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A Study Comparative of Cu and Cu-Zn Electrode During Electrical Discharge Machining on Martensitic Stainless Steel AISI 410 Rattikorn Saodaen1*, Pichai Janmanee2 Somchai Wonthaisong3 and Apiwat Muttamara4 1,2,3Department of Mechanical and Industrial Engineering, Faculty of Engineering, Rajamangala University of Technology Krungthep, Bangkok 10120, Thailand 4Department of Industrial Engineering, Thammasat University, Klongluang Pathumthani 12120,Thailand 1*rattikorn.s@rmutk.ac.th, 2pichai.j@rmutk.ac.th, 3s.wonthaisong@gmail.com 4mapiwat@engr.ac.th Keywords : EDM, AISI 410, Electrode, Cu, Cu-Zn Abstract.
References [1] Kalpakjian S, Schmid SR, 2001 Manufacturing engineering and technology, 4th edn.
Panten, EDM future steps towards the machining of ceramics, Ann.
International Journal of Engineering Science and Technology: Vol. 2(8), pp. 3535-3550
The International Journal of Advanced Manufacturing.

International journal of biological macromolecules, 53(2023): 127669-127669
Engineering Plastics application. 50(2022):157-162
International Journal of Polymer Analysis and Characterization, 28(2023): 596-624
Key Engineering Materials, 6253(2021): 202-206
Journal of the American Ceramic Society, 82(2010): 3430-3440.

Performance of BaCo0.7Fe0.2Nb0.1O3-δ membrane under CO2-containing atmosphere for CCS application PeiJun Shen1, a, WeiZhong Ding1, b, HaiHai Wang1, c, Zhen Geng1, d, Xu Liu1,e, YuDing Zhou1,f, ShaoQing Huang1,g 1Shanghai Key Laboratory of Modern Metallurgy and Materials Processing, Shanghai University, 149 Yanchang Road, Shanghai, 200072, People’s Republic of China ashenpeijun@shu.edu.cn, bwzhding@shu.edu.cn, cwanghh05@163.com, dyoungknight@163.com, eliuxu0351@163.com, f zyd12131213@shu.edu.cn, e huangshao1984@163.com Keywords: BaCo0.7Fe0.2Nb0.1O3-δ; Carbon dioxide; Stability; Oxygen permeation Abstract Mixed ionic-electronic conducting BaCo0.7Fe0.2Nb0.1O3-δ perovskite is a newly developed promising ceramic membrane material.
Oxygen desorption properties of compound under CO2-containing atmosphere were studied by oxygen temperature-programmed desorption (O2-TPD) on the crushed BCFN ceramics sieved to 40-80mesh. 250mg sample was loaded in a quartz tube.
Acknowledgement This work was financially supported by the National High Technology Research and Development Program of China (Grant no. 2006AA11A189), Science and Technology Commission of Shanghai Municipality (Grant no. 07DZ12036, 08DZ1206400), National Engineering Research Center of Advanced Steel Technology (NERCAST) (Grant no. 050209), and Innovation Fund for Graduate Student of Shanghai University, China (SHUCX101006) Reference [1] Adrian Leo, Shaomin Liu, João C.
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Liu, A model for the effective thermal conductivity of moist porous building materials based on fractal theory, International Journal of Heat and Mass Transfer. 125 (2018) 387 – 399
Siddiqui, Influence of biomass aggregate on strength of foam concrete, International Journal of Civil Engineering and Technology. 8 (2017) 1645 – 1653
Johari, Utilization of fly ash in lightweight aggregate foamed concrete, ARPN Journal of Engineering and Applied Sciences. 8 (2016) 5413 – 5417
Anand, Utilization of recycled waste as filler in foam concrete, Journal of Building Engineering. 19 (2018) 154 – 160
Narikov, Collagen agent technology for foam concrete production, ARPN Journal of Engineering and Applied Sciences. 5 (2017) 1674 –1678

Corrosion-wear Behavior of TiO2 Films in Hanks' Solution WANG He-feng a, TIAN Lin-hai b, LIU Wei-yan c, LI Xiu-yan d, TANG Bin e* Research Institute of Surface Engineering, Taiyuan University of Technology, 030024 Taiyuan, PR China awanghefeng5213@126.com, b tianlinhai@tyut.edu.cn , cliuweiyan0527@126.com, dlixiuyan@tyut.edu.cn, * e tangbin@tyut.edu.cn Key words: TiO2 films; Stainless steel; Corrosive-wear Abstract：：：：TiO2 films were fabricated on stainless steel (SS) substrate by plasma surface alloying and thermal oxidation duplex process.
Ceramic coating is a good candidate to prevent metals from corrosion.
References [1]Matjaz Finsgar, Stefan Fassbender, Sabine Hirth: Materials Chemistry and Physics Vol. 116 (2009), p. 198-206 [2]LIANG Cheng-hao, MOU Zhan-qi: Chinese Journal of Biomedical Engineering Vol. 19 (2000), p. 432-435 [3]REN Yi-bin, YANG Ke, LIANG Yong: Materials Review Vol. 16 (2002), p. 12-15 [4]ZHANG Wen-guang, LIU Wei-min, Liu Ying and WANG Cheng-tao: Ceramic International Vol. 35 (2009), p. 1513-1520 [5]LIU Wei-min, ZHANG Wen-guang, ZHANG Zhao-min, LI Bin and MAI Guang-xin: TRIBOLOGY Vol. 19 (1999), p. 166-168 [6]LIU Cheng-long, YANG Da-zhi, ZHAO Hong: Journal of Functional Material Vol. 34 (2003), p. 600-602 [7]M.G.
Mater Vol. 53 (2005), p. 1303-1308 [8]WANG He-feng, YANG Cheng-quan, LI Xiu-yan and TANG Bin: Nuclear Techniques Vol. 32 (2008), p. 178-181 [9]QIN Lin, TANG Bin, LIU Dao-xin and XU Zhong: Rare Metal Materials and Engineering Vol. 34 (2005), p. 1465-1468 [10]Yan W.

MN1 1Department of Aerospace Engineering, Faculty of Engineering, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan, Malaysia. 2Institute of Tropical Forestry and Forest Products, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan, Malaysia.
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Developments in Porous, Biological and Geopolymer Ceramics, Ceramic Engineering and Science Proceedings, Vol. 28(2008), p. 373-382
NACE International, Corrosion, Paper 09492, (2009)
Strategic Materials and Computational Design: Ceramic Engineering and Science Proceedings, (2010)

Realization of Active Vibration Control on Piezoelectric Intelligent Flexible Beam Wu Da–fang1, Huang Liang1,2, Su Fei1, Liu Cheng–xiang1, Yang Hong–yuan1 and Liu An–cheng1 1School of Aeronautics Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing, China. 2Department of engineering mechanics, Yanshan University, Qinhuangdao, China. 1wdf1950@163.com, 2hliang@ysu.edu.cn Keywords- flexible structures; independent modal control; piezoelectric ceramics Abstract.
Cantilever beam is a typical flexible structure in engineering and many flexible structures can be modeled as cantilevers, so research on the active vibration control of cantilevers is meaningful in engineering applications.
Reddy, “A higher order beam finite element for bending and vibration problem,” Journal of Sound and Vibration, 126, pp.309–326, 1988
Mook, “A refined nonlinear model of compsite plates with integrated piezoelectric actuators and sensors,” International Journal of Solids and Structures, 30, pp.1603–1630, 1993
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Introduction In mechanical engineering filter elements of various designs are used, which can be divided into the following main types: oil, air, fuel, cabin, diesel and hydraulic.
In the manufacture of a filter element designed for fine cleaning of fuel, to obtain a large number of small dimensions channels in one step is an urgent problem in mechanical engineering.
Another method for producing holes and grooves is the ultrasonic method, which is effective for processing brittle materials (glass, ceramics, etc.).
Almondb, Non-traditional Machining Techniques for Fabricating Metal Aerospace Filters, Chinese Journal of Aeronautics 21(2008) 441-447 [4] E.J.
Shirokozhukhova, Innovative methods for obtaining artificial roughness on the surfaces of heat-loaded parts of the liquid rocket engines combustion chamber, Engineering journal Science and Innovations, Moscow state technical university named after N.E.

Effect of High Temperature During Electroless Nickel Process Zaliman Sauli1,a Vithyacharan Retnasamy1, Uda Hashim2, Rajendaran Vairavan1, Aaron Koay Terr Yeow1 , Moganraj Paliansamy1 and Ramzan Mat Ayub2 1School of Microelectronic Engineering, Universiti Malaysia Perlis (UniMAP), Kampus Pauh Putra, 02600 Arau, Perlis, Malaysia 2Institute Of Nano Electronic Engineering (INEE), Universiti Malaysia Perlis (UniMAP) Lot 106, 108 & 110, Tingkat 1, Block A, Taman Pertiwi Indah, Jalan Kangar-Alor Setar, Seriab 01000 Kangar, Perlis, Malaysia.
Zhang, et al., "A thermal-mechanical coupled finite element model with experimental temperature verification for vertically stacked FPGAs," Microelectronic Engineering, 2011
Lin, "Advanced ceramic heaters: Improving IC packaging and system performance," Advanced Packaging, vol. 16, pp. 22-26, 2007
Ourdjini, "Effect of multiple reflow on IMC formation using various surface finishes," International Journal of Microstructure and Materials Properties, vol. 7, pp. 502-516, 2012
Kim, et al., "Transmission property of flip chip package with adhesive interconnection for RF applications," Microelectronic Engineering, vol. 86, pp. 314-320, 2009

Modern ABS plastics can successfully replace rubber, metal and ceramics in various fields.
C. de Souza, New developments on the use of polymeric materials in sheet metal forming, Production Engineering Research and Development, 2 (1) (2008) 63-72
Excell, The rise of additive manufacturing, The Engineer.
Lim, Rapid sheet metal manufacturing, Part 1: indirect rapid tooling, International Journal of Advanced Manufacturing Technology, 19(1) (2002) 411-417
Brown, Structural and Frictional Performance of Fused Deposition Modelled Acrylonitrile Butadiene Styrene (P430) with a View to Use as Rapid Tooling Material in Sheet Metal Forming, Key Engineering Materials, 639 (2015) 325-332