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Online since: May 2023
Authors: Zainuriah Hassan, Sabah M. Mohammad, Nabeel Z. Al-Hazeem, Hameed Naser, Haider Mohammed Shanshool
Alumina as a ceramic material. (1970)
Bauxite ‘red mud’in the ceramic industry.
Journal of the European Ceramic Society. (2000), 20:235-44
Procedia Engineering. (2012), 32:1107-12
International Journal of Mechanical Engineering. (2022), 7:2407-2411.
Bauxite ‘red mud’in the ceramic industry.
Journal of the European Ceramic Society. (2000), 20:235-44
Procedia Engineering. (2012), 32:1107-12
International Journal of Mechanical Engineering. (2022), 7:2407-2411.
Online since: October 2006
Authors: Simon D. George, Marius Cronje, S.M. Farn
[7] Espinosa, H.D., Lee, S., 2002, Advance in Micro Scale Modelling of Failure Mechanisms in
Ceramics and Fiber Composites, The First Sino-Joint Symposium on Multi-Scale Analysis in
Material Sciences and Engineering, Beijing, China
[8] Sukumar, N., Srolovitz, D.J., Baker, T.J., Prevost, J.H., 2003, Brittle Fracture in Polycrystalline Microstructure with the Extended Finite Element Method, International Journal For Numerical Methods in Engineering, Vol.56, pp2015 - 2037 [9] Ghosh sited by 10 [10] Weyer, S., Fröhlich, A., Riesch-Oppermann, H., Cizelj, L., Kovač, M., 2000, Automatic Finite Element Meshing of Planar Voronoi Tessellations.
Submitted to Engineering Fracture Mechanics
Journal of the American Ceramic Society.
Journal of the European Ceramic Society No.11, Vol.523.
[8] Sukumar, N., Srolovitz, D.J., Baker, T.J., Prevost, J.H., 2003, Brittle Fracture in Polycrystalline Microstructure with the Extended Finite Element Method, International Journal For Numerical Methods in Engineering, Vol.56, pp2015 - 2037 [9] Ghosh sited by 10 [10] Weyer, S., Fröhlich, A., Riesch-Oppermann, H., Cizelj, L., Kovač, M., 2000, Automatic Finite Element Meshing of Planar Voronoi Tessellations.
Submitted to Engineering Fracture Mechanics
Journal of the American Ceramic Society.
Journal of the European Ceramic Society No.11, Vol.523.
Online since: January 2014
Authors: Cheng Ji Deng, Nai Peng, Wen Jie Yuan, Bin Xu, Hong Xi Zhu
Ceramics International 38 (2) (2012) 919–927
Advanced Engineering Materials 14 (4) (2012) 255–264
Materials Science and Engineering A 528 (7-8) (2011) 3177–3185
Journal of the European Ceramic Society 20 (2000) 1419-1427
International Materials Reviews 44 (3) (1999) 77–104
Advanced Engineering Materials 14 (4) (2012) 255–264
Materials Science and Engineering A 528 (7-8) (2011) 3177–3185
Journal of the European Ceramic Society 20 (2000) 1419-1427
International Materials Reviews 44 (3) (1999) 77–104
Online since: October 2004
Authors: Jin Quan Xu, Lie Dong Fu, Yoshiharu Mutoh
Lou: International Journal of Fracture, 43(1990), pp.241-256
Mutoh: JSME International Journal, 45-2(2002), pp.177-183
Wang: Engineering Fracture Mechanics, 37(1990), pp.527-538
Rudge: International Journal of Fracture, 63(1993), pp.21-26
Tiernan: International Journal of Fracture, 74(1995), pp.53-75.
Mutoh: JSME International Journal, 45-2(2002), pp.177-183
Wang: Engineering Fracture Mechanics, 37(1990), pp.527-538
Rudge: International Journal of Fracture, 63(1993), pp.21-26
Tiernan: International Journal of Fracture, 74(1995), pp.53-75.
Online since: August 2008
Authors: Maria do Carmo de Andrade Nono, Sergio Luiz Mineiro
On the other hand, the particle packing of ceramic powders has always been deserving
attention due to its influence in the subsequent stages of the ceramic processing, especially on the
density on sintering, as well as in the microstructure and mechanical properties of the final ceramic
product.
Bouvard: International Journal of Mechanical Sciences Vol. 46 (2004) p. 907
David Lam: Journal of Materials Processing Technology Vol. 79 (1998), p. 170
[4] Dean-mo Liu: Ceramics International Vol. 25 (1999), p. 107
Freitas: Key Engineering Materials Vol.189191 (2001), p. 54.
Bouvard: International Journal of Mechanical Sciences Vol. 46 (2004) p. 907
David Lam: Journal of Materials Processing Technology Vol. 79 (1998), p. 170
[4] Dean-mo Liu: Ceramics International Vol. 25 (1999), p. 107
Freitas: Key Engineering Materials Vol.189191 (2001), p. 54.
Online since: October 2023
Authors: Arvind Kumar, Abhishek Kumar, Jai Prakash, Ranveer Kumar
Journal of Mechanical Engineering (JMechE). 2021 Sep 7; 17(2):129-39.
[5] VinothKumar S, PradeepKumar M.
World Journal of Engineering. 2021 Jan 7;18(1):50-7. [8] Nguyen TT, Cao LH, Nguyen TA, Dang XP.
Arabian Journal for Science and Engineering. 2017 May;42:1917-28. [17] Patel* KM, Pandey PM, Rao PV.
Ceramics International. 2023 Mar 1; 49(5): 8487-501. [20] Gopalakannan S, Senthilvelan T.
International Journal of Materials Engineering Innovation. 2021;12(3):246-58. [22] Kumar A, Pandey S, Singh V, Rai RN.
World Journal of Engineering. 2021 Jan 7;18(1):50-7. [8] Nguyen TT, Cao LH, Nguyen TA, Dang XP.
Arabian Journal for Science and Engineering. 2017 May;42:1917-28. [17] Patel* KM, Pandey PM, Rao PV.
Ceramics International. 2023 Mar 1; 49(5): 8487-501. [20] Gopalakannan S, Senthilvelan T.
International Journal of Materials Engineering Innovation. 2021;12(3):246-58. [22] Kumar A, Pandey S, Singh V, Rai RN.
Online since: February 2013
Authors: Shao Peng Wu, Chang Jun Sun, Ning Tang, Pan Pan, Shao Xu Huang
In Proceedings of International Solid-State Sensors, Actuators and Microsystems Conference, TRANSDUCERS 2007, Lyon, France, 10–14 June 2007; pp. 875-878
Performance investigation of 1-3 piezoelectric ceramic–cement composite.
Materials Science and Engineering B, Volume 112, Issue 1, 15 September 2004, Pages 5-9
Effects of Fe2O3 Doping on the Properties of PMnS-PZN-PZT Piezoelectric Ceramic.
Journal of Synthetic Crystals, Vo.l 39, No. 1 February, 2010, Pages 72-76.
Performance investigation of 1-3 piezoelectric ceramic–cement composite.
Materials Science and Engineering B, Volume 112, Issue 1, 15 September 2004, Pages 5-9
Effects of Fe2O3 Doping on the Properties of PMnS-PZN-PZT Piezoelectric Ceramic.
Journal of Synthetic Crystals, Vo.l 39, No. 1 February, 2010, Pages 72-76.
Online since: April 2024
Authors: Ari Legowo, Agus Geter Edy Sutjipto
Series: Materials Science and Engineering 290, 012043, 2018
Procedia Engineering (Elsevier), Vol. 170, pp. 88-92, 2017
Journal of Materials Science, Springer, 42, pp 6036-6040, 2007
Key Engineering Materials, 181-182, p.231, 2000
Mechanical and Dielectric Properties of Pure MgO Ceramic, Key Engineering Materials, 345-346, p.1609, 2007
Procedia Engineering (Elsevier), Vol. 170, pp. 88-92, 2017
Journal of Materials Science, Springer, 42, pp 6036-6040, 2007
Key Engineering Materials, 181-182, p.231, 2000
Mechanical and Dielectric Properties of Pure MgO Ceramic, Key Engineering Materials, 345-346, p.1609, 2007
Online since: January 2022
Authors: Shah Rizal Kasim, Mohamad Abdul Zahari Aziz, A.Z. Norzeity, I. Johari
Ceramics International 45 (2019): 1322-1330
Ceramics International 40 (2014): 13891-13902
Ceramics International 44, no. 14 (2018): 16103-16118
Advances in Materials Science and Engineering 2014 (2014)
International Journal of Applied Ceramic Technology 7 (2010): 81-88
Ceramics International 40 (2014): 13891-13902
Ceramics International 44, no. 14 (2018): 16103-16118
Advances in Materials Science and Engineering 2014 (2014)
International Journal of Applied Ceramic Technology 7 (2010): 81-88
Online since: May 2016
Authors: Jian Guo Yao, Yan Ling Zheng, Zhan Kui Wang, Jian Xiu Su
Bhaduri, Microstructural and mechanical properties of nanocrystalline spinel and related composites, Ceramics International. 28(2002)153-158
[4] C. b.
Strengthened and Toughened, Mg-Al Spinel Transparent Ceramics, Journal of synthetic crystals. 37(2008)880-804 [5] R.
Sarkar,S.Sahoo, Effect of raw materials on formation and densification of magnesium aluminate spinel, Ceramics International.40(2014) 16719-16725
Nonami, Copper polishing with a polishing pad incorporating abrasive Grains and a chelating resin,Precision Engineering.33(2009)167-174
Jeong, A study on polishing of molds using hydrophilic fixed abrasive pad, International Journal of Machine Tools & Manufacture.44 (2004)1163-1169
Strengthened and Toughened, Mg-Al Spinel Transparent Ceramics, Journal of synthetic crystals. 37(2008)880-804 [5] R.
Sarkar,S.Sahoo, Effect of raw materials on formation and densification of magnesium aluminate spinel, Ceramics International.40(2014) 16719-16725
Nonami, Copper polishing with a polishing pad incorporating abrasive Grains and a chelating resin,Precision Engineering.33(2009)167-174
Jeong, A study on polishing of molds using hydrophilic fixed abrasive pad, International Journal of Machine Tools & Manufacture.44 (2004)1163-1169