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Fabrication of self-healing ceramic coating against oxidation for carbon/carbon composite using polysilazane and fillers Liu Hongli a*, Tian Chunying b College of Materials Science and Engineering, Jiamusi University, Jiamusi 154007, China a *corresponding author, email: lhl@mse.buaa.edu.cn b email: tcywkx@126.com Keywords: Preceramic polymer, Anti oxidation coating, C/C composite, Fillers Abstract.
There are two kinds of crystalline phases characterized with particulate and amorphous ceramic.
Schwarz: Journal of Nuclear Materials Vol. 367 (2007), p. 1139 [3] H.
Oteo: Journal of the European Ceramic Society, Vol. 28 (2008), p. 1871 [5] Yan Ma, Qing-Song Ma, Jun Suo, Zhao-Hui Chen: Ceramics International Vol. 34 (2008), p. 253 [6] H.
Chen: Rare Metal Materials and Engineering Vol.35 No.1 (2006), p.134

Anusha Roseline3, A.Lazar Mary4 and D.Santhosh5 1,3,4,5Department of Mechanical Engineering, Loyola Institute of Technology, Palanchur Chennai-123, India 2Department of Mechanical Engineering, Panimalar Polytechnic College, Chennai- 29, India ajeffyresearch@gmail.com, b*sandysureesh@gmail.com Keywords: AZ91, Boron carbide, Magnesium Metal Matrix Composites, Stir Casting.
Abstract: In modern engineering low-density composites plays a vital role of which magnesium alloys are very effective due to its high strength with better corrosion resistance and neat cast ability.
Furthermore scanning electron microscopy is used for examining the distribution of the used ceramic.
[4] R.Praveenkumar, P.Periyasamy, V.Mohanavel, M.M.Ravikumar “Mechanical and Tribological Behavior of Mg- Matrix Composites Manufactured by Stir Casting” International Journal of Vehicle Structure & Systems, 12(1) (2020) PP:13-16
Dinaharan, Ravi Kumar, E.T.Akinlabi "Microstructure and mechanical characterization of friction stir welded high strength low alloy steels" Materials Science & Engineering A, 687, (2017) PP: 39–46

Masaki: Journal of American Ceramic Society (1986), 69: 638 - 640 [3] K.Tsukuma, Y.Kubota, and T.
Journal of European Ceramic Society (2007), 27: 2641-2646 [9] B.Basu, J.Lee, and D.Y.Kim: Development of nanocrytalloine wear – resistant Y-TZP ceramics.
Ceramics International (2008), 35:547-554
Journal of the American Ceramic Society (2006). 90: p. 438-443
Material Science and Engineering (2003), 99: p.321-324.

Fibers and matrix are ceramic materials.
V0 is the reference volume (V0 = 1 m3 when International Units are used).
Journal of Fracture, Vol 82, pp 297-316 (1996)
Ceramic Engineering and Science Proceedings, Under press (2010)
Journal of Nuclear Materials 307-311 (2002).

Experimental study of geochemical engineering shield on U adsorption.
Experimental study of geochemical engineering shield on Sr adsorption.
International Conference on Nuclear Engineering.
Journal of Membrane Science, 2013
Journal of Nuclear Materials, 2012, 420(1): 182-192

Simulation of 1D Abrasive Vibratory Finishing Process Prakasam Pradeep Kumar1, a, Subbiah Sathyan1, b 1School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore apradeep1@ntu.edu.sg, bsathyans@ntu.edu.sg Keywords: vibratory finishing, multibody dynamics, abrasive wear, simulation Abstract.
The damping coefficient was calculated as 19810 N/mm and 7889 N/mm for ceramic-ceramic and ceramic-aluminium respectively.
Evans, in: International Journal of Production Research, vol. 41, no. 16 (2003), p. 3943–3953
Ferriera, in: The International Journal of Advanced Manufacturing Technology, vol 53 (2011), p. 1–15
Ferriera, in: The International Journal of Advanced Manufacturing Technology, vol. 53 (2011), p. 561–575

Introduction: The main ideas behind development of new method have always been Endeavour of engineering personnel and scientists.
Elsevier, Journal of material processing technology 146 (2004) 234-240 ,Incheon, South Korea [2] Matthieu Barge, Jeol Rech, Hedi Hamdi, Jean-Michel Bergheau, Experimental study of abrasive process, elsevier,wear, Journal of science direct,98156 ,28 Aug 2006,pg 101-107 [3] Deng Jianxin, Liu Lili, Ding Mingwei, Sand erosion performance of SiC/ (W,Ti)C gradient ceramic nozzles by abrasive air-jets, elsevier ,materials and design, Journal of science direct 28 (2007) , pg 2099-2105 [4] Jianxin Deng, Xihua Zhang, Pingzhang Niu, Lili Liu, Jinghai Wang, wear of ceramic nozzles by dry and sand blasting, elsevier, Tribology International 29 (2006), pg 274- 280 [5] Deng Jianxin, Feng Yihua, Ding Zeling, Shi Peiwei, wear bahavier of ceramic nozzles in sand blasting treatments, elsevier, Journal of European ceramic society 23 (2003), pg 323-329 [6] M.
Kanzaki, effect of workpiece properties on machinability in abrasive jet machining of ceramic materials, elsevier, journal of the international societies for precision engineering and nanotechnology 26 (2002), pg 193-198 [7] R.
[8] Manabu Wakuda, Yukihiko Yamauchi, Shuzo kanzaki, material response to particle impact during abrasive jet machining of alumina ceramics, ELSEVIER, the journal of material processing technology 132, (2033), pg 177-183 [9] A.EI- Domiaty, H.M.Abd EI-Hafez, and M.A.shaker, drilling glass sheet by abrasive jet machining , world academic science engineering and technology 56 (2009), 61-67 [10] S.paul,A.M.Hoogstrate,C.A.van Luttervelt, H.J.J.Kals, an experimental investigation of rectangular pocket milling with abrasive water jet , elsevier, the journal of material processing Technology 73 (1998), pg 179-188
Siores, W.C.K.Wong, kerf charecterstics in abrasive waterjet cutting of ceramic materials peergamon, published by Elsevier science ltd, pg 1201-1206 [15] P.K.Ray, A.K.Paul, some studies on abrasive jet machining, the journal of institution of engineer (India),vol 68,pg 27-30, 2 Nov 1997

Series: Mechanical engineering. 6 (2015) 74-81
Ortiz Verification and validation of the Optimal Transportation Meshfree (OTM) simulation of terminal ballistics / International Jornal of Impact Engineering DOI: 10.1016/j.ijimpeng.2011.11.003 [11] Lloyd D.J.
Composite engineering handbook.
Rahman, Metal matrix composite brake rotor: historical development and product life cycle analysis, International Journal of Automotive and Mechanical Engineering. 4 (2011) 471-480
Solovev, Selection of Digital Filter for Microprocessor Protection Relays, International Journal of Electrical and Computer Engineering (IJECE), 8 (3) (2018) 1498-1512.

Materials Science and Engineering: A, 556, 175-183
The International Journal of Advanced Culture Technology, 3(1), 179-187
The International Journal of Advanced Manufacturing Technology, 1-22
In Proc. of ASME International Manufacturing Science and Engineering Conference Paper No.
Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 230(7), 1234-1241.

Power Consumption of Piezo-composite Actuator at Resonance Frequency Hery Setiawan1, a, Kwang Joon Yoon2, b, Hoon Cheol Park3, c, and Nam Seo Goo4,d 1,2,3,4 Department of Aerospace Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, Korea a he_setiawan@yahoo.com, bkjyoon@konkuk.ac.kr, chcpark@konkuk.ac.kr, dnsgoo@konkuk.ac.kr Keywords: LIPCA (LIghtweight Piezo-Composite Actuator), piezoelectric actuator, power consumption, resonance Abstract.
The LIPCA device system is composed of a piezoelectric ceramic layer and fiber reinforced lightweight composite layers.
Yoon: Analysis of LIPCA Actuators: International Journal of Modern Physics B, Vol.17 (2003), p. 647-652
Crawley: Power Amplification for Piezoelectric Actuators in Controlled Structures: (MIT Space Engineering Research Center, Massachusetts, SERC #4-95, 1995)
Chung, and A. von Flotow: Modeling of Piezoelectric Actuator Dynamics for Active Structural Control: Journal of Intell.