Grain size effect of pre- and post-coating treated cemented carbides on PVD films' adhesion and mechanical properties

K.-D. Bouzakis; N. Michailidis; G. Skordaris; A.Tsouknidas; S. Makrimallakis; E. Bouzakis

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Grain size effect of pre- and post-coating treated cemented carbides on PVD films' adhesion and mechanical properties

机译：涂覆前和涂覆后硬质合金的晶粒尺寸对PVD薄膜附着力和力学性能的影响

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Die Karbidkorngroße von beschichteten Hartmetallwerkzeugen kann die Schichthaftung und das Schichtwachstum maßgeblich beeinflussen und dadurch die Werkzeugstandzeit bestimmen. In dervorliegenden Studie wurden drei Hartmetallsubstrate mit verschiedenen Korngrößen, die mit zwei PVD-Schichten beschichtet wurden, untersucht. Der Einfluss unterschiedlicher Vor- und Nachbehandlungen auf die mechanischen Eigenschaften der Beschichtung sowie auf die Schichthaftung wurde mit Hilfe von Nanoindenter-Untersuchungen und Impact-Tests beurteilt. Die Hartstoffschichten die auf Ultrafeinkorn-Sorten (UF) abgeschieden wurden, wiesen insgesamt die höchsten mechanischen Eigenschaften auf. Darüber hinaus zeigten die Versuchsergebnisse eine verbesserte Schichthaftung bei der Feinstkorn-Sorte (F) gegenüber den Feinkorn- (N) und Ultrafeinkorn-Sorten. Die Schichthaftung könnte bei fein- und feinstkörnigen Hartmetallsubstraten durch eine Mikrostrahlbehandlung mit Festkörpern angepasst werden. Nachbehandlungen der beschichteten Substrate mittels Bürsten waren vorteilhaft für alle unterschiedlichen Substrate. Dies ist sowohl auf die Entfernung von Droplets aus der Schichtoberfläche als auch auf die Induzierung von Druckeigenspannungen zurückzuführen.%The grain size of coated cemented carbide tools may significantly affect the tool life by influencing either the coating adhesion to the substrate or the coating growth during deposition. In the present study three variously grained cemented carbides were coated with two different PVD films. Various pre- and post-treatments were applied, while their effect on the films' mechanical properties and adhesion was assessed by nanoindentations and inclined impact tests. The coatings deposited on ultra-fine-grained substrates exhibited the highest mechanical properties overall. The research revealed elevated adhesive properties for the fine-grained substrate compared to the normal and ultra-fine-grained one. The film adhesion of normal and fine-grained substrate can be further enhanced through micro-blasting. Post-treatments of the coatings were beneficial in all substrate cases, as brushing of the film surface removed droplets while at the same time inducing surface residual stresses at the coating resulting in a hardness increase.

机译：涂层硬质合金刀具的碳化物粒度会显着影响涂层的附着力和涂层的生长，从而决定刀具的寿命。在本研究中，检查了三种具有不同晶粒尺寸的碳化物衬底，这些衬底涂覆有两个PVD层。借助纳米压头研究和冲击试验，评估了不同的预处理和后处理对涂层机械性能以及层粘附性的影响。总的来说，以超细晶粒等级（UF）沉积的硬质材料层具有最高的机械性能。此外，测试结果表明，与细颗粒（N）和超细颗粒类型相比，细颗粒（F）的层粘附性得到了改善。通过对固体进行微束处理，可以对精细和非常细粒度的硬质金属基材调整层粘附力。使用刷子对涂覆的基材进行后处理对于所有不同的基材都是有利的。％涂层硬质合金刀具的晶粒尺寸可能会影响涂层对基材的附着力或沉积过程中涂层的生长，从而可能显着影响刀具寿命。在本研究中，三种不同晶粒的硬质合金均涂覆有两种不同的PVD膜。进行了各种预处理和后处理，同时通过纳米压痕和倾斜冲击试验评估了它们对薄膜机械性能和附着力的影响。沉积在超细颗粒基材上的涂层总体上表现出最高的机械性能。研究表明，与普通和超细颗粒基材相比，细颗粒基材的粘合性能有所提高。普通和细粒基材的膜粘附力可以通过微喷进一步提高。在所有基材情况下，涂层的后处理都是有益的，因为刷涂薄膜表面会除去液滴，同时在涂层上引起表面残余应力，从而导致硬度增加。

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来源
《Materialwissenschaft und Werkstofftechnik》 |2013年第8期|697-703|共7页
作者
K.-D. Bouzakis; N. Michailidis; G. Skordaris; A.Tsouknidas; S. Makrimallakis; E. Bouzakis;
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作者单位

Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany,Laboratory for Machine Tools and Manufacturing Engineering, Mechanical Engineering Department, Aristoteles University of Thessaloniki, 54124 Thessaloniki, Greece;

Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany,Physical Metallurgy Laboratory, Mechanical Engineering Department, Aristotle University of Thessaloniki,Thessaloniki, Greece;

Laboratory for Machine Tools and Manufacturing Engineering, Mechanical Engineering Department, Aristoteles University of The-ssaloniki,Thessaloniki, Greece,Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany;

Laboratory for Machine Tools and Manufacturing Engineering, Mechanical Engineering Department, Aristoteles University of The-ssaloniki,Thessaloniki, Greece,Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany;

Laboratory for Machine Tools and Manufacturing Engineering, Mechanical Engineering Department, Aristoteles University of The-ssaloniki,Thessaloniki, Greece,Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany;

Laboratory for Machine Tools and Manufacturing Engineering, Mechanical Engineering Department, Aristoteles University of The-ssaloniki,Thessaloniki, Greece,Fraunhofer Project Center for Coatings in Manufacturing, in Centre for Research and Technology Hellas in Thessaloniki and in Fraunhofer Institute for Production Technology in Aachen, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
PVD coatings; cemented carbides; grain size;

机译：PVD涂料;硬质合金晶粒大小;

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3. Grain growth behaviour and mechanical properties of coarse-grained cemented carbides with bimodal grain size distributions [J] . Rengui He, Qiumin Yang, Bin Li, Materials Science and Engineering . 2021,第Feba23期

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7. Mechanical properties of WC-Co cemented carbides coated with titanium carbonitride or titanium carbide by PVD process. [O] . Hisashi Suzuki, Hideaki Matsubara, Kunio Shibuki 1985

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Grain size effect of pre- and post-coating treated cemented carbides on PVD films' adhesion and mechanical properties

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