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Online since: September 2015
Authors: Shinn Liang Chang, Cho Pei Jiang, Cheng Hsun Lo
Lin, “Shrinkage predication of human tooth manufactured through 3D printing”, International Journal of Life Sciences Biotechnology and Pharma Research, Vol. 4, No. 1, pp. 66-70, 2015
Chuang, “Modeling dental composite shrinkage by digital image correlation and finite element methods” Optics and Lasers in Engineering, Vol. 61, pp. 23-30, 2015
Xu, “Design and manufacture of customized dental implants by using reverse engineering and selective laser melting technology”, The Journal of Prosthetic Dentistry, Vol. 112, pp. 1088-1095, 2014
Piller, “ Economic implications of 3D printing: Market structure models in light of additive manufacturing revisited”, International Journal of Production Economics, Vol. 164, pp. 43-56, 2015
Chintal, “Development of high speed and high accuracy 3D dental intra oral scanner”, Procedia Engineering, Vol. 100, pp. 1174-1181, 2015.
Chuang, “Modeling dental composite shrinkage by digital image correlation and finite element methods” Optics and Lasers in Engineering, Vol. 61, pp. 23-30, 2015
Xu, “Design and manufacture of customized dental implants by using reverse engineering and selective laser melting technology”, The Journal of Prosthetic Dentistry, Vol. 112, pp. 1088-1095, 2014
Piller, “ Economic implications of 3D printing: Market structure models in light of additive manufacturing revisited”, International Journal of Production Economics, Vol. 164, pp. 43-56, 2015
Chintal, “Development of high speed and high accuracy 3D dental intra oral scanner”, Procedia Engineering, Vol. 100, pp. 1174-1181, 2015.
Online since: June 2015
Authors: R. Ramakrishnan, K.R. Padmavathi, K. Palani Kumar
Jha1, Akshay Dvivedi, Rajesha S and Ujjwal Kumar Srivastava, Development Processes of Cost Effective Aluminium Metal Matrix Composite - A Review, International Journal of Advanced Mechanical Engineering, (2014), pp. 389-394
[4] D.
Lloyd, Particle reinforced aluminium and magnesium matrix composites, International Materials Reviews 1994 Vol. 39 No.1 [5] M S Aboraia, H S Wasly, M A Doheim, G A Abdalla, A E Mahmoud, Characterization of Al/(10%Al2O3-10%ZrO2)Nanocomposite Powders Fabricated by High-Energy Ball Milling, International Journal of Engineering Research and Applications, May-Jun 2013, pp.474-482 [6] Ramesh.B.T, Characterization of Al Based Nano composites Using Powder Metallurgy Technique, International journal of research in aeronautical and mechanical engineering, February 2014, pp: 131-147 [7] Xiaofei Wanga, Xiaolan Caib, Strengthening in CNT-Al composites produced by High-Energy Ball Milling, Advanced Materials Research Vols. 236-238 (2011) pp 2336-2339 [8] Hansang Kwon, Seungchan Cho, Marc Leparoux and Akira Kawasaki, Dual-nanoparticulate-reinforced aluminum matrix composite materials, Nanotechnology 23 (2012) 225704 (9pp) [9] Rajesh Purohit, R.
Verma, Fabrication of Al-SiCp composites through powder Metallurgy Process and Testing Of Properties, International Journal of Engineering Research and Applications, Vol. 2, Issue 3, May-Jun 2012, pp. 420-437 [12] Mortazavi Majida, Majzoobi G.H., Golikand A.
Dinesh, Novel technique for fabrication of Aluminum6061 – MWCNT (multi-walled carbon nano tube) metal matrix composites, ARPN Journal of Engineering and Applied Sciences, vol. 8, no.3, march 2013 [19] T.
Azad, Vinod Kumar, Frictional and Wear Characteristics of Stir-Cast Hybrid Composite Aluminium Al6061Reinforced with SiC Particulates, International Journal of Engineering Research & Technology (IJERT), Vol. 2 Issue 9, September – 2013 [27] C.S.
Lloyd, Particle reinforced aluminium and magnesium matrix composites, International Materials Reviews 1994 Vol. 39 No.1 [5] M S Aboraia, H S Wasly, M A Doheim, G A Abdalla, A E Mahmoud, Characterization of Al/(10%Al2O3-10%ZrO2)Nanocomposite Powders Fabricated by High-Energy Ball Milling, International Journal of Engineering Research and Applications, May-Jun 2013, pp.474-482 [6] Ramesh.B.T, Characterization of Al Based Nano composites Using Powder Metallurgy Technique, International journal of research in aeronautical and mechanical engineering, February 2014, pp: 131-147 [7] Xiaofei Wanga, Xiaolan Caib, Strengthening in CNT-Al composites produced by High-Energy Ball Milling, Advanced Materials Research Vols. 236-238 (2011) pp 2336-2339 [8] Hansang Kwon, Seungchan Cho, Marc Leparoux and Akira Kawasaki, Dual-nanoparticulate-reinforced aluminum matrix composite materials, Nanotechnology 23 (2012) 225704 (9pp) [9] Rajesh Purohit, R.
Verma, Fabrication of Al-SiCp composites through powder Metallurgy Process and Testing Of Properties, International Journal of Engineering Research and Applications, Vol. 2, Issue 3, May-Jun 2012, pp. 420-437 [12] Mortazavi Majida, Majzoobi G.H., Golikand A.
Dinesh, Novel technique for fabrication of Aluminum6061 – MWCNT (multi-walled carbon nano tube) metal matrix composites, ARPN Journal of Engineering and Applied Sciences, vol. 8, no.3, march 2013 [19] T.
Azad, Vinod Kumar, Frictional and Wear Characteristics of Stir-Cast Hybrid Composite Aluminium Al6061Reinforced with SiC Particulates, International Journal of Engineering Research & Technology (IJERT), Vol. 2 Issue 9, September – 2013 [27] C.S.
Online since: January 2015
Authors: Artem S. Semenov, Ilia V. Ivashov
Fracture criteria for piezoelectric ceramics (1995) J.
Fracture behavior of poled piezoelectric PZT under mechanical and electrical loads (2005) Journal of the European Ceramic Society, 25, pp. 749-757
Energetically consistent boundary conditions for electromechanical fracture (1992) International Journal of Solids and Structures., 41, pp. 6291–6315
Return mapping algorithms and consistent tangent operators in ferroelectroelasticity (2010) International Journal for Numerical Methods in Engineering, Vol. 81, pp. 1298–1340
Numerical Methods in Engineering, Vol. 22, pp. 357-375.
Fracture behavior of poled piezoelectric PZT under mechanical and electrical loads (2005) Journal of the European Ceramic Society, 25, pp. 749-757
Energetically consistent boundary conditions for electromechanical fracture (1992) International Journal of Solids and Structures., 41, pp. 6291–6315
Return mapping algorithms and consistent tangent operators in ferroelectroelasticity (2010) International Journal for Numerical Methods in Engineering, Vol. 81, pp. 1298–1340
Numerical Methods in Engineering, Vol. 22, pp. 357-375.
Online since: April 2016
Authors: Wei Quan Shao, Ying Nan Zhang, Hai Feng Zhao, Yan Qiang Li, Li Zhu He, Jia Jia Feng, Sha Ou Chen, Xiao Jie Guo, Hai Ling Zhu, Yue Qin Ban
Ceramics International 41 (2015) 14958–14963
Ceramics International41 (2015) 14692–14697
Ceramics International 41 (2015) 14780–14789
Journal of the European Ceramic Society 33 (2013) 2961–2969
International journal of hydrogen energy39(2014)21405-21413.
Ceramics International41 (2015) 14692–14697
Ceramics International 41 (2015) 14780–14789
Journal of the European Ceramic Society 33 (2013) 2961–2969
International journal of hydrogen energy39(2014)21405-21413.
Online since: November 2013
Authors: Faik Nuzhet Oktar, E.S. Kayali, N. Demirkol, Ahmet Yavuz Oral
Janaćković, Ceramics International 35 (2009) 1407-1413
Oktar and G.Goller, Ceramics International, 28,6 (2002) 617-621
[6] G.Goller, F.N.Oktar, H.Demirkiran and E.Demirkesen, Key Engineering Materials, 240-242 (2003) 939-942
[10] R.Chakraborty, D.RoyChowdhury, Chemical Engineering Journal, 215-216 (2013) 491-499
[11] N.Demirkol, M.Yetmez, U.Karacayli, E.S.Kayali, O.Gunduz, S.Agathopoulos and F.N.Oktar, the international JOURNAL OF ARTIFICIAL ORGANS, 33 (7) (2010) 468
Oktar and G.Goller, Ceramics International, 28,6 (2002) 617-621
[6] G.Goller, F.N.Oktar, H.Demirkiran and E.Demirkesen, Key Engineering Materials, 240-242 (2003) 939-942
[10] R.Chakraborty, D.RoyChowdhury, Chemical Engineering Journal, 215-216 (2013) 491-499
[11] N.Demirkol, M.Yetmez, U.Karacayli, E.S.Kayali, O.Gunduz, S.Agathopoulos and F.N.Oktar, the international JOURNAL OF ARTIFICIAL ORGANS, 33 (7) (2010) 468
Online since: October 2010
Authors: Yücel Onüralp, Filiz Çinar Şahin, G. Göller, Berkay Uygun
Production And Characterization of Boron Carbide – Titanium Diboride Ceramics by Spark Plasma Sintering Method
Berkay Uygun1,a, Gültekin Göller1,b, Onuralp Yücel1,c, Filiz Çınar Şahin1,d
1Istanbul Technical University, Faculty of Chemical and Metallurgical Engineering, Department of Metallurgical and Materials Engineering; Maslak, Istanbul, 34469, Turkey
auygunberkay@yahoo.com, bgoller@itu.edu.tr, cyucel@itu.edu.tr, dcinar@itu.edu.tr
Keywords: Spark Plasma Sintering, SPS, B4C, TiB2, B4C-TiB2
Abstract.
This study was carried out to produce and characterize B4C - TiB2 ceramics by spark plasma sintering.
“Boron Carbide – A Comprehensive Review”, Journal of the European Ceramic Society, 6, 205-225
“Pressureless Sintering of Boron Carbide”, Ceramics International, 32, 227-233
“High Strength-High Toughness B4C-TiB2 Composites”, Journal of Materials Science Letters, 19, 237-239.
This study was carried out to produce and characterize B4C - TiB2 ceramics by spark plasma sintering.
“Boron Carbide – A Comprehensive Review”, Journal of the European Ceramic Society, 6, 205-225
“Pressureless Sintering of Boron Carbide”, Ceramics International, 32, 227-233
“High Strength-High Toughness B4C-TiB2 Composites”, Journal of Materials Science Letters, 19, 237-239.
Online since: August 2013
Authors: Ramesh Singh, C.Y. Tan, K.M. Christopher Chin, K.Y. Sara Lee, W.D. Teng
Teng2,e
1 Centre of Advanced Manufacturing an Material Prrocessing (AMMP), Department of Mechanical Engineering, Faculty of Engineering, University of Malaya, 50603, Kuala Lumpur, Malaysia
2Ceramics Technology Group, SIRIM Berhad,40911 Shah Alam, Malaysia
achrisckm@siswa.um.edu.my, bkityee7@siswa.um.edu.my, cchouyong@um.edu.my, dramesh79@um.edu.my, ewdteng@sirim.my
Keywords: Forsterite, solid-state reaction, fracture toughness, hardness
Abstract.
Chang, Preparation and characterization of forsterite (Mg2SiO4) bioceramics, Ceramics International. 33 (2007) 83-88
Cavin, Poly(methacrylate) precursor to forsterite, Journal of American Ceramic Society. 75 (1992) 1831-1838
Rao D, Investigation on mechanical properties of A356 nanocomposites fabricated by ultrasonic assisted cavitaion, Journal of Mechanical Engineering. 41 (2) (2010) 121-129
Hench, Bioceramics: From concept to clinic, Journal of American Ceramic Society. 74 (1991) 1487-1506
Chang, Preparation and characterization of forsterite (Mg2SiO4) bioceramics, Ceramics International. 33 (2007) 83-88
Cavin, Poly(methacrylate) precursor to forsterite, Journal of American Ceramic Society. 75 (1992) 1831-1838
Rao D, Investigation on mechanical properties of A356 nanocomposites fabricated by ultrasonic assisted cavitaion, Journal of Mechanical Engineering. 41 (2) (2010) 121-129
Hench, Bioceramics: From concept to clinic, Journal of American Ceramic Society. 74 (1991) 1487-1506
Online since: September 2015
Authors: Abul Kalam Azad, Aminul Islam, Lim Chee Lim, Daniel Setsoafia, Peter Hing, Andrew Jung
Ceramics International, 2012. 38(3): p. 2403-2409
Materials Science and Engineering: B, 2007. 137(1-3): p. 24-30
International Journal of Hydrogen Energy, 2010. 35 (1): p. 294-300
Journal of Advanced Ceramics, 2012. 1 (2): p. 150-156
Journal of Advanced Ceramics, 2013. 1 (4): p. 327-335
Materials Science and Engineering: B, 2007. 137(1-3): p. 24-30
International Journal of Hydrogen Energy, 2010. 35 (1): p. 294-300
Journal of Advanced Ceramics, 2012. 1 (2): p. 150-156
Journal of Advanced Ceramics, 2013. 1 (4): p. 327-335
Online since: October 2011
Authors: Yu Mei Bao, Guo Zhong Chai, Jun Lv, Ying Jun Zhang, Mei Feng Xu
International Journal of Engineering Science, 2011; 49: 85-104
Engineering Fracture Mechanics. 1981;15(1-2):185-192
Engineering Fracture Mechanics. 1999; 63(5):541-556
Engineering Fracture Mechanics. 1999;63(5):523-540
Engineering Fracture Mechanics. 1999;63(5):503-522
Engineering Fracture Mechanics. 1981;15(1-2):185-192
Engineering Fracture Mechanics. 1999; 63(5):541-556
Engineering Fracture Mechanics. 1999;63(5):523-540
Engineering Fracture Mechanics. 1999;63(5):503-522
Online since: June 2010
Authors: Xi Peng Xu, Hui Huang, Guo Qing Zhang
Huang: Key Engineering Materials, Vol. 404 (2009), p.11
[2] H.
Hu, and et al: Journal of Superhard Materials Engineering, Vol. 20 No.1 (2008), p.45 [4] K.
Kanayama: Journal of Japan Society of Mechanical Engineering, Vol. 60 No.573 (1994), p.1818 [5] G.Q.
Xu: Key Engineering Materials, Vols. 389-390 (2009), p.436 [6] J.C.
Sung: International Journal of Refractory Metals & Hard Materials, Vol. 27 (2009), p.382 [7] H.Y.
Hu, and et al: Journal of Superhard Materials Engineering, Vol. 20 No.1 (2008), p.45 [4] K.
Kanayama: Journal of Japan Society of Mechanical Engineering, Vol. 60 No.573 (1994), p.1818 [5] G.Q.
Xu: Key Engineering Materials, Vols. 389-390 (2009), p.436 [6] J.C.
Sung: International Journal of Refractory Metals & Hard Materials, Vol. 27 (2009), p.382 [7] H.Y.