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Online since: September 2013
Authors: Yun Gang Li, Xiao Liu, Zong Ying Cai, Yu Bo
Thus it can be used as glaze of ceramic [11].
Nuclear power engineering, 2008,29(NO.3):48(in Chinese) [6] Xueyou Ren.
Journal of Alloys and Compounds,2009,4(NO.6) : 571
Journal of Alloys and Compounds,2002,350(NO.2003):184
Journal of Guangdong Non-Ferrous Metals, 2001, 11(NO.2):115-118(in Chinese) [27] Yulu Yang.
Nuclear power engineering, 2008,29(NO.3):48(in Chinese) [6] Xueyou Ren.
Journal of Alloys and Compounds,2009,4(NO.6) : 571
Journal of Alloys and Compounds,2002,350(NO.2003):184
Journal of Guangdong Non-Ferrous Metals, 2001, 11(NO.2):115-118(in Chinese) [27] Yulu Yang.
Online since: October 2014
Authors: Bart Blanpain, Lieven Machiels, Peter Tom Jones, Yiannis Pontikes, Lubica Kriskova
Journal of American Ceramic Society, 2012. 95(10): p. 3270–3277
Journal of the European Ceramic Society, 2006. 26(16): p. 3789-3797
International Journal of Mineral Processing, 2012. 112-113: p. 101-106
Kriven, Preparation of ceramic foams from metakaolin-based geopolymer gels Ceramic Engineering and Science Proceedings, 2010. 29(10): p. 97-112
Journal of American Ceramic Society, 2012. 95(7): p. 2169-2177
Journal of the European Ceramic Society, 2006. 26(16): p. 3789-3797
International Journal of Mineral Processing, 2012. 112-113: p. 101-106
Kriven, Preparation of ceramic foams from metakaolin-based geopolymer gels Ceramic Engineering and Science Proceedings, 2010. 29(10): p. 97-112
Journal of American Ceramic Society, 2012. 95(7): p. 2169-2177
Online since: December 2019
Authors: Masayuki Arai, Ryuta Nakajima, Kiyohiro Ito, Hiroaki Katori
Comprehensive Numerical Simulation on Thermally Grown Oxide and Internal Stress Evolutions in Thermal Barrier Coatings
Ryuta Nakajima1,a, Hiroaki Katori1,b, Masayuki Arai2,c and Kiyohiro Ito2,d
1Graduate School of Mechanical Engineering, Tokyo University of Science, 6-3-1, Niijyuku, Katsushika-ku, Tokyo, 125-8585, Japan
2Department of Mechanical Engineering, Faculty of Engineering, Tokyo University of Science,
6-3-1, Niijuku, Katsushika-ku, Tokyo, 125-8585, JAPAN
a4518542@ed.tus.ac.jp, b4517612@ed.tus.ac.jp, cmarai@rs.tus.ac.jp, dkiyohiro@rs.tus.ac.jp
Keywords: Gas Turbine, Thermal Barrier Coatings, Finite Element Method, Thermally Grown Oxide
Abstract.
Gupta, Journal of Engineering for Gas Turbine and Power, Vol. 110 (1988), pp.605-609
Hille et al., Engineering Fracture Mechanics, Vol.78 (2011), pp.2139-2152
Yaguchi et al., International Journal of Plasticity, Vol. 18, No.8 (2002), pp.1111-1131
Katori, M, Arai and K.Ito, Key Engineering Materials, Vol.774 (2018), pp.137-142.
Gupta, Journal of Engineering for Gas Turbine and Power, Vol. 110 (1988), pp.605-609
Hille et al., Engineering Fracture Mechanics, Vol.78 (2011), pp.2139-2152
Yaguchi et al., International Journal of Plasticity, Vol. 18, No.8 (2002), pp.1111-1131
Katori, M, Arai and K.Ito, Key Engineering Materials, Vol.774 (2018), pp.137-142.
Online since: April 2005
Authors: Francisco H.Lanna Wykrota, Carlos Antônio Garrido, Leonardo Lanna Wykrota
The attached table shows that,
according to clinical-radiological development, it was verified
that the infectious status was solved in all cases, with
the ceramic having proven to be a good carrier and releaser
for drugs.
Journal of Materials Science Materials in Medicine, vol. 03: 412-417, 1992. 04 - Gauthier, O., Bouler, J.
H.: Potencial, of Ceramic Materials as Permanently Implantable Skeletal Protheses, Biomed.
Orthopaedics Today International, vol. 05, nº 04: 06-07 august 2002. 10 - Ripamonti, U.: Bone induction in nonhuman primates, an experimental study on the baboon (Papio ursinus).
A.: Bone Engineering.
Journal of Materials Science Materials in Medicine, vol. 03: 412-417, 1992. 04 - Gauthier, O., Bouler, J.
H.: Potencial, of Ceramic Materials as Permanently Implantable Skeletal Protheses, Biomed.
Orthopaedics Today International, vol. 05, nº 04: 06-07 august 2002. 10 - Ripamonti, U.: Bone induction in nonhuman primates, an experimental study on the baboon (Papio ursinus).
A.: Bone Engineering.
Online since: June 2010
Authors: Hui-Suk Yun
Bandyopadhyay: Materials Science and Engineering C,
Vol. 23 (2003), p. 611
[20] H.
Ramakrishna: Tissue engineering, Vol. 12 (2006), p. 435 [23] F.
Hyun: Key Engineering Materials, Vol. 361-363 (2008), p. 285 [49] H.
Hyun: Journal of Korean Ceramic Society, Vol. 45 (2008), p. 631 [50] H.
Hench: Journal of America Ceramic Society, Vol. 81 (1998), p. 1705 [73] M.
Ramakrishna: Tissue engineering, Vol. 12 (2006), p. 435 [23] F.
Hyun: Key Engineering Materials, Vol. 361-363 (2008), p. 285 [49] H.
Hyun: Journal of Korean Ceramic Society, Vol. 45 (2008), p. 631 [50] H.
Hench: Journal of America Ceramic Society, Vol. 81 (1998), p. 1705 [73] M.
Online since: September 2015
Authors: Pei Leng Teh, Yeoh Cheow Keat, Joon Hoong Lim, Chik Abdullah
Rizzi, Journal Applied Physic, 74 (1993), 247–248
Brinkman, Journal Crystal Growth, 159 (1996), 210–213
Kim, Journal of the European Ceramic Society, 25(2005), 2161-2165
Mrotzek, Materials Science and Engineering: B, 104 (2003), 45-48 [20] H.
Ma Ceramics International, 35(2009), 3067-3072.
Brinkman, Journal Crystal Growth, 159 (1996), 210–213
Kim, Journal of the European Ceramic Society, 25(2005), 2161-2165
Mrotzek, Materials Science and Engineering: B, 104 (2003), 45-48 [20] H.
Ma Ceramics International, 35(2009), 3067-3072.
Online since: October 2010
Authors: Wei Li, Qian Jun Tian
References
[1] Eun-Sang Lee, Sang-Ook Ahn: International Journal of Machine Tools & Manufacture.
Corbett: Precision Engineering.
Ohmori: International Journal of Machine Tools & Manufacture.
Vol.39 (1999), p. 839–853 [5] Li, Wei; Song, Zhiyang; Yu, Tianming: Key Engineering Materials.
Pei: International Journal of Machine Tools & Manufacture.
Corbett: Precision Engineering.
Ohmori: International Journal of Machine Tools & Manufacture.
Vol.39 (1999), p. 839–853 [5] Li, Wei; Song, Zhiyang; Yu, Tianming: Key Engineering Materials.
Pei: International Journal of Machine Tools & Manufacture.
Online since: September 2021
Authors: Ojo Sunday Issac Fayomi, Benedict Uche Anyanwu, Mojisola Olubunmi Nkiko, Sode Adedamola Ayodeji, Khadijah Tolulope Dauda
Journal of Engineering Science and Technology, 7(4), (2012) 517–518
Ceramics International, 35(8), (2009) 3407–3410
International Journal of Electrochemical Science, 3, (2008).806–818
International Journal of Scientific and Engineering Research, 8(4), (2013) 12-18
International Journal of Current Engineering and Technology, 5(2), (2015)700-703
Ceramics International, 35(8), (2009) 3407–3410
International Journal of Electrochemical Science, 3, (2008).806–818
International Journal of Scientific and Engineering Research, 8(4), (2013) 12-18
International Journal of Current Engineering and Technology, 5(2), (2015)700-703
Online since: April 2023
Authors: Emad K. Al-Shakarchi, Zaid K. Alkaabi
XRD results show that the resulting material is identical to that found in global data derived from International Diffraction Center data.
Phase formation and microstructure of gamma irradiated Bi-2223 Superconductor Materials Science and Engineering 298 012021 [5] V.Grnier,R.caillard,G.desgardin,(2001) (Bi−Pb)2Sr2Ca2Cu3O10+6 ceramic synthesized using a polymer matrix method, Journal of the European Ceramic Society 21, 1139−1142 [6] N.
Improvement of superconducting Heating and Cooling Bi2Ba2Ca2Cu3O10+δ Ceramic by prepared under different pressure, Energy Procedia 157, 222-227 [8] Suazlina, M.
Jurnal Teknologi (Sciences and Engineering). 69(2), 49-52
Journal of aerosol science 22.5 (1991): 585-599
Phase formation and microstructure of gamma irradiated Bi-2223 Superconductor Materials Science and Engineering 298 012021 [5] V.Grnier,R.caillard,G.desgardin,(2001) (Bi−Pb)2Sr2Ca2Cu3O10+6 ceramic synthesized using a polymer matrix method, Journal of the European Ceramic Society 21, 1139−1142 [6] N.
Improvement of superconducting Heating and Cooling Bi2Ba2Ca2Cu3O10+δ Ceramic by prepared under different pressure, Energy Procedia 157, 222-227 [8] Suazlina, M.
Jurnal Teknologi (Sciences and Engineering). 69(2), 49-52
Journal of aerosol science 22.5 (1991): 585-599
Online since: February 2024
Authors: Oleksandr Umanskyi, Oleksandr Terentyev, Oleksiy Melnyk, Maryna Storozhenko, Oleksandr Koval, Oleksandr Chernyshov, Tatiana Chevychelova, Valera Brazhevsky, Viktor Varchenko
Thermally sprayed cermet coatings are widely used in many engineering applications to protect against wear and corrosion.
Pawlowski, The science and engineering of thermal spray coatings, Wiley, Chichester 1995
Berger, Application of hardmetals as thermal spray coatings, International Journal of Refractory Metals and Hard Materials 49 (2015) 350–364
Kolaska, The history of the technological progress of hardmetals, International Journal of Refractory Metals and Hard Materials 44 (2014) 148–159
Dumpala, Carbide-based thermal spray coatings: A review on performance characteristics and post-treatment, International Journal of Refractory Metals and Hard Materials 103 (2022) 105772
Pawlowski, The science and engineering of thermal spray coatings, Wiley, Chichester 1995
Berger, Application of hardmetals as thermal spray coatings, International Journal of Refractory Metals and Hard Materials 49 (2015) 350–364
Kolaska, The history of the technological progress of hardmetals, International Journal of Refractory Metals and Hard Materials 44 (2014) 148–159
Dumpala, Carbide-based thermal spray coatings: A review on performance characteristics and post-treatment, International Journal of Refractory Metals and Hard Materials 103 (2022) 105772