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Online since: April 2008
Authors: Xiao Zhi Hu, Mark Bush, Tarek Qasim
Introduction
Ceramic materials in layered structure forms are finding increasing usage in a wide range of
engineering and biomechanical applications - coated cutting tools, thermal barrier coatings,
electronic packaging devices, dental crowns, hip and knee prostheses, heart valves and bone
implants are few to mention [1-7].
International Journal of Solids and Structures, 2002; 39: 1427-1442
Advanced Engineering Materials, 2000; 2: 745-748
Journal of Dental Research, 1998; 77: 589-602
Journal of Prosthetic Dentistry, 1999; 81:23-32
International Journal of Solids and Structures, 2002; 39: 1427-1442
Advanced Engineering Materials, 2000; 2: 745-748
Journal of Dental Research, 1998; 77: 589-602
Journal of Prosthetic Dentistry, 1999; 81:23-32
Online since: June 2014
Authors: Sreenivasan Sulaiman, Chenoraiza Jaafar, Ismail Zainol, M.I. Ayub
Ayub1,d
1Department of Mechanical and Manufacturing Engineering, Faculty of Engineering, Universiti Putra Malaysia, 43000 Serdang Selangor, Malaysia.
2Chemistry Department, Faculty of Science and Mathematics, Universiti Pendidikan Sultan Idris, 35900 Tanjong Malim, Perak, Malaysia.
Baumard: Journal of the European Ceramic Society, 21 (2001) 1087-1092
Matsutani: Ceramics International, 37 (2011) 3445–3450
Baumard: Journal of the European Ceramic Society, 18 (1997)323-328
Sumi: Journal of Polymer Science Part A-l, 7 (1969) 3151-3158
Baumard: Journal of the European Ceramic Society, 21 (2001) 1087-1092
Matsutani: Ceramics International, 37 (2011) 3445–3450
Baumard: Journal of the European Ceramic Society, 18 (1997)323-328
Sumi: Journal of Polymer Science Part A-l, 7 (1969) 3151-3158
Online since: January 2014
Authors: Hao Feng, Hai Peng Pan, Li Gang Cao
Trajectory Generation For Glazing Spray Gun Based On STL Model
Haipeng Pan 1, a, Hao Feng 1,b and Ligang Cao 1,c
1 Department of Mechanical and Electronic Engineering, Jingdezhen Ceramic Institute, Jingdezhen, 333403, China
aphpzp@sina.com, bfenghaoark@126.com, cligangcao@126.com
Keywords: Glazing, Freeform surface, Robot, Trajectory planning.
Glazing is a key procedure in ceramic product surface decorating processing.
However, the researches on freeform surface glazing technology lag behind the research on robotics technology, thus limits the application of glazing robot in ceramic industry.
“Process Modeling, Simulation,and Paint Thickness Measurement for Robotic Spray Painting ”, Journal of Robotic Sytem, Vol.17 pp.479-494, 2000 [4] Sheng W H, Xi N, Song M,Chen Y.“ Automated cad-guided robot path planning for spray painting of compound surfaces”.
International Conference On Intelligent Robots And Systems, Japan, 2000, pp.1918-1923.
Glazing is a key procedure in ceramic product surface decorating processing.
However, the researches on freeform surface glazing technology lag behind the research on robotics technology, thus limits the application of glazing robot in ceramic industry.
“Process Modeling, Simulation,and Paint Thickness Measurement for Robotic Spray Painting ”, Journal of Robotic Sytem, Vol.17 pp.479-494, 2000 [4] Sheng W H, Xi N, Song M,Chen Y.“ Automated cad-guided robot path planning for spray painting of compound surfaces”.
International Conference On Intelligent Robots And Systems, Japan, 2000, pp.1918-1923.
Online since: January 2012
Authors: Feng Wen, Xiao Ping Yang
The modeling unit is the international unit.
[4] Wang Bu-xuan, Engineering heat and mass transfer .Beijing, Scientific Press,1998
[6] Ma Qingfang, Fang Rong-sheng, Hand book of thermo physical properties in engineering.
Witting, “Design of Thermally High-loaded Ceramic Compnents for Gas Turbines,” Journal of the European Ceramic Society,1997,(17), pp.1655-1663
[9] Myung Sool Koo, Kwansoo Chung, Jae Ryoun Youn, “Reaction injection Molding of Polyurethane Foam for Improved Thermal Insulation,” Journal of Polymer Engineering and Science, 2001, pp.1177-1186.
[4] Wang Bu-xuan, Engineering heat and mass transfer .Beijing, Scientific Press,1998
[6] Ma Qingfang, Fang Rong-sheng, Hand book of thermo physical properties in engineering.
Witting, “Design of Thermally High-loaded Ceramic Compnents for Gas Turbines,” Journal of the European Ceramic Society,1997,(17), pp.1655-1663
[9] Myung Sool Koo, Kwansoo Chung, Jae Ryoun Youn, “Reaction injection Molding of Polyurethane Foam for Improved Thermal Insulation,” Journal of Polymer Engineering and Science, 2001, pp.1177-1186.
Online since: March 2011
Authors: Jun Su, Xiao Jing Li, Hong Pu Liu
The treatment of ceramic and metal mould is difficult.
With the improvement of prototype manufacturing accuracy, various indirect tooling techniques are becoming mature. and the methods chose for engineer should be determined by production volume.
Journal of Materials Processing Technology, Vol. 155 (2004) , p1111-1117 [2] Gideon N.
Journal of Materials Processing Technology, Vol106, (2000), p191-198 [4] Yunfeng Yang, Simo-Pekka Hannula.
Development of precision spray forming for rapid tooling, Materials Science and Engineering: A, Vol477, (2008), p63-68 [5] Sadegh Rahmati, Phill Dickens, Rapid tooling analysis of Stereolithography injection mould tooling Original Research Article, International Journal of Machine Tools and Manufacture, Vol47, (2007) , p740-747
With the improvement of prototype manufacturing accuracy, various indirect tooling techniques are becoming mature. and the methods chose for engineer should be determined by production volume.
Journal of Materials Processing Technology, Vol. 155 (2004) , p1111-1117 [2] Gideon N.
Journal of Materials Processing Technology, Vol106, (2000), p191-198 [4] Yunfeng Yang, Simo-Pekka Hannula.
Development of precision spray forming for rapid tooling, Materials Science and Engineering: A, Vol477, (2008), p63-68 [5] Sadegh Rahmati, Phill Dickens, Rapid tooling analysis of Stereolithography injection mould tooling Original Research Article, International Journal of Machine Tools and Manufacture, Vol47, (2007) , p740-747
Online since: May 2011
Authors: Rui Xu, Quan Chen
The Preparation of Silver-coated Nickel Powders via Electroless Plating
XU Ruia, Chen Quanb
The Chemical Engineering and Pharmaceutics College, Henan University of Science and Technology, Luoyang 471003, P.
Journal of Materials Science. 2004.39:3629
Materials Science and Engineering. 2003,B99:378
Ceramics International. 2004,30:1275
Journal of European Ceramic Society. 2001,21:1649
Journal of Materials Science. 2004.39:3629
Materials Science and Engineering. 2003,B99:378
Ceramics International. 2004,30:1275
Journal of European Ceramic Society. 2001,21:1649
Online since: September 2011
Authors: M. Balasubramanian, Y.Deval Vashistha, N. Kavitha
Optimization of processing conditions on the yield of nano SiC powder from rice husk
*N.Kavitha1,2,a, M.Balasubramanian2,b and Y.Deval Vashistha3,c
1 Carborundum universal limited, P.Box.No. 2272, Thiruvotriyur, Chennai,Tamilnadu, India-600019
2 Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras, Chennai, Tamilnadu, India-600036
3 Carborundum universal limited, P.Box.No. 2272, Thiruvotriyur, Chennai,Tamilnadu, India-600019
Kavithan@cumi.murugappa.coma, mbala@iitm.ac.inb, Vashisthady@cumi.murugappa.comc
Corresponding author: N.Kavitha, kavithan@cumi.murugappa.com, 09003239241
Key words: Silicon carbide (SiC), rice husk, Taguchi design, nanoparticles
Abstract: Nanoparticles of silicon carbide were produced through direct pyrolysis of stoichiometerically balanced rice husk.
Godkhindi: Ceram Int 18 (1992), p.185 [4] V.Martinez,M.F.Valencia,J.Cruz,J.M.Meia,F.Cheine: Ceram Int 32 (2006),p.891 [5] Raghavarapu venkata krishnarao: Journal of european ceramic society 12 (1993), p.395 [6] B.K.Pandhi,C.Patnaik: Ceram Int 21(1995),p.213 [7] R.V.Krishnarao,J.Subrahmanyam: Ceram Int 22 (1996), p.489 [8] P.Limthongkul,K.Dateraksa,B.Suchatjaroenying,K.Sujirote:Mater.Sci.Forum Vol.29 (2005), p.200 [9] Raghavarapu venkata krishnarao, mahadev malher godkhindi: Ceram Int 18 (1992), p.35 [10] K.Amutha,R.Ravibaskar,G.Sivakumar: International journal of nanotechnology and applications, vol. 4 (2010), p. 61 [11] Tzobg-Homg liou:Materails science and engineering,364 (2004), p.313 [12] Raghavarapu venkata krishnarao, yashwant ramchandra mahajan, thammana jagadish kumar: Journal of European ceramic society,18 (1997), p.147 [13] E.Mizuki,S.Okumura,H.Saito:Biosource technology 44 (1993), p.47 [14] C.Ragaru,M.Lanci,C.Marhic: Journal of European ceramic society, 19 (1999
Godkhindi: Ceram Int 18 (1992), p.185 [4] V.Martinez,M.F.Valencia,J.Cruz,J.M.Meia,F.Cheine: Ceram Int 32 (2006),p.891 [5] Raghavarapu venkata krishnarao: Journal of european ceramic society 12 (1993), p.395 [6] B.K.Pandhi,C.Patnaik: Ceram Int 21(1995),p.213 [7] R.V.Krishnarao,J.Subrahmanyam: Ceram Int 22 (1996), p.489 [8] P.Limthongkul,K.Dateraksa,B.Suchatjaroenying,K.Sujirote:Mater.Sci.Forum Vol.29 (2005), p.200 [9] Raghavarapu venkata krishnarao, mahadev malher godkhindi: Ceram Int 18 (1992), p.35 [10] K.Amutha,R.Ravibaskar,G.Sivakumar: International journal of nanotechnology and applications, vol. 4 (2010), p. 61 [11] Tzobg-Homg liou:Materails science and engineering,364 (2004), p.313 [12] Raghavarapu venkata krishnarao, yashwant ramchandra mahajan, thammana jagadish kumar: Journal of European ceramic society,18 (1997), p.147 [13] E.Mizuki,S.Okumura,H.Saito:Biosource technology 44 (1993), p.47 [14] C.Ragaru,M.Lanci,C.Marhic: Journal of European ceramic society, 19 (1999
Online since: April 2012
Authors: Yong Dai, Dong Hui Ding, Xu Xiao, Xue Shi Liu, Rui Jiang He, Liang Li
Journals of Shen yang construction engineering college, 2002, 18 (3): 229-231
Magnetic fluid grinding of ceramic balls[J].
Tribology International. 1995, 28 (6): 341~348
The processing experiment of HIPSN ceramic balls [J].
Journals of Shen yang construction engineering college, 2000, 16 (2):134-136.
Magnetic fluid grinding of ceramic balls[J].
Tribology International. 1995, 28 (6): 341~348
The processing experiment of HIPSN ceramic balls [J].
Journals of Shen yang construction engineering college, 2000, 16 (2):134-136.
Online since: August 2017
Authors: Udom Tipparach, Somkuan Photharin
Effect of Preparation on Microstructure of Ag-Loaded TiO2
Nanotube Arrays
Somkuan Photharin1,a*, and Udom Tipparach2,b
1Department of General Science, Faculty of Science and Engineering, Kasetsart University Chalermphrakiat Sakonnakhon Province Campus, Muang, Sakonnakhon, 47000, Thailand
2Department of Physics, Faculty of Science, Ubon Ratchathani University, Warinchamrab,
Ubon Ratchathani, 34190, Thailand
a*sky_ubu@hotmail.com and budomt@hotmail.com
*Corresponding author
Keywords: Preparation Temperature, Ag-loaded, TiO2 nanotube arrays, Anodization.
[2] S.wang, K.K.Meng, L.Zhao, Q.Jiang, J.S.Lian, Superhydrophilic Cu-doped TiO2 thin film for solar-driver photocatalysis, Ceramics International, 40(2014) 5107-5110
[4] Xiao Fan, Jun Fan, Xiaoyun Hu, Enzhou Liu, Limin Kang, Chunni Tang, Yongning Ma, Huitong Wu, Yinye Li, Preparation and characterization of Ag deposited and Fe doped TiO2 nanotube arrays for photocatalytic hydrogen production by water spitting, Ceramics International, 40(2014) 15907-15917
[6] Mohd Hasmizam Razali, Ahmad-Fanzi M.N., Abdul Rahman Mohamed, and Srimala Sreekantan, Morphological structural and optical properties study of transition metal ions doped TiO2 nanotubes prepared by hydrothermal method, International journal of material, mechanics, and manufacturing, 1(4) (2013) 314-318
[7] Somkuan Photharin and Udom Tipparach, The Effect of Preparation of Electrolytes on Microstructure and Optical Properties of Ag-Doped TiO2 Nanotubes, Middle-East Journal of Scientific Research, 24 (2) (2016) 332-337
[2] S.wang, K.K.Meng, L.Zhao, Q.Jiang, J.S.Lian, Superhydrophilic Cu-doped TiO2 thin film for solar-driver photocatalysis, Ceramics International, 40(2014) 5107-5110
[4] Xiao Fan, Jun Fan, Xiaoyun Hu, Enzhou Liu, Limin Kang, Chunni Tang, Yongning Ma, Huitong Wu, Yinye Li, Preparation and characterization of Ag deposited and Fe doped TiO2 nanotube arrays for photocatalytic hydrogen production by water spitting, Ceramics International, 40(2014) 15907-15917
[6] Mohd Hasmizam Razali, Ahmad-Fanzi M.N., Abdul Rahman Mohamed, and Srimala Sreekantan, Morphological structural and optical properties study of transition metal ions doped TiO2 nanotubes prepared by hydrothermal method, International journal of material, mechanics, and manufacturing, 1(4) (2013) 314-318
[7] Somkuan Photharin and Udom Tipparach, The Effect of Preparation of Electrolytes on Microstructure and Optical Properties of Ag-Doped TiO2 Nanotubes, Middle-East Journal of Scientific Research, 24 (2) (2016) 332-337
Online since: February 2006
Authors: Andrzej Klimpel, Leszek Adam Dobrzański, Marek Piec, Ewa Jonda, Krzysztof Labisz
Laser Alloying with WC Ceramic Powder in Hot Work Tool Steel using a
High Power Diode Laser (HPDL)
M.
Klimpel2,e 1 Department of Materials Processing Technology and Computer Techniques in Materials Science Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, Silesian University of Technology, 44-100 Gliwice, ul.Konarskiego 18A, Poland 2 Department of Welding, Faculty of Mechanical Engineering, Silesian University of Technology, 44-100 Gliwice, ul.
X-ray diffraction pattern: a) of the X38CrMoV5-3 hot work steel remelted with the HPDL high power diode laser, b) steel alloyed with the WC ceramic powder Acknowledgements Investigations were partially financed within the framework of the Scholarship No S-028-2005 from the International Visegrad Fund for Marek Piec MSc, Eng and within the framework of the Polish State Committee for Scientific Research No PBZ-KBN-100/T08/2003.
Klimpel.: "Effect of laser surface alloying of X38CrMoV5-3 hot work tool steel", 5 th International Conference The Coatings" in Manufacturing Engineering, Kassandra-Chalkidiki, Greece, October 5-7, 2005, p. 435-442
Kujanpää.: 23rd International Congress on Applications of Lasers and ElectroOptics (2004), p. 11-19
Klimpel2,e 1 Department of Materials Processing Technology and Computer Techniques in Materials Science Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, Silesian University of Technology, 44-100 Gliwice, ul.Konarskiego 18A, Poland 2 Department of Welding, Faculty of Mechanical Engineering, Silesian University of Technology, 44-100 Gliwice, ul.
X-ray diffraction pattern: a) of the X38CrMoV5-3 hot work steel remelted with the HPDL high power diode laser, b) steel alloyed with the WC ceramic powder Acknowledgements Investigations were partially financed within the framework of the Scholarship No S-028-2005 from the International Visegrad Fund for Marek Piec MSc, Eng and within the framework of the Polish State Committee for Scientific Research No PBZ-KBN-100/T08/2003.
Klimpel.: "Effect of laser surface alloying of X38CrMoV5-3 hot work tool steel", 5 th International Conference The Coatings" in Manufacturing Engineering, Kassandra-Chalkidiki, Greece, October 5-7, 2005, p. 435-442
Kujanpää.: 23rd International Congress on Applications of Lasers and ElectroOptics (2004), p. 11-19