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Nano-scale multi-layered coatings for improved efficiency of ceramic cutting tools

机译：纳米级多层涂层可提高陶瓷切削刀具的效率

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摘要

This paper considers improving the efficiency of ceramic cutting tools using nano-scale multi-layered composite coatings deposited with an innovative arc-PVD processes with filtration of vapour-ion flow and diamond-like coating (DLC). Here a three-layered architecture of nano-structured multi-layered composite coatings is used, and the wear mechanism of the ceramic tool is examined. This approach allows implementing a direct control over the contact characteristics of the cutting process in order to reduce the normal and shear stresses that increase the probability of tool failure as a result of brittle fracture. This increases the adhesive strength of the coating with respect to the ceramic substrate. This resulted in an increase in tool life with reduced failure rate because of brittle fracture of the cutting edge. © 2016 Springer-Verlag London

机译：本文考虑使用通过创新的arc-PVD工艺沉积的纳米级多层复合涂层，通过过滤离子流和类金刚石涂层（DLC）来提高陶瓷切削刀具的效率。在这里，使用了纳米结构多层复合涂层的三层结构，并研究了陶瓷工具的磨损机理。这种方法允许对切削过程的接触特性进行直接控制，以减少法向应力和剪切应力，从而增加了因脆性断裂而导致工具故障的可能性。这增加了涂层相对于陶瓷基底的粘合强度。由于切削刃的脆性断裂，这导致了刀具寿命的增加和故障率的降低。分级为4 +©2016 Springer-Verlag London

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Vereschaka AA; Grigoriev SN; Volosova MA; Batako ADL; Vereschaka AS; Sitnikov NN; Seleznev AE;
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1. Cutting Tools Made of Layered Composite Ceramics with Nano-Scale Multilayered Coatings [J] . Sergej N. Grigoriev, A.A. Vereschaka, A.S. Vereschaka, Procedia CIRP . 2012,第5期

机译：带有多层纳米涂层的多层复合陶瓷制成的切削刀具
2. Improvement in Reliability of Ceramic Cutting Tool using a Damping System and Nano-structured Multi-layered Composite Coatings [J] . A.A. Vereschaka, A.D. Batako, A.A. Krapostin, Procedia CIRP . 2017,第1期

机译：使用阻尼系统和纳米结构多层复合涂层改善陶瓷刀具的可靠性
3. Control of structure and properties of nanostructured multilayer composite coatings applied to cutting tools as a way to improve efficiency of technological cutting operations [J] . Vereschaka A. S., Vereschaka A. A., Sladkov D. V., Journal of nano research . 2016,第期

机译：控制用于切削工具的纳米结构多层复合涂层的结构和性能，以提高切削技术的效率
4. Improving the efficiency of the cutting tools made of mixed ceramics by applying modifying nano-scale multilayered coatings [C] . Vereschaka A. S., Grigoriev S. N., Sotova E. S., International Conference onanufacturing Science and Engineering . 2013

机译：通过施加改性纳米尺度多层涂料，提高由混合陶瓷制成的切削刀具的效率
5. An investigation of the mechanical and physical issues of the adhesion of chemically vapor deposited (CVD) diamond coatings on cemented carbide cutting tool inserts (Cemented carbide tools, Chemical vapor deposition). [D] . Taher, Mahmoud Abdelfattah. 1999

机译：研究硬质合金切削刀具刀片（硬质合金刀具，化学气相沉积）上化学气相沉积（CVD）金刚石涂层的附着力的机械和物理问题。
6. Prepare dispersed CIS nano-scale particles and spray coating CIS absorber layers using nano-scale precursors [O] . Jian-Chiun Liou, Chien-Chen Diao, Jing-Jenn Lin, 2014

机译：准备分散的CIS纳米级颗粒并使用纳米级前体喷涂CIS吸收层
7. Nano-scale Multilayered Composite Coatings for Cutting Tools Operating under Heavy Cutting Conditions [O] . Vereschaka A.A., Grigoriev S.N., Vereschaka A.S., 2014

机译：重型切削条件下用于切削工具的纳米级多层复合涂层

Nano-scale multi-layered coatings for improved efficiency of ceramic cutting tools

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