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Online since: July 2011
Authors: Guang Yong Wu, Yong Lian Zhang, Chong Hai Xu, Ming Dong Yi, Bin Fang
Research and Development of Design Technologies for Functionally Gradient Ceramic Materials
Yonglian Zhang1, a, Chonghai Xu1,2, b, Guangyong Wu1, c, Mingdong Yi2, d
and Bin Fang1, e
1School of Mechanical Engineering, Shandong Polytechnic University, Jinan, Shandong, 250353, China
2School of Mechanical Engineering, Shandong University, Jinan, Shandong, 250061, China
azhangyonglian2009@126.com, b xch@spu.edu.cn, c gywu168@sina.com, d new-raul@163.com, e fb@spu.edu.cn
Keywords: Functionally Gradient Ceramic Material, Material design technology, Research progress
Abstract.
Yang, Development of SiC/(W,Ti)C gradient ceramic nozzle materials for sand blasting surface treatments, International Journal of Refractory Metals and Hard Material. 25 (2007) 130-137
Han, Structure optimization of PSZ/Mo functionally gradient materials, Materials for Mechanical Engineering. 27 (2003) 14-16 (In Chinese)
Tsakiropoulous, On the mean internal stresses in two-ductile-phase alloys, Materials Science and Engineering: A. 184 (1994) 57-64
Han, Finite element analysis calculation of PSM/Mo functionally graded materials, Rare Metal Materials and Engineering. 36 (2007) 837-840 (In Chinese)
Yang, Development of SiC/(W,Ti)C gradient ceramic nozzle materials for sand blasting surface treatments, International Journal of Refractory Metals and Hard Material. 25 (2007) 130-137
Han, Structure optimization of PSZ/Mo functionally gradient materials, Materials for Mechanical Engineering. 27 (2003) 14-16 (In Chinese)
Tsakiropoulous, On the mean internal stresses in two-ductile-phase alloys, Materials Science and Engineering: A. 184 (1994) 57-64
Han, Finite element analysis calculation of PSM/Mo functionally graded materials, Rare Metal Materials and Engineering. 36 (2007) 837-840 (In Chinese)
Online since: June 2013
Authors: Zhao Xian Xiong, Hao Xue, Guo Feng Zhang, Bai Qiang You, Jin Bao Huang, Qiang Zheng
Dielectric Properties and Microstrip Patch Antenna Performances
of 0.95MgTiO3-0.05CaTiO3 Microwave Ceramics
Zhaoxian Xiong1,a, Guofeng Zhang1,b, Hao Xue1,c, Jinbao Huang1,d,
Qiang Zheng1,e and Baiqiang You2,f
1College of Materials, Xiamen University, Xiamen, Fujian, 361005, China
2School of Information Science and Engineering, Xiamen University, Xiamen, Fujian, 361005, China
azxxiong@xmu.edu.cn, bzhangguofeng.ok@163.com, cxuehao@xmu.edu.cn,
ddaganghuang@126.com, ezq427889@163.com, fyouzhou@xmu.edu.cn
Keywords: Microwave Ceramics, Microstrip Patch Antenna, Bandwidth
Abstract.
It is found that MgTiO3 ceramics possessed values of εr = 17, Q×f = 160000GHz and τf = 0ppm/oC [3]; meanwhile, the CaTiO3 ceramics behaved properties of εr = 170, Q×f = 3600GHz and τf = 800ppm/oC [4].
Raghavan: International Journal of Electronics and Communications Vol. 63 (2009), p. 653-659
Olds: Journal of the American Ceramic Society Vol. 56 (1973), p. 352
Chien: Journal of Alloys and Compounds Vol. 471 (2009), p. 347-351
It is found that MgTiO3 ceramics possessed values of εr = 17, Q×f = 160000GHz and τf = 0ppm/oC [3]; meanwhile, the CaTiO3 ceramics behaved properties of εr = 170, Q×f = 3600GHz and τf = 800ppm/oC [4].
Raghavan: International Journal of Electronics and Communications Vol. 63 (2009), p. 653-659
Olds: Journal of the American Ceramic Society Vol. 56 (1973), p. 352
Chien: Journal of Alloys and Compounds Vol. 471 (2009), p. 347-351
Online since: October 2012
Authors: Iis Sopyan, Ramesh Singh, M.A. Hassan, K.Y. Sara Lee, K.M. Christopher Chin, C.Y. Tan, J. Purbolaksono, W.D. Teng
Effect of Ultrasonication on Synthesis of Forsterite Ceramics
K.
Sopyan4,h 1Centre of Advanced Manufacturing and Material Processing, Department of Engineering Design and Manufacture, University of Malaya, 50603 Kuala Lumpur, Malaysia 2Ceramics Technology Laboratory, Universiti Tenaga Nasional, 43009 Selangor, Malaysia 3Ceramics Technology Group, SIRIM Berhad, 1 Persiaran Dato Menteri, Shah Alam, Malaysia 4Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia (IIUM), 50728 Kuala Lumpur, Malaysia akityee7@siswa.um.edu.my, bchrisckm@siswa.um.edu.my, cramesh79@um.edu.my, dchouyong@uniten.edu.my, emohsenegypt@um.edu.my, fjudah@um.edu.my, gwdteng@sirim.my, hsopyan@iium.edu.my Keywords: Forsterite, Material processing, Ultrasonic, XRD.
Kharaziha "Mechanochemical synthesis and characterization of nanostructure forsterite bioceramics", International Journal of Modern Physics.
Chang "Preparation and characterization of forsterite (Mg2SiO3) bioceramics", Ceramics International. 33 (2007) 83-88
D "Investigation on mechanical properties of A356 nanocomposites fabricated by ultrasonic assisted cavitation", Journal of Mechanical Engineering. 41(2) (2010) 121-129
Sopyan4,h 1Centre of Advanced Manufacturing and Material Processing, Department of Engineering Design and Manufacture, University of Malaya, 50603 Kuala Lumpur, Malaysia 2Ceramics Technology Laboratory, Universiti Tenaga Nasional, 43009 Selangor, Malaysia 3Ceramics Technology Group, SIRIM Berhad, 1 Persiaran Dato Menteri, Shah Alam, Malaysia 4Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia (IIUM), 50728 Kuala Lumpur, Malaysia akityee7@siswa.um.edu.my, bchrisckm@siswa.um.edu.my, cramesh79@um.edu.my, dchouyong@uniten.edu.my, emohsenegypt@um.edu.my, fjudah@um.edu.my, gwdteng@sirim.my, hsopyan@iium.edu.my Keywords: Forsterite, Material processing, Ultrasonic, XRD.
Kharaziha "Mechanochemical synthesis and characterization of nanostructure forsterite bioceramics", International Journal of Modern Physics.
Chang "Preparation and characterization of forsterite (Mg2SiO3) bioceramics", Ceramics International. 33 (2007) 83-88
D "Investigation on mechanical properties of A356 nanocomposites fabricated by ultrasonic assisted cavitation", Journal of Mechanical Engineering. 41(2) (2010) 121-129
Online since: August 2017
Authors: Pat Sooksaen, Nawapan Saowaros, Khemphatsorn Ngamkaruhasereethorn, Angkoona Pringkasemchai
Photocatalytic Degradation Study of Titania Sol-Gel Coated
on Commercial Unglazed Ceramic Tiles
Pat Sooksaen1,2*, Nawapan Saowaros1,
Khemphatsorn Ngamkaruhasereethorn1, Angkoona Pringkasemchai1
1 Department of Materials Science and Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakhon Pathom 73000 Thailand
2 Center of Excellence for Petroleum, Petrochemicals and Advanced Materials, Chulalongkorn University, Bangkok, 10330, Thailand
* Corresponding author: sooksaen_p@su.ac.th
Keywords: sol-gel, titania, nanoparticles, photodegradation, ceramic
Abstract.
Acknowledgements This work is financially supported by Department of Materials Science and Engineering, Silpakorn University, THIALAND and Center of Excellence for Petroleum Petrochemicals and Advanced Materials, Chulalongkorn University, THAILAND.
Ferrari, Functionalization of ceramic tile surface by sol-gel technique, Journal of Colloid and Interface Science, 334 (2009), 195-201 [3] E.
Suwannasri, Sol–gel derived mesoporous titania nanoparticles: Effects of calcination temperature and alcoholic solvent on the photocatalytic behavior, Ceramics International 38 (2012), 2233–2237 [6] H.F.
Suen, Adsorption and photodegradation of methylene blue using a bulk Ti material with porous titania layer prepared by chemical oxidation, Journal of the Taiwan Institute of Chemical Engineers 45 (2014), 617-624 [7] A.
Acknowledgements This work is financially supported by Department of Materials Science and Engineering, Silpakorn University, THIALAND and Center of Excellence for Petroleum Petrochemicals and Advanced Materials, Chulalongkorn University, THAILAND.
Ferrari, Functionalization of ceramic tile surface by sol-gel technique, Journal of Colloid and Interface Science, 334 (2009), 195-201 [3] E.
Suwannasri, Sol–gel derived mesoporous titania nanoparticles: Effects of calcination temperature and alcoholic solvent on the photocatalytic behavior, Ceramics International 38 (2012), 2233–2237 [6] H.F.
Suen, Adsorption and photodegradation of methylene blue using a bulk Ti material with porous titania layer prepared by chemical oxidation, Journal of the Taiwan Institute of Chemical Engineers 45 (2014), 617-624 [7] A.
Online since: February 2024
Authors: Vira Bovda, Thomas Hafner, Jonas Hafner, Frank Kimm, Oleksandr Bovda, Oleksandr Kuprin, Kostiantyn Lentsov, Yriy Onyschuk, Bogdan Vasyliv, Oleksandr Shcheretsky, Ihor Vorona, Viktoriya Podhurska, Roman Yavetskiy, Anatoliy Pikalov, Andriy Tarasuk, Pavlo Schikhaylo
Siliconised silicon carbide or silicon infiltrated silicon carbide (SiSiC) covers up to 80 % of total engineering applications with high endurance and thermal stability.
The multidisciplinary approach included material science, structural engineering, ceramic materials and stone machining representatives.
Series: Materials Science and Engineering, 18 (2011) p. 162014
Raju, Processing and properties of macroporous silicon carbide ceramics: A review, Journal of Asian Ceramic Societies, 1 (2013) pp. 220-2042
Wang, Performance optimization of complicated structural SiC/Si composite ceramics prepared by selective laser sintering, Ceramics International, 46 (2022) 568-575
The multidisciplinary approach included material science, structural engineering, ceramic materials and stone machining representatives.
Series: Materials Science and Engineering, 18 (2011) p. 162014
Raju, Processing and properties of macroporous silicon carbide ceramics: A review, Journal of Asian Ceramic Societies, 1 (2013) pp. 220-2042
Wang, Performance optimization of complicated structural SiC/Si composite ceramics prepared by selective laser sintering, Ceramics International, 46 (2022) 568-575
Online since: June 2014
Authors: Zhi Jian Peng, Lin Feng Lan, Lei Wang, Jun Biao Peng, Ju Sheng Ma, Hong Long Ning
Interface Reaction Thermodynamics of AgCuTi Brazing Filler Metal and Alumina Ceramic
Honglong Ning1, a, Linfeng Lan 1,b, Lei Wang 1,c, Junbiao Peng 1,d ,
Zhijian Peng 2,e* and Jusheng Ma 3,f
1 State Key Laboratory of Luminescent Materials and Devices, Department of Materials Science and Engineering School, South China University of Technology, Guangzhou 510640, P.
China 2 School of Engineering and Technology, China University of Geosciences at Beijing, Beijing 100083, P.
China 3 Department of Materials Science and Engineering School, Tsinghua University, Beijing 10084, P.
Feng, Interlayer design to control interfacial microstructure and improve mechanical properties of active brazed Invar/SiO2–BN joint, Materials Science and Engineering: A. 575 (2013) 199-205
Han, Joining of sapphire and hot pressed Al2O3 using Ag70.5Cu27.5Ti2 filler metal, Ceramics international. 29 (2003),689-694
China 2 School of Engineering and Technology, China University of Geosciences at Beijing, Beijing 100083, P.
China 3 Department of Materials Science and Engineering School, Tsinghua University, Beijing 10084, P.
Feng, Interlayer design to control interfacial microstructure and improve mechanical properties of active brazed Invar/SiO2–BN joint, Materials Science and Engineering: A. 575 (2013) 199-205
Han, Joining of sapphire and hot pressed Al2O3 using Ag70.5Cu27.5Ti2 filler metal, Ceramics international. 29 (2003),689-694
Online since: May 2016
Authors: Wen Hong Tao, Xing Hua Fu, Yue Zhao, Duo Zhao, Guo Yuan Cheng, Li Ping Zhao, Wen Xin Ma
The Effect of Excess Sodium Element on KNN-BF Piezoelectric Ceramics
Duo Zhao1, Xinghua Fu1,a*, Guoyuan Cheng1, Wenhong Tao1,
YueZhao1, Liping Zhao1, Wenxin Ma1
1School of Material Science and Engineering, University of Jinan, Shandong, China, 250022
amse_fuxh@ujn.edu.cn
Keywords: piezoelectric ceramics; sol-gel method; excess Na-doped; microstructure and properties.
Materials Science and Engineering: C. 49 (2015) 851-60
Journal of Alloys and Compounds, 2011,(509):3537–3540
Ceramics International, 2013, (39): 65–69
Key Engineering Materials,2012,512:1399-1402
Materials Science and Engineering: C. 49 (2015) 851-60
Journal of Alloys and Compounds, 2011,(509):3537–3540
Ceramics International, 2013, (39): 65–69
Key Engineering Materials,2012,512:1399-1402
Online since: June 2013
Authors: Hui Shao, Gang Jian
Journal of the European Ceramic Society, 21 (2001) 1693-1697
Microelectronic Engineering, 88 (2011) 127-130
Research of LTCC/Cu, Ag multilayer substrate in microelectronic packaging [J].Materials Science and Engineering B, 94 (2002) 48-53
Influences of the Glass Phase on Densification, Microstructure, and Properties of Low-Temperature Co-Fired Ceramics [J].International journal of Applied Ceramic Technology, 6 (2006) 428-436
Ceramics International, 32 (2006) 471-474
Microelectronic Engineering, 88 (2011) 127-130
Research of LTCC/Cu, Ag multilayer substrate in microelectronic packaging [J].Materials Science and Engineering B, 94 (2002) 48-53
Influences of the Glass Phase on Densification, Microstructure, and Properties of Low-Temperature Co-Fired Ceramics [J].International journal of Applied Ceramic Technology, 6 (2006) 428-436
Ceramics International, 32 (2006) 471-474
Online since: October 2011
Authors: Shang Gao, Feng Wei Huo, Zhu Ji Jin, Zhan Chun Tao, Heng Zhen Dai
The tool A, not only scraped the reactant film on Al2O3 ceramic surface,but also scratched the ceramic surface and caused some surface damage.
Yoshikawa: Journal of Materials Processing Technology Vol. 132 (2003), p. 353 [2] M.Jiang,R.Komanduri,Chemical-mechanical polishing(CMP) in magnetic float polishing(MFP) of advanced ceramic (silicon nitride) and glass(silicon dioxide),Key Eng.Mater Vol1-14(2001),p.202-203 [3] F.
Eda: International Journal of Manufacturing Technology and Management Vol. 7 (2005), p. 441 [5] L.
Kamiya, etc: CIRP Annals- Manufacturing Technology Vol. 55 (2006), p. 313 [6] Nobuo Yasunaga: Journal of the Surface Science Society of Japan Vol. 22 (2001), p. 187 [7] N.
Yasunuga: Journal of Japan Society for Precision Engineering Vol. 44 (1978), p. 65 [8] Y.
Yoshikawa: Journal of Materials Processing Technology Vol. 132 (2003), p. 353 [2] M.Jiang,R.Komanduri,Chemical-mechanical polishing(CMP) in magnetic float polishing(MFP) of advanced ceramic (silicon nitride) and glass(silicon dioxide),Key Eng.Mater Vol1-14(2001),p.202-203 [3] F.
Eda: International Journal of Manufacturing Technology and Management Vol. 7 (2005), p. 441 [5] L.
Kamiya, etc: CIRP Annals- Manufacturing Technology Vol. 55 (2006), p. 313 [6] Nobuo Yasunaga: Journal of the Surface Science Society of Japan Vol. 22 (2001), p. 187 [7] N.
Yasunuga: Journal of Japan Society for Precision Engineering Vol. 44 (1978), p. 65 [8] Y.
Online since: December 2022
Authors: Konstantinos Dimitriadis, Simeon Agathopoulos
Shen, Laser sintering of ceramics, Journal of Asian Ceramic Societies 1 (2013) 315–321
Shi, Microstructure and mechanical properties of 3Y-TZP dental ceramics fabricated by selective laser sintering combined with cold isostatic pressing, International Journal of Lightweight Materials and Manufacture 1 (2018) 239-245
Mazzoli, Selective laser sintering in biomedical engineering.
Candiani (Eds.), Foundations of Biomaterials Engineering, Elsevier, Philadelphia, 2019, pp 199-287
Dalgarno, Fabrication of bioactive glass-ceramics by Selective Laser Sintering, Key Engineering Materials 309-311 (2006) 289-292
Shi, Microstructure and mechanical properties of 3Y-TZP dental ceramics fabricated by selective laser sintering combined with cold isostatic pressing, International Journal of Lightweight Materials and Manufacture 1 (2018) 239-245
Mazzoli, Selective laser sintering in biomedical engineering.
Candiani (Eds.), Foundations of Biomaterials Engineering, Elsevier, Philadelphia, 2019, pp 199-287
Dalgarno, Fabrication of bioactive glass-ceramics by Selective Laser Sintering, Key Engineering Materials 309-311 (2006) 289-292