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Online since: July 2006
Authors: Stanislaw Gierlotka, Tomaž Kosmač, Krzysztof Jan Kurzydlowski, Tomasz Wejrzanowski, K. Konopka, J. Michalski, J. Bieliński
Kurzydlowski1g
1
Faculty of Materials Science & Engineering, Warsaw University of Technology
Wołoska 141, 02-507 Warsaw, Poland,
2
Faculty of Chemistry, Warsaw University of Technology Noakowskiego 3,
00-664 Warsaw, Poland
3
High Pressure Research Center of Polish Academy of Science,Sokolowska 29,
01-142 Warsaw, Poland
4
Josef Stefan Institute, Jamova 39, 1001 Ljubljana, Slovenia
e-mail: a
jmichalski@inmat.pw.edu.pl, b twejrzanowski@inmat.pw.edu.pl, c
xray@unipress.was.pl,
d
bielin@ch.pw.edu.pl, e
kako@inmat.pw.edu.pl, f
tomaz.kosmac@ijs.si, g
kjk@inmat.pw.wsu.pl
Abstract.
The fabrication of 3D interpenetrating phases in ceramic-metal composites by high pressure sintering of ceramic powder coated with Ni-P nanoparticles produced by electro-less chemical plating is reported.
Recently, ceramic-matrix composites with metal particles have been developed to improve the mechanical and functional properties of ceramics, in particular to reduce their inherent brittleness.
Claussen, N., Electrical resistivity of Cr-Al2O3 and ZrxAly-Al2O3 composites with interpenetrating microstructure , Journal of the European Ceramic Society, (2002), 22 2149-2153 3.
Kacprzyk, "Binary alloy phase diagrams", 2nd Ed., vol. 3, SAM International, Materials Park, OH, 1992
The fabrication of 3D interpenetrating phases in ceramic-metal composites by high pressure sintering of ceramic powder coated with Ni-P nanoparticles produced by electro-less chemical plating is reported.
Recently, ceramic-matrix composites with metal particles have been developed to improve the mechanical and functional properties of ceramics, in particular to reduce their inherent brittleness.
Claussen, N., Electrical resistivity of Cr-Al2O3 and ZrxAly-Al2O3 composites with interpenetrating microstructure , Journal of the European Ceramic Society, (2002), 22 2149-2153 3.
Kacprzyk, "Binary alloy phase diagrams", 2nd Ed., vol. 3, SAM International, Materials Park, OH, 1992
Online since: March 2016
Authors: Jing De Zhang, Jun Peng Luan, Chag Ku Ding, Ya Lei Liu, Fei Li
J International Journal of Hydrogen Energy. 38(2013) 10081-10091
J International Journal of Hydrogen Energy. 37(2012) 15311-15319
J International Journal of Hydrogen Energy. 37(2012) 19045-19054
J Journal of Materials Science: Materials in Electronics. 5(1994) 260-266
J Journal of the European Ceramic Society. 27(2007) 683-687
J International Journal of Hydrogen Energy. 37(2012) 15311-15319
J International Journal of Hydrogen Energy. 37(2012) 19045-19054
J Journal of Materials Science: Materials in Electronics. 5(1994) 260-266
J Journal of the European Ceramic Society. 27(2007) 683-687
Online since: October 2014
Authors: Dimitris Sioulas, Foteini Petrakli, Athena Tsetsekou
[5] Jon Binner, Ketharam Annapoorani, Anish Paul, Isabel Santacruz, Bala Vaidhyanathan, Journal of the European Ceramic Society, 28 (2008) 973–977
Ceramics International, 38 (2012) 2659–2665
Journal of Hazardous Materials, 170 (2009) 35–42
Ceramics International, 39 (2013) 209–218
[22] Masakazu Kawashita , Ayumi Kamitani, Toshiki Miyazaki, Naoko Matsui, Zhixia Li, Hiroyasu Kanetaka, Masami Hashimoto, Materials Science and Engineering C 32 (2012) 2617–2622
Ceramics International, 38 (2012) 2659–2665
Journal of Hazardous Materials, 170 (2009) 35–42
Ceramics International, 39 (2013) 209–218
[22] Masakazu Kawashita , Ayumi Kamitani, Toshiki Miyazaki, Naoko Matsui, Zhixia Li, Hiroyasu Kanetaka, Masami Hashimoto, Materials Science and Engineering C 32 (2012) 2617–2622
Online since: September 2013
Authors: Hui Fan
Assisted-Grinding in the Laminated Template Electroforming
Hui Fan
School of Mechanical and Electrical Engineering, Jiangsu Normal University, Xuzhou, 221116, China
xzfanhui@163.com
Keywords: Deposit uniformity, Laminated electroforming, Assisted grinding
Abstract.
Its principle, as shown in Fig.1, bases on traditional electroforming and become progressive, which put hard particles such as ceramic or glass beads between cathode and anode.
The inner cylinder was filled with ceramic beads, enough to cover the workpiece which was clampinged by cathode.
Hard grinding grains were ceramic beads with average diameter 1mm, repeatedly washing with distilled water before use, in order to remove impurities.
Kang: International Journal of Machine Tools and Manufacture, Vol. 40 (2000) No.7, pp.1071-1078
Its principle, as shown in Fig.1, bases on traditional electroforming and become progressive, which put hard particles such as ceramic or glass beads between cathode and anode.
The inner cylinder was filled with ceramic beads, enough to cover the workpiece which was clampinged by cathode.
Hard grinding grains were ceramic beads with average diameter 1mm, repeatedly washing with distilled water before use, in order to remove impurities.
Kang: International Journal of Machine Tools and Manufacture, Vol. 40 (2000) No.7, pp.1071-1078
Online since: February 2022
Authors: Hanna A. Al-Kaisy, Mohanad N. Al-Shroofy, Ghofran Dhafer
Huang: submitted to Journal of materials engineering and performance (2012)
Anaee: submitted to Engineering and Technology Journal (2021)
Wang: submitted to Ceramics International (2020).
Al-Shroofy, and Hanna Al-Kaisy: submitted to Engineering and Technology Journal (2021)
Dhara: submitted to Materials Science and Engineering (2019)
Anaee: submitted to Engineering and Technology Journal (2021)
Wang: submitted to Ceramics International (2020).
Al-Shroofy, and Hanna Al-Kaisy: submitted to Engineering and Technology Journal (2021)
Dhara: submitted to Materials Science and Engineering (2019)
Online since: November 2011
Authors: Li Hua Dong, Bo Yang Liu, Yan Sheng Yin, Yan Hua Fan
Preparation and properties of CNTs-Ti3Al/B4C composites
Yanhua Fan a, Lihua Dong b, Boyang Liu c, Yansheng Yin d
Institute of Marine Materials Science and Engineering, Shanghai Maritime University, Shanghai 200135, China
ayhfan@shmtu.edu.cn, blhdong@shmtu.edu.cn, cbyliu@shmtu.edu.cn, dysyin@shmtu.edu.cn
Keywords: TiAl/B4C composite; hot press sintering; CNTs; fracture toughness
Abstract.
Ti-Al compounds have the features of both metals and ceramics, which not only could greatly decrease the sintering temperature of B4C ceramic, but also improve the toughness of ceramic.
As a result, the Ti-Al do help to improve the properties of ceramic.
Sun, Ceramics International 35 (2009) 771–778
Banthia, Journal of the European Ceramic Society 25 (2005) 287–291.
Ti-Al compounds have the features of both metals and ceramics, which not only could greatly decrease the sintering temperature of B4C ceramic, but also improve the toughness of ceramic.
As a result, the Ti-Al do help to improve the properties of ceramic.
Sun, Ceramics International 35 (2009) 771–778
Banthia, Journal of the European Ceramic Society 25 (2005) 287–291.
Online since: February 2022
Authors: Aleksandr A. Tretyak, Elena A. Yatsenko, V.A. Smoliy, Andrey Chumakov
Compression and crushing behavior of ceramic proppants and sand under high stresses, Journal of Petroleum Science and Engineering Volume, 158 (2017). 268-283
[2] Yuhan Ren, Qiang Ren, Xiulan Wu, Jinle Zheng, Ou Hai.
Interactions between different acids and bauxitic-based ceramic proppants used in gravel-packed and fractured wells, Journal of Petroleum Science and Engineering Volume, 158 (2017). 441-453 [10] Bandara K.
Extensive analysis of single ceramic proppant fracture mechanism and the influence of realistic extreme reservoir conditions on proppant mechanical performance, Journal of Petroleum Science and Engineering, 195 (2020). 107586 [11] Zhengqiang Xiong, Shixian Tao, Xiaodong Li, Fan Fu, Yanning Li.
Journal of Petroleum Science and Engineering, 198 (2021). 108170 [14] Jiazheng Qin, Shiqing Cheng, Youwei He, Yang Wang, Dong Feng, Dingyi Li, Haiyang Yu.
Journal of Natural Gas Science and Engineering. 57 (2018). 295-304
Interactions between different acids and bauxitic-based ceramic proppants used in gravel-packed and fractured wells, Journal of Petroleum Science and Engineering Volume, 158 (2017). 441-453 [10] Bandara K.
Extensive analysis of single ceramic proppant fracture mechanism and the influence of realistic extreme reservoir conditions on proppant mechanical performance, Journal of Petroleum Science and Engineering, 195 (2020). 107586 [11] Zhengqiang Xiong, Shixian Tao, Xiaodong Li, Fan Fu, Yanning Li.
Journal of Petroleum Science and Engineering, 198 (2021). 108170 [14] Jiazheng Qin, Shiqing Cheng, Youwei He, Yang Wang, Dong Feng, Dingyi Li, Haiyang Yu.
Journal of Natural Gas Science and Engineering. 57 (2018). 295-304
Online since: November 2012
Authors: Jun Ting Luo, Yong Fei Gu, Cun Jie Fan, Qian Ying Huang
Chen, Journal of Plasticity Engineering. 10(1), 1 (2003).
Wang, and, Journal of Plasticity Engineering. 13(3), 56 (2006).
Cao, Journal of Plasticity Engineering. 17, 71 (2010).
Huang, China Mechanical Engineering. 22, 1745 (2011).
Fan, China Mechanical Engineering. 01(25), 113(2012).
Wang, and, Journal of Plasticity Engineering. 13(3), 56 (2006).
Cao, Journal of Plasticity Engineering. 17, 71 (2010).
Huang, China Mechanical Engineering. 22, 1745 (2011).
Fan, China Mechanical Engineering. 01(25), 113(2012).
Online since: December 2004
Authors: Jun Zhao, Xing Ai, Z.J. Lü
Zhao1,c
1
School of Mechanical Engineering, Shandong University, Jinan 250061, P.R.
China a xyzwater@126.com, b aixing@sdu.edu.cn, c zhaojun@sdu.edu.cn Keywords: Sialon, Suspensions, Nanocomposites, Ceramic Abstract.
Jiang: Fine Ceramic Materials (Material Press of China, China 2000) [9] X.J.
Xu, et al: Ceramics International Vol. 26 (2000), p. 337 [10] J.
Wu: Journal of Inorganic Materials Vol. 15 (2000), p. 551 [11] M.
China a xyzwater@126.com, b aixing@sdu.edu.cn, c zhaojun@sdu.edu.cn Keywords: Sialon, Suspensions, Nanocomposites, Ceramic Abstract.
Jiang: Fine Ceramic Materials (Material Press of China, China 2000) [9] X.J.
Xu, et al: Ceramics International Vol. 26 (2000), p. 337 [10] J.
Wu: Journal of Inorganic Materials Vol. 15 (2000), p. 551 [11] M.
Online since: August 2015
Authors: K. Kumarrathinam, D. Christopher, R. Prakash
ANALYSIS OF SURFACE WASTE HEAT RECOVERY IN IC ENGINE BY USING TEG
R.Prakash1, a *, D.Christopher2, b and K.Kumarrathinam3, c
1Associate Professor, Department of Mechanical Engineering, SSN college of Engineering, Chennai, India-603110
2,3 PG Scholar, Department of Mechanical Engineering, SSN college of Engineering, Chennai, India -603110
apakashr@ssn.edu.in, bchristopherdevadhas@gmail.com, crkkumarmech@gmail.com
Keywords: Thermo Electric Generator, Waste Heat Recovery, Thermal Grease, Green Energy.
Suryawanshi, Ajay Chandravanshi, Waste Heat Recovery from Exhaust Gases through IC Engine Using Thermoelectric Generator, Indian Journal of Applied Research Vol. 3, Issue 7 (2013) 270-271
Arnold, Experimental Analysis of Thermoelectric Waste Heat Recovery System Retrofitted to Two Stroke Petrol Engine, International Journal of Advanced Mechanical Engineering Vol. 4, No. 1 (2014) 9-14
Ramesh Kumar , Ankit Sonthalia, Rahul Goel, Experimental study on Waste Heat Recovery from an Internal Combustion Engine using Thermoelectric Technology, International Journal of Thermal Science Vol. 15, No. 4, (2011) 1011-1022
Domkundwar, Course in Thermal Engineering Fifth revised and enlarged ed.
Suryawanshi, Ajay Chandravanshi, Waste Heat Recovery from Exhaust Gases through IC Engine Using Thermoelectric Generator, Indian Journal of Applied Research Vol. 3, Issue 7 (2013) 270-271
Arnold, Experimental Analysis of Thermoelectric Waste Heat Recovery System Retrofitted to Two Stroke Petrol Engine, International Journal of Advanced Mechanical Engineering Vol. 4, No. 1 (2014) 9-14
Ramesh Kumar , Ankit Sonthalia, Rahul Goel, Experimental study on Waste Heat Recovery from an Internal Combustion Engine using Thermoelectric Technology, International Journal of Thermal Science Vol. 15, No. 4, (2011) 1011-1022
Domkundwar, Course in Thermal Engineering Fifth revised and enlarged ed.