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Online since: May 2016
Authors: Bambang Sunendar, Arief Cahyanto, Zulia Hasratiningsih, Renny Febrida, Nina Djustiana, Veni Takarini, Elin Karlina, Andri Hardiansyah
Sekeloa Selatan I, Bandung, West Java 40132, Indonesia
2Department of Metallurgy and Materials Engineering, Faculty of Engineering and Design, Institute of Technology and Science of Bandung, Bekasi, 17530, Indonesia
3Lab Advanced Materials, Engineering Physics Department, Institute Technology of Bandung, Jl.
Prosiding 9th International Dental Federation-Indonesia Dental Association Joint Meeting Proceeding Book. (2013) 23-28
Dental ceramics: an update.
Journal of the American Dental Association. 134(10) (2003) 1382–1390
International Journal of Dentistry. 2012 (2011)
Prosiding 9th International Dental Federation-Indonesia Dental Association Joint Meeting Proceeding Book. (2013) 23-28
Dental ceramics: an update.
Journal of the American Dental Association. 134(10) (2003) 1382–1390
International Journal of Dentistry. 2012 (2011)
Online since: October 2006
Authors: R. Pailler, Jacques Lamon, J.C. Ichard
Ceramic Matrix Composite With Increased Thermal Conductivity
J-C.
Christin, Design, fabrication and fabrication of thermostructural composites like C/C C/SiC, and SiC/SiC composites, Advanced Engineering Materials 2002 ,4 ,n°12 , 903-912
Proceeding of the 5th International Conference on High Temperature Ceramic Matrix Composites 5, the American Ceramic Society, Westerville, Ohio
[6] D.Brewer, Materials Science and Engineering A, 261, 1999, 284-291
[11] M.Singh and D.R.Behrendt, Journal of Materials Synthesis and Processing, 2, 2, 1994, 117- 123.
Christin, Design, fabrication and fabrication of thermostructural composites like C/C C/SiC, and SiC/SiC composites, Advanced Engineering Materials 2002 ,4 ,n°12 , 903-912
Proceeding of the 5th International Conference on High Temperature Ceramic Matrix Composites 5, the American Ceramic Society, Westerville, Ohio
[6] D.Brewer, Materials Science and Engineering A, 261, 1999, 284-291
[11] M.Singh and D.R.Behrendt, Journal of Materials Synthesis and Processing, 2, 2, 1994, 117- 123.
Online since: January 2022
Authors: J. Allen Jeffrey, V. Anusha Roseline, S. Suresh Kumar, A. Lazar Mary, D. Santhosh
Anusha Roseline3, A.Lazar Mary4
and D.Santhosh5
1,3,4,5Department of Mechanical Engineering, Loyola Institute of Technology,
Palanchur Chennai-123, India
2Department of Mechanical Engineering, Panimalar Polytechnic College, Chennai- 29, India
ajeffyresearch@gmail.com, b*sandysureesh@gmail.com
Keywords: AZ91, Boron carbide, Magnesium Metal Matrix Composites, Stir Casting.
Abstract: In modern engineering low-density composites plays a vital role of which magnesium alloys are very effective due to its high strength with better corrosion resistance and neat cast ability.
Furthermore scanning electron microscopy is used for examining the distribution of the used ceramic.
[4] R.Praveenkumar, P.Periyasamy, V.Mohanavel, M.M.Ravikumar “Mechanical and Tribological Behavior of Mg- Matrix Composites Manufactured by Stir Casting” International Journal of Vehicle Structure & Systems, 12(1) (2020) PP:13-16
Dinaharan, Ravi Kumar, E.T.Akinlabi "Microstructure and mechanical characterization of friction stir welded high strength low alloy steels" Materials Science & Engineering A, 687, (2017) PP: 39–46
Abstract: In modern engineering low-density composites plays a vital role of which magnesium alloys are very effective due to its high strength with better corrosion resistance and neat cast ability.
Furthermore scanning electron microscopy is used for examining the distribution of the used ceramic.
[4] R.Praveenkumar, P.Periyasamy, V.Mohanavel, M.M.Ravikumar “Mechanical and Tribological Behavior of Mg- Matrix Composites Manufactured by Stir Casting” International Journal of Vehicle Structure & Systems, 12(1) (2020) PP:13-16
Dinaharan, Ravi Kumar, E.T.Akinlabi "Microstructure and mechanical characterization of friction stir welded high strength low alloy steels" Materials Science & Engineering A, 687, (2017) PP: 39–46
Online since: July 2014
Authors: N.S. Pawar, R.R. Lakhe, R.L. Shrivastava
Introduction:
The main ideas behind development of new method have always been Endeavour of engineering personnel and scientists.
Elsevier, Journal of material processing technology 146 (2004) 234-240 ,Incheon, South Korea [2] Matthieu Barge, Jeol Rech, Hedi Hamdi, Jean-Michel Bergheau, Experimental study of abrasive process, elsevier,wear, Journal of science direct,98156 ,28 Aug 2006,pg 101-107 [3] Deng Jianxin, Liu Lili, Ding Mingwei, Sand erosion performance of SiC/ (W,Ti)C gradient ceramic nozzles by abrasive air-jets, elsevier ,materials and design, Journal of science direct 28 (2007) , pg 2099-2105 [4] Jianxin Deng, Xihua Zhang, Pingzhang Niu, Lili Liu, Jinghai Wang, wear of ceramic nozzles by dry and sand blasting, elsevier, Tribology International 29 (2006), pg 274- 280 [5] Deng Jianxin, Feng Yihua, Ding Zeling, Shi Peiwei, wear bahavier of ceramic nozzles in sand blasting treatments, elsevier, Journal of European ceramic society 23 (2003), pg 323-329 [6] M.
Kanzaki, effect of workpiece properties on machinability in abrasive jet machining of ceramic materials, elsevier, journal of the international societies for precision engineering and nanotechnology 26 (2002), pg 193-198 [7] R.
[8] Manabu Wakuda, Yukihiko Yamauchi, Shuzo kanzaki, material response to particle impact during abrasive jet machining of alumina ceramics, ELSEVIER, the journal of material processing technology 132, (2033), pg 177-183 [9] A.EI- Domiaty, H.M.Abd EI-Hafez, and M.A.shaker, drilling glass sheet by abrasive jet machining , world academic science engineering and technology 56 (2009), 61-67 [10] S.paul,A.M.Hoogstrate,C.A.van Luttervelt, H.J.J.Kals, an experimental investigation of rectangular pocket milling with abrasive water jet , elsevier, the journal of material processing Technology 73 (1998), pg 179-188
Siores, W.C.K.Wong, kerf charecterstics in abrasive waterjet cutting of ceramic materials peergamon, published by Elsevier science ltd, pg 1201-1206 [15] P.K.Ray, A.K.Paul, some studies on abrasive jet machining, the journal of institution of engineer (India),vol 68,pg 27-30, 2 Nov 1997
Elsevier, Journal of material processing technology 146 (2004) 234-240 ,Incheon, South Korea [2] Matthieu Barge, Jeol Rech, Hedi Hamdi, Jean-Michel Bergheau, Experimental study of abrasive process, elsevier,wear, Journal of science direct,98156 ,28 Aug 2006,pg 101-107 [3] Deng Jianxin, Liu Lili, Ding Mingwei, Sand erosion performance of SiC/ (W,Ti)C gradient ceramic nozzles by abrasive air-jets, elsevier ,materials and design, Journal of science direct 28 (2007) , pg 2099-2105 [4] Jianxin Deng, Xihua Zhang, Pingzhang Niu, Lili Liu, Jinghai Wang, wear of ceramic nozzles by dry and sand blasting, elsevier, Tribology International 29 (2006), pg 274- 280 [5] Deng Jianxin, Feng Yihua, Ding Zeling, Shi Peiwei, wear bahavier of ceramic nozzles in sand blasting treatments, elsevier, Journal of European ceramic society 23 (2003), pg 323-329 [6] M.
Kanzaki, effect of workpiece properties on machinability in abrasive jet machining of ceramic materials, elsevier, journal of the international societies for precision engineering and nanotechnology 26 (2002), pg 193-198 [7] R.
[8] Manabu Wakuda, Yukihiko Yamauchi, Shuzo kanzaki, material response to particle impact during abrasive jet machining of alumina ceramics, ELSEVIER, the journal of material processing technology 132, (2033), pg 177-183 [9] A.EI- Domiaty, H.M.Abd EI-Hafez, and M.A.shaker, drilling glass sheet by abrasive jet machining , world academic science engineering and technology 56 (2009), 61-67 [10] S.paul,A.M.Hoogstrate,C.A.van Luttervelt, H.J.J.Kals, an experimental investigation of rectangular pocket milling with abrasive water jet , elsevier, the journal of material processing Technology 73 (1998), pg 179-188
Siores, W.C.K.Wong, kerf charecterstics in abrasive waterjet cutting of ceramic materials peergamon, published by Elsevier science ltd, pg 1201-1206 [15] P.K.Ray, A.K.Paul, some studies on abrasive jet machining, the journal of institution of engineer (India),vol 68,pg 27-30, 2 Nov 1997
Online since: August 2009
Authors: Hong Li Liu, Chun Ying Tian
Fabrication of self-healing ceramic coating against oxidation for
carbon/carbon composite using polysilazane and fillers
Liu Hongli a*, Tian Chunying b
College of Materials Science and Engineering, Jiamusi University, Jiamusi 154007, China
a
*corresponding author, email: lhl@mse.buaa.edu.cn
b
email: tcywkx@126.com
Keywords: Preceramic polymer, Anti oxidation coating, C/C composite, Fillers
Abstract.
There are two kinds of crystalline phases characterized with particulate and amorphous ceramic.
Schwarz: Journal of Nuclear Materials Vol. 367 (2007), p. 1139 [3] H.
Oteo: Journal of the European Ceramic Society, Vol. 28 (2008), p. 1871 [5] Yan Ma, Qing-Song Ma, Jun Suo, Zhao-Hui Chen: Ceramics International Vol. 34 (2008), p. 253 [6] H.
Chen: Rare Metal Materials and Engineering Vol.35 No.1 (2006), p.134
There are two kinds of crystalline phases characterized with particulate and amorphous ceramic.
Schwarz: Journal of Nuclear Materials Vol. 367 (2007), p. 1139 [3] H.
Oteo: Journal of the European Ceramic Society, Vol. 28 (2008), p. 1871 [5] Yan Ma, Qing-Song Ma, Jun Suo, Zhao-Hui Chen: Ceramics International Vol. 34 (2008), p. 253 [6] H.
Chen: Rare Metal Materials and Engineering Vol.35 No.1 (2006), p.134
Online since: September 2024
Authors: Alianna Ronquillo, Maria Angelica Reyes, Denisse Jonel Pavia, Aljohn Punongbayan, Eduardo R. Magdaluyo Jr.
Kim, Test and estimation of ballistic armor performance for recent naval ship structural materials, International Journal of Naval Architecture and Ocean Engineering 10 (2018) 762-781
Zhikharev, Fragment ballistic performance of homogenous and hybrid thermoplastic composites, International Journal of Impact Engineering 81 (2015) 8–16
Bhatnagar, Ballistic evaluation of steel/UHMWPE composite armor system against hardened steel core projectiles, International Journal of Impact Engineering 164 (2022) 1-13
Bergmann, Ballistic ceramics and analysis of their mechanical properties for armour applications: a review, Ceramics International 47(7) (2021) 8743–8761
Lin, Ballistic impact performance of SiC Ceramic-Dyneema fiber composite materials, Advances in Materials Science and Engineering 2020 (2020) 1–9
Zhikharev, Fragment ballistic performance of homogenous and hybrid thermoplastic composites, International Journal of Impact Engineering 81 (2015) 8–16
Bhatnagar, Ballistic evaluation of steel/UHMWPE composite armor system against hardened steel core projectiles, International Journal of Impact Engineering 164 (2022) 1-13
Bergmann, Ballistic ceramics and analysis of their mechanical properties for armour applications: a review, Ceramics International 47(7) (2021) 8743–8761
Lin, Ballistic impact performance of SiC Ceramic-Dyneema fiber composite materials, Advances in Materials Science and Engineering 2020 (2020) 1–9
Online since: August 2013
Authors: W.D. Teng, Ramesh Singh, Sutharsini Ubenthiran, C.Y. Tan
Teng2,d
1Centre of Advanced Manufacturing & Material Processing (AMMP), Department of Mechanical Engineering, Faculty of Engineering, University of Malaya, 50603 Kuala Lumpur, Malaysia.
2Ceramics Technology Group, SIRIM Berhad,40911 Shah Alam, Malaysia
aubsutharsini@gmail.com, bramesh79@um.edu.my, cchouyong@um.edu.my, dwdteng@sirim.my
Keywords: Zirconia, Ageing, Argon gas sintering, PL spectrum and oxygen vacancy.
Stevens, Tetragonal zirconia polycrystal (TZP)—A review, International Journal of High Technology Ceramics, 3(1) (1987)1-32
Lawson, Environmental degradation of zirconia ceramics, Journal of the European Ceramic Society, 15 (1995) 485-502
Mazieres, Nature and Thermal Evolution of Amorphous Hvdrated Zirconium Oxide, Journal of the American Ceramic Society, 51 (1968) 349-353
Somiya, Quantitative Analysis of Monoclinic-Stabilized Cubic ZrO2 Systems by X-Ray Diffraction, Journal of the American Ceramic Society, 67 (9) (1984) C-183-C-184
Stevens, Tetragonal zirconia polycrystal (TZP)—A review, International Journal of High Technology Ceramics, 3(1) (1987)1-32
Lawson, Environmental degradation of zirconia ceramics, Journal of the European Ceramic Society, 15 (1995) 485-502
Mazieres, Nature and Thermal Evolution of Amorphous Hvdrated Zirconium Oxide, Journal of the American Ceramic Society, 51 (1968) 349-353
Somiya, Quantitative Analysis of Monoclinic-Stabilized Cubic ZrO2 Systems by X-Ray Diffraction, Journal of the American Ceramic Society, 67 (9) (1984) C-183-C-184
Online since: September 2023
Authors: Rahul K. Singh, Mrityunjay Kumar, Sumit K. Roy
Materials Science and Engineering: B, 292, 116421
Journal of alloys and compounds, 509(17), 5326-5335
Journal of applied crystallography, 44(6), 1272-1276
Ceramics International, 39(5), 4877-4886
Journal of Electroceramics, 14, 53-58
Journal of alloys and compounds, 509(17), 5326-5335
Journal of applied crystallography, 44(6), 1272-1276
Ceramics International, 39(5), 4877-4886
Journal of Electroceramics, 14, 53-58
Online since: August 2018
Authors: Fu Tian Liu, Lu Ping Yang, Yang Wang, Kai Jiang, Fang Hong Yang, Chang Ling Zhou, Yan Yan Wang
Ceramics International, 32 (2006) 417-421
Materials Science and Engineering A 485 (2008) 415-421
Journal of the European Ceramic Society 33 (2013) 423–432
Ceramics International 40 (3) (2014) 4707-4715
Ceramics International 40 (7,part A) (2014) 9087-9094
Materials Science and Engineering A 485 (2008) 415-421
Journal of the European Ceramic Society 33 (2013) 423–432
Ceramics International 40 (3) (2014) 4707-4715
Ceramics International 40 (7,part A) (2014) 9087-9094
Online since: January 2013
Authors: Zhi Peng Du, Fang Yun Lu, Yu Wang, Jian Ye Du, Lei Zhang, Peng Duo Zhao
The split Hopkinson pressure bar has been widely used and modified to determine the dynamic properties of a variety of engineering materials, such as metals [4-7], concrete[8-10], ceramics[11-13].
Yang, Constitutive equation for Ti-6Al-4V at high temperatures measured using the SHPB technique, International Journal of Impact Engineering. 31(2005) 735-754
Zhou, Dynamic behavior of concrete at high strain rates and pressures: I. experimental characterization, International Journal of Impact Engineering. 25(2001) 869-886
Subhash, Critical appraisal of limiting strain rates for compression testing of ceramics in a split Hopkinson pressure bar, Journal of the American Ceramic Society. 77(1994) 263-267
Tan, Specimen Stress Equilibrium in Split Hopkinson Pressure Bar Tests of Ceramics at High Strain Rate, Mechanical Properties and Performance of Engineering Ceramics and Composites VI. 2011) 53-66
Yang, Constitutive equation for Ti-6Al-4V at high temperatures measured using the SHPB technique, International Journal of Impact Engineering. 31(2005) 735-754
Zhou, Dynamic behavior of concrete at high strain rates and pressures: I. experimental characterization, International Journal of Impact Engineering. 25(2001) 869-886
Subhash, Critical appraisal of limiting strain rates for compression testing of ceramics in a split Hopkinson pressure bar, Journal of the American Ceramic Society. 77(1994) 263-267
Tan, Specimen Stress Equilibrium in Split Hopkinson Pressure Bar Tests of Ceramics at High Strain Rate, Mechanical Properties and Performance of Engineering Ceramics and Composites VI. 2011) 53-66