(C，N)基金属陶瓷，研究了纳米粉末对金属陶瓷组织及性能的影响。结果表明，粉末冶金过程中，纳米Ti(C，N)粉末易于在粘结相中扩散与溶解及沿晶界分布，降低了硬质相在粘结相中的溶解度，抑制了晶粒长大，提高了材料的红硬性能。抗弯强度与晶粒尺寸满足于Hall-Perch公式，5wt％～l0wt％的纳米粉末加入量可使金属陶瓷的抗弯强度和切削性能得到较大的提高，但硬度变化不大。切削磨损主要表现为磨粒磨损和轻微的粘着磨损，磨痕细小均匀。     

球磨工艺对Ti(C,N)基金属陶瓷组织和性能的影响

采用粉末冶金法制备了Ti(C,N)基金属陶瓷。重点研究了球磨工艺包括球料比、球磨转速以及球磨时间对Ti(C,N)基金属陶瓷的组织和性能的影响。采用XRD、SEM等分析手段对制备的金属陶瓷进行了分析。研究结果表明:球磨时在球料比为7:1,抗弯强度最高;转速为400 r/min,抗弯强度为1176.4 MPa,断裂韧性12.0 MPa·m~(1/2);混料时间为24 h,抗弯强度和断裂韧性均最高,分别达到1169.2 MPa和10.5 MPa·m~(1/2)。     

Microstructure and cutting performance of Ti（C, N）-based cermets heat-treated in nitrogen

Ti（C, N）-based cermets were treated using hot isostatic pressing （HIP） at 1423 K in nitrogen. The microstructures compared with the as-sintered cermets were investigated using X-ray diffraction, scanning electron microscopy, transmission electron microscopy, energy-dispersive X-ray analysis, and electron microprobe analysis. It was found that high nitrogen activity in the surface zone resulted in the formation of gradient structure. Approximately 20-1am-deep, nitrogen-rich and titanium-rich hard surface zone was introduced by the heat treatment. The nitrogen activity was the driving force that caused the transportation of the atoms through the binder, titanium towards the surface, and tungsten and molybdenum inwards. In the surface zone, the particle size became fine, the inner rim disappeared, and the volume fraction of the outer rim and the binder phase considerably reduced. Small grains of TiN, WC, Mo2C, and nitrogen-rich carbonitlide phases formed in the surface zone during the heat treatment, improving the tlibological property of the heat-treated cermet.