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Online since: October 2006
Authors: L.L. Snead, N.B. Morley, William E. Windes, Yutai Katoh, Takashi Nozawa
Team, Fusion Engineering and Design 18
(1991) 215-222
Tillack, Fusion Engineering and Design 55 (2001) 55-95
Zinkle, Fusion Engineering and Design 74 (2005) 31-40
Snead, Journal of ASTM International 2 (2005) 12377-1-13
Lara-Curzio, Ceramic Engineering and Science Proceedings 24 (2003) 415-420
Tillack, Fusion Engineering and Design 55 (2001) 55-95
Zinkle, Fusion Engineering and Design 74 (2005) 31-40
Snead, Journal of ASTM International 2 (2005) 12377-1-13
Lara-Curzio, Ceramic Engineering and Science Proceedings 24 (2003) 415-420
Online since: December 2010
Authors: Xie Quan Liu, Wan Heng He, Xin Hua Ni, Shu Qin Zhang
Thermal Expansion Coefficient of Ni Base Alloy Composite Coating Containing Spheroidal Ceramic Grains
Xiequan Liua, Xinhua Ni, Shuqin Zhang and Wanheng He
Department of Basic Course, Mechanical Engineering College, Shijiazhuang 050003, China
alxqnxh@163.com
Keywords: Ni base alloy; Spheroidal ceramic grains; three-phase model; two-phase cell; Thermal expansion coefficient
Abstract.
V1 is the volume of the ceramic grain in two-phase cell.
For the spheroidal ceramic grains, Sijkl can be determined by reference [7].
References [1] M.C.Garcla-Alonso: ISIJ International, Vol.36(1996), p.172 [2] Wang Junying, Ni Xinhua, Yang Qizhi: International Journal of Plant Engineering and Management, Vol. 18 ( 2003), p. 60 [3] Xiequan Liu, Xinhua Ni and Junying Wang: Key Engineering Materials, Vol. 280-283(2005), p. 1775 [4] Xinhua Ni, Xiequan Liu, Baohong Han, Haixing Lu, Guohui Zhong, in: Transferability and Applicability of Current Mechanics Approaches, edited by G.C.
Wang, East China University of Science and Technology Press, China(2009), p.285 [5] Xiequan Liu, Jian Zheng, Zhanjun Yao, Baofeng Li: Key Engineering Materials, Vol. 336-338(2007), p.1527 [6] J.D.Eshelby: Proc.
V1 is the volume of the ceramic grain in two-phase cell.
For the spheroidal ceramic grains, Sijkl can be determined by reference [7].
References [1] M.C.Garcla-Alonso: ISIJ International, Vol.36(1996), p.172 [2] Wang Junying, Ni Xinhua, Yang Qizhi: International Journal of Plant Engineering and Management, Vol. 18 ( 2003), p. 60 [3] Xiequan Liu, Xinhua Ni and Junying Wang: Key Engineering Materials, Vol. 280-283(2005), p. 1775 [4] Xinhua Ni, Xiequan Liu, Baohong Han, Haixing Lu, Guohui Zhong, in: Transferability and Applicability of Current Mechanics Approaches, edited by G.C.
Wang, East China University of Science and Technology Press, China(2009), p.285 [5] Xiequan Liu, Jian Zheng, Zhanjun Yao, Baofeng Li: Key Engineering Materials, Vol. 336-338(2007), p.1527 [6] J.D.Eshelby: Proc.
Online since: May 2016
Authors: Anatoly S. Vereshchaka, Boris Ya. Mokritskii, Alexey Anatolevich Vereschaka, Nikolay Sitnikov, Julia Prilukova
Meyer: Production, Engineering, Research and Development, WGP, Vol. 2/2 (2008), p. 123
[6] L.A.
Mikula: Journal of Materials Processing Technology Vol. 164-165 (2005), p. 822 [7] Kundrák, J., Varga, G.: Possibility of reducing environmental load in hard machining, 2012, Key Engineering Materials 496, pp. 205-210 [8] Varga, G., Dudas, I.: Modelling and examinations of dry machining processes, 2004, Proceedings of the IASTED International Conference on Modelling, Simulation, and Optimization, pp. 327-331 [9] L.A.
Kulikov: Key Engineering Materials Vol. 581 (2014), p. 68 [13] A.A.
Batako:International Journal of Advanced Manufacturing Technology Vol. 72, Iss. 1 (2014), p. 303 [14] A.A.Vereschaka, B.Y.
Ruziev: Applied Mechanics and Materials Vol. 457-458 (2014) p. 120 [21] Vereschaka Alexey: Key Engineering Materials Vol. 581 (2014) p. 62
Mikula: Journal of Materials Processing Technology Vol. 164-165 (2005), p. 822 [7] Kundrák, J., Varga, G.: Possibility of reducing environmental load in hard machining, 2012, Key Engineering Materials 496, pp. 205-210 [8] Varga, G., Dudas, I.: Modelling and examinations of dry machining processes, 2004, Proceedings of the IASTED International Conference on Modelling, Simulation, and Optimization, pp. 327-331 [9] L.A.
Kulikov: Key Engineering Materials Vol. 581 (2014), p. 68 [13] A.A.
Batako:International Journal of Advanced Manufacturing Technology Vol. 72, Iss. 1 (2014), p. 303 [14] A.A.Vereschaka, B.Y.
Ruziev: Applied Mechanics and Materials Vol. 457-458 (2014) p. 120 [21] Vereschaka Alexey: Key Engineering Materials Vol. 581 (2014) p. 62
Online since: October 2017
Authors: M.R. Sahar, S.H.M. Sayadi, E.S. Sazali
The increase in hardness due to the verification between ceramic matrixes that contributed to densification of ceramic body by closing the internal pores of ceramic structure [17].
Ceramics International, 32(7), 789-796
Ceramics International, 37(4), 1293-1299
Journal of Materials Science and Engineering 2011;5:293-297 [5] Samah, K.
Journal of the European Ceramic Society, 35(10), 2733-2744
Ceramics International, 32(7), 789-796
Ceramics International, 37(4), 1293-1299
Journal of Materials Science and Engineering 2011;5:293-297 [5] Samah, K.
Journal of the European Ceramic Society, 35(10), 2733-2744
Online since: August 2009
Authors: Chuan Zhen Huang, Han Lian Liu, Bin Fang, Hong Mei Cheng, Ting Ting Zhou
Zhou
1
1
Centre for Advanced Jet Engineering Technologies (CAJET), School of Mechanical Engineering,
Shandong University, Jinan 250061, China, email: chenghongmei6623@163.com
2
School of Electromechanical Engineering, Shandong Jianzhu University, Jinan 250101, China
Keywords: Ceramic Tool Materials, Computer Simulation, Multi-Scale, Coupling
Abstract.
Jiang: Journal of Materials Science & Engineering Vol. 25(2) (2007), p. 298 (in Chinese) [4] S.M.H.
Liu: Chinese Journal of Mechanical Engineering Vol. 39(5) (2003), p. 6 (in Chinese) [12] C.E.
Olevsky: International Journal of Solids and Structures Vol. 42(2) (2005), p. 621 [19] A.
Noguchi: International Journal of Mechanical Sciences Vol. 46(6) (2004), p. 841 [25] A.
Jiang: Journal of Materials Science & Engineering Vol. 25(2) (2007), p. 298 (in Chinese) [4] S.M.H.
Liu: Chinese Journal of Mechanical Engineering Vol. 39(5) (2003), p. 6 (in Chinese) [12] C.E.
Olevsky: International Journal of Solids and Structures Vol. 42(2) (2005), p. 621 [19] A.
Noguchi: International Journal of Mechanical Sciences Vol. 46(6) (2004), p. 841 [25] A.
Online since: February 2014
Authors: Ku En Ting, Ruey Tsung Lee, Fwu Hsing Liu, Sheng Lih Yeh, Wen Hsueng Lin
Laser Compensation for Ceramics Accuracy Improvement of Selective Laser Sintering
Ruey-Tsung Leea, Fwu-Hsing Liub,*, Kuen Tingc, Sheng-Lih Yehd, Wen-Hsueng Line
Dept. of Mechanical Engineering, Lunghwa University of Sci. and Tech.
Loiseau, Stereolithography of structural complex ceramic parts, Journal of materials science. 37 (2002) 3141-3147
Liao, Fabrication of inner complex ceramic parts by selective laser gelling, Journal of the european ceramic society 30 (2010) 3283-3289
Liu, Manufacturing porous multi-channel ceramics by laser gelling, Ceramics international 37 (2011) 2789-2794
Liu, Synthesis of bioceramic scaffolds for bone tissue engineering by rapid prototyping technique, Jourenal of Sol-Gel science and technology 64 (2012) 704-710
Loiseau, Stereolithography of structural complex ceramic parts, Journal of materials science. 37 (2002) 3141-3147
Liao, Fabrication of inner complex ceramic parts by selective laser gelling, Journal of the european ceramic society 30 (2010) 3283-3289
Liu, Manufacturing porous multi-channel ceramics by laser gelling, Ceramics international 37 (2011) 2789-2794
Liu, Synthesis of bioceramic scaffolds for bone tissue engineering by rapid prototyping technique, Jourenal of Sol-Gel science and technology 64 (2012) 704-710
Online since: February 2014
Authors: Seok Woo Lee, Hon Jong Choi, Young Jae Choi, Kyung Hee Park, Kyeong Tae Kim, Yun Hyuck Hong
Introduction
Ceramics have been considered one of important materials in engineering application due to its outstanding physical and mechanical properties such as high melting temperature, high wear resistant, etc1-3.
Hu, International Journal of Machine Tools & Manufacture Vol. 50 (2010) pp.303-307
[6] Javad Akbari, Hassan Borzoie, Mohammad Hossein Mamduhi, World Academy of Science, Engineering and Technology Vol. 41 (2008) pp.785-789
Treadwell, International Journal of Machine Tools & Manufacture Vol. 45 (2005) pp.1468-1473
Khamba, Materials Science and Engineering A460-461 (2007) pp.365-369
Hu, International Journal of Machine Tools & Manufacture Vol. 50 (2010) pp.303-307
[6] Javad Akbari, Hassan Borzoie, Mohammad Hossein Mamduhi, World Academy of Science, Engineering and Technology Vol. 41 (2008) pp.785-789
Treadwell, International Journal of Machine Tools & Manufacture Vol. 45 (2005) pp.1468-1473
Khamba, Materials Science and Engineering A460-461 (2007) pp.365-369
Online since: March 2014
Authors: Qi Long Zhang, Xin Hui Zhao, Min Jia Wang, Hui Yang
Low-Temperature Sintering and Microwave Dielectric Properties of (Ca0.9Mg0.1)SiO3 Ceramic with Li2CO3 Addition
Xin-Hui Zhaoa, Min-Jia Wang, Qi-Long Zhangb* and Hui Yang
Department of Materials Science and Engineering, Zhejiang University, Hangzhou Zhejiang 310027, P.R.
[2] Qing Ma,Songping Wu,Chan Jiang,Jianhui Li, Microwave dielectric properties of SnO2-doped CaSiO3 ceramics, Ceramics International.39(2013) 2223-2229
Ma, Effects of CaSiO3 addition on sintering behavior and microwave dielectric properties of Al2O3 ceramics, Ceramics International. 37 (2011) 989-993
[9] M.E.Song,J.S.Kim,M.R.Joung,S.Nahm,Synthesis and microwave dielectric properties of MgSiO3 ceramics, Journal of the American Ceramic Society.91 (8) (2008) 2747-750
[12] Huiping Sun, Qilong Zhang,Hui Yang,Jiali Zou,(Ca1−xMgx)SiO3: A low-permittivity microwave dielectric ceramic system, Materials Science and Engineering B.138 (2007) 46-50
[2] Qing Ma,Songping Wu,Chan Jiang,Jianhui Li, Microwave dielectric properties of SnO2-doped CaSiO3 ceramics, Ceramics International.39(2013) 2223-2229
Ma, Effects of CaSiO3 addition on sintering behavior and microwave dielectric properties of Al2O3 ceramics, Ceramics International. 37 (2011) 989-993
[9] M.E.Song,J.S.Kim,M.R.Joung,S.Nahm,Synthesis and microwave dielectric properties of MgSiO3 ceramics, Journal of the American Ceramic Society.91 (8) (2008) 2747-750
[12] Huiping Sun, Qilong Zhang,Hui Yang,Jiali Zou,(Ca1−xMgx)SiO3: A low-permittivity microwave dielectric ceramic system, Materials Science and Engineering B.138 (2007) 46-50
Online since: January 2015
Authors: Monica Ferraris, Valentina Casalegno, Paolo Veronesi, Cristina Leonelli, Roberto Rosa, Milena Salvo, Shao Hua Han
International Journal of Materials & Product Technology, 2004. 20(5-6): p. 440-451
International Journal of Self-Propagating High-Temperature Synthesis, 2007. 16(3): p. 154-168
International Journal of Mechanical Sciences, 2000. 42(8): p. 1499-1518
Materials Science and Engineering: A, 2006. 441(1-2): p. 149-156
Materials Science and Engineering: A, 2011. 528(3): p. 1251-1260
International Journal of Self-Propagating High-Temperature Synthesis, 2007. 16(3): p. 154-168
International Journal of Mechanical Sciences, 2000. 42(8): p. 1499-1518
Materials Science and Engineering: A, 2006. 441(1-2): p. 149-156
Materials Science and Engineering: A, 2011. 528(3): p. 1251-1260
Online since: May 2013
Authors: Jian Feng Wu, Bin Zheng Fang, Xiao Hong Xu, Peng Li, Xin Bin Lao, Shu Qing Zheng
Dietmar: International Journal of Applied Ceramic Technology, Vol.8 (2011) No.3, p.646
[8] A.
Reindl: Journal of Solar Energy Engineering, Vol.129 (2007) No.4, p.355 [9] A.
Mitra: Ceramics International, Vol.33 (2007) No.2, p.255 [13] F.
Lei: Ceramics International, Vol.24 (1998) No.4, p.313 [19] W.
Yoshinari: International Journal of Applied Ceramic Technology, Vol.5 (2008) No.4, p.353 [21] S.
Reindl: Journal of Solar Energy Engineering, Vol.129 (2007) No.4, p.355 [9] A.
Mitra: Ceramics International, Vol.33 (2007) No.2, p.255 [13] F.
Lei: Ceramics International, Vol.24 (1998) No.4, p.313 [19] W.
Yoshinari: International Journal of Applied Ceramic Technology, Vol.5 (2008) No.4, p.353 [21] S.