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Performance of nano-structured multilayer PVD coating TiAlN/VN in dry high speed milling of aerospace aluminium 7010-T7651

机译：纳米结构多层PVD涂层TiAlN / VN在航空铝7010-T7651的干高速铣削中的性能

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A low-friction and wear resistant TiAlN/VN multilayer coating with TiAlN/VN bilayer thickness 3 nm has been grown by using the combined cathodic arc etching and unbalanced magnetron sputtering deposition on high speed steel tools for dry cutting of aluminium alloys. In this paper, in-lab and industrial high speed milling tests have been performed on an aerospace aluminium alloy 7010-T7651. The results show that the TiAlN/VN coated tools achieved lower cutting forces, lower metal surface roughness, and significantly longer tool lifetime by three times over the uncoated tools as a result of the low friction and eliminated tool-metal adhesion. Under the same conditions, a TiAlN based multicomponent coating TiAlCrYN also increased the tool lifetime by up to 100% despite the high cutting forces measured.

机译：TiAlN / VN双层厚度为3 nm的低摩擦，耐磨TiAlN / VN多层涂层已通过在高速钢工具上使用阴极电弧蚀刻和不平衡磁控溅射沉积相结合的方法进行生长，用于铝合金的干式切削。在本文中，已经对航空铝合金7010-T7651进行了实验室和工业高速铣削测试。结果表明，TiAlN / VN涂层刀具具有较低的切削力，较低的金属表面粗糙度，并且由于其低摩擦力和消除了刀具与金属之间的粘着性，因此其寿命比未涂层的刀具长了三倍。在相同条件下，尽管测得的切削力很高，但基于TiAlN的多组分涂层TiAlCrYN仍将刀具寿命提高了100％。

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Luo, Quanshun; Robinson, Gary; Pittman, Manfred; Howarth, Martin; Sim, W.M.; Stalley, M.R.; Leitner, H.; Ebner, R.; Caliskanoglu, D.; Hovsepian, Papken;
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专利

1. TiAlN/VN superlattice structured PVD coatings: A new alternative in machining of aluminium alloys for aerospace and automotive components [J] . Hovsepian PE, Luo Q, Robinson G, Surface & Coatings Technology . 2006,第1a2期

机译：TiAlN / VN超晶格结构化PVD涂层：航空航天和汽车部件铝合金加工的新选择
2. Improvement of Wear Performance of Nano-Multilayer PVD Coatings under Dry Hard End Milling Conditions Based on Their Architectural Development [J] . Shahereen Chowdhury, Ben D. Beake, Kenji Yamamoto, Coatings . 2018,第2期

机译：基于结构发展的干硬端铣削条件下纳米多层PVD涂层耐磨性能的改进
3. Performance and limitation of hybrid PECVD (hard coating) - PVD magnetron sputtering (MoS2/Ti composite) coated inserts tested for dry high speed milling of steel and grey cast iron [J] . Renevier NM., Oosterling H., Konig U., Surface & Coatings Technology . 2003,第0期

机译：混合PECVD（硬涂层）-PVD磁控溅射（MoS2 / Ti复合）涂层刀片的性能和局限性已通过测试，可用于钢和灰铸铁的干高速铣削
4. Microstructure, Composition and Performance of PVD Coatings Designed for Successful Dry High Speed Milling [C] . Muenz Wolf-Dieter, Lembke Mirkkal, Lewis D. Brian, 15th International Plansee Seminar 2001 2001 null . 2001

机译：成功进行干式高速铣削的PVD涂层的组织，成分和性能
5. Nano-multilayered self-adaptive hard PVD coatings for dry high performance machining. [D] . Ning, Li. 2008

机译：纳米多层自适应硬质PVD涂层，用于干法高性能加工。
6. Features of electronic and lattice mechanisms of transboundary heat transfer in multilayer nanolaminate TiAlN/Ag coatings [O] . A. I. Kovalev, D. L. Wainstein, V. O. Vakhrushev, -1

机译：多层纳米层压TiAlN / Ag涂层中跨界传热的电子和晶格机制特征
7. Transmission electron microscopy and energy dispersive X-ray spectroscopy on the worn surface of nano-structured TiAlN/VN multilayer coating [O] . Luo, Q., Hovsepian, P. E. 2006

机译：纳米结构TiAlN / VN多层涂层磨损表面的透射电子显微镜和能量色散X射线光谱

Performance of nano-structured multilayer PVD coating TiAlN/VN in dry high speed milling of aerospace aluminium 7010-T7651

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