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Identification of Brittle-Ductile Material Removal Characteristics in Ultrasonic aided Lapping of Engineering Ceramics F.
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Precision Engineering.

LI 1,d 1School of Mechanical Engineering, Dalian University of Technology, China awangmeili120400@163.com, bdutlj@dlut.edu.cn, czyu@dlut.edu.cn Keywords：Micro-drilling; Pre-sintering; Ceramic green body.
Kenis, Fabrication of Ceramic Microscale Structures, Journal of the American Ceramic Society.90 (2007) 2779-2783
Kim, Micro-drilling of alumina green bodies with diamond grit abrasive micro-drills, International Journal of Machine Tools & Manufacture. (2003) 551-558
Lee, D.G Lee, Tool life model for abrasive wet micro-drilling of ceramic green bodies, International Journal of Machine Tools & Manufacture. (2004) 839-846
Katsumi, Micro-drilling of monocrystalline silicon using a cutting tool, Precision Engineering.26 (2002) 263-268

Investigation on Axial Turning-Grinding of Engineering Ceramics Xinli Tiana,Fang Guob ,Yatao Maoc,Jianquan Wangd ,Sen Xue and Shu Zhangf National Key Laboratory for Equipment Remanufacturing Engineering, Academy of Armored Forces Engineering, Beijing,100072,China atianxli719251@sohu.com,bpuzzlele@tom.com,cmaoyatao666@163.com, djianquanwang0514@yahoo.com.cn, exusen.1985@163.com,fzhangshu5799@163.com Keywords: Engineering ceramics; axial turning-grinding; annularity tool; removal mechanism Abstract.
Using axial turning-grinding to machining engineering ceramics, the axial force is the main cutting force, and normal force and tangential force are too small which can be ignored.
References [1]Siyuan Yu: Engineering ceramics processing technology and its application (Mechanical Industry Publications, China 2008)( In Chinese) [2]Han Huang.
Materials Science and Engineering,2003,A345:155-163
International Journal of Machine Tools & Manufacture, Vol.43(2003), p.811

This journal issue presents materials from the 13th International UNIMAS Engineering Conference 2020 (EnCon 2020), which was held online by University Malaysia Sarawak, Sarawak, Malaysia, with the theme "Empowering industry and transforming society through engineering, technology, and management".
The collected papers describe the current research results in the areas of materials engineering and processing technologies with a specific focus on the use of bio- and biodegradable materials in channeling various applications in numerous branches of human activity.
Biomaterials, Bio-Waste, Biocomposites, Natural Fibre, Hydroxyapatite, Ceramics, Thin Film, Mechanical Properties, Geopolymer, Concrete, Slag, Fly Ash, Lateritic Soil, Biodiesel, Microbial Electrolysis Cell, Sequencing Batch Reactor, Microplastic, Adsorbent, Bio-Waste Recycling, Nanoparticles

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Huang:International Journal of Machine Tools and Manufacture, Vol.43(2003), pp.811-823
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Ghazali 1,e 1Department of Mechanical and Materials Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia. 2Department of Prosthodontics, Faculty of Dentistry, Universiti Kebangsaan Malaysia, 50300 Kuala Lumpur, Selangor, Malaysia.
Xiao, Improvements to the sintering of yttria-stabilized zirconia by the addition of Ni, Ceramics International. 38 (2012) 6777-6782
Wang, Glass infiltration of gelcast zirconia-toughened alumina ceramics for dental restoration, Ceramics International. 38 (2012) 4653-4659
Corrado, Five-year follow-up with Procera all-ceramic crowns, Quintessence International. 36 (2005) 105-113
Boening, Six-year clinical performance of all-ceramic crowns with alumina cores, International Journal of Prosthodontics. 19 (2006) 162-163

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Improving the Tribological Properties of Ceramic Dies Alisin V.1,a 1Mechanical Engineering Research Institute, Russian Academy of Sciences, Moscow, Russia avva-imash@yandex.ru Keywords: ceramic composite, zirconium ceramics, dies, tribological tests, friction and wear, fracture toughness.
[7] Fang Y, Fan H, Song J, Zhang Y and Hu L Surface engineering design of Al2O3/Mo self-lubricating structural ceramics - Part II: Continuous lubrication effects of a three-dimensional lubricating layer at temperatures from 25 to 800 °C, Wear. 360–361 (2016) 97-103
Kovalev, Combustion synthesis of ZrB2-TaB2-TaSi2 ceramics with microgradient grain structure and improved mechanical properties, Ceramics International. 45 2A (2019) 1503-1512
Fahrenholtz, Mechanical behavior of zirconium diboride–silicon carbide–boron carbide ceramics up to 2200°C, Journal of the European Ceramic Society. 35(2) (2015) 463-476
Rybakova, Methods of testing for friction and wear, Intermet engineering.

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