Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2018
Authors: Peter Kayode Farayibi
Laser deposition is an advanced manufacturing technology capable of enhancing service life of engineering components by hard-facing their functional surfaces.
Furthermore, the different parameter combinations are responsible for high values of clad width and reinforcement fraction which is desirable for hardfacing of surfaces of engineering components.
Clare, A parametric study on laser cladding of Ti-6Al-4V wire and WC/W2C powder, International Journal of Advanced Manufacturing Technology, 87 (2016) 3349-3358
Pal, Application of Taguchi-based gray relational analysis for evaluating the optimal laser cladding parameters for AISI1040 steel plane surface, International Journal of Advanced Manufacturing Technology, 66 (2013) 91-96
Antony, Multi-response Optimization in Industrial Experiments Using Taguchi’s Quality Loss Function and Principal Component Analysis, Quality and Reliability Engineering International, 16 (2000), 3-8
Furthermore, the different parameter combinations are responsible for high values of clad width and reinforcement fraction which is desirable for hardfacing of surfaces of engineering components.
Clare, A parametric study on laser cladding of Ti-6Al-4V wire and WC/W2C powder, International Journal of Advanced Manufacturing Technology, 87 (2016) 3349-3358
Pal, Application of Taguchi-based gray relational analysis for evaluating the optimal laser cladding parameters for AISI1040 steel plane surface, International Journal of Advanced Manufacturing Technology, 66 (2013) 91-96
Antony, Multi-response Optimization in Industrial Experiments Using Taguchi’s Quality Loss Function and Principal Component Analysis, Quality and Reliability Engineering International, 16 (2000), 3-8
Online since: June 2013
Authors: Jiao Jiao Sun, He Huang, Bo Wang, Xiang Huang
Journal of Solid State Chemistry, 181 (2008) 1552-1559
Journal of Crystal Growth., 304 (2007) 430-434
Journal of Solid State Chemistry, 146(1999) 110-113
Ceramics International, 36 (2010) 1155-1158
Ceramics International, 38(2012) 1713-1715.
Journal of Crystal Growth., 304 (2007) 430-434
Journal of Solid State Chemistry, 146(1999) 110-113
Ceramics International, 36 (2010) 1155-1158
Ceramics International, 38(2012) 1713-1715.
Online since: October 2007
Authors: S. Kayali, Harun Mindivan, H. Çimenoğlu
Daoud: Materials Science and Engineering A Vol.
398 (2005), p.1
Bonjour: Materials Science and Engineering A Vol. 269 (1-2) (1999), p. 175
Litsardakis, Materials Science and Engineering A Vol. 382 (2004), p. 351
Mondal, Materials Science and Engineering A Vol. 425, (2006), p. 244
Askeland, The Science and Engineering of Materials, Boston (1985).
Bonjour: Materials Science and Engineering A Vol. 269 (1-2) (1999), p. 175
Litsardakis, Materials Science and Engineering A Vol. 382 (2004), p. 351
Mondal, Materials Science and Engineering A Vol. 425, (2006), p. 244
Askeland, The Science and Engineering of Materials, Boston (1985).
Online since: December 2012
Authors: Iis Sopyan, Singh Ramesh, Sharifah Adzila, Siti Farius, Nurfahana Wahab
Mechanochemical Synthesis of Hydroxyapatite Bioceramics through Two Different Milling Media
Sharifah Adzila1, 3 a, Iis Sopyan2b, Siti Farius2, Nurfahana2, Ramesh Singh1
1 Department of Engineering Design & Manufacture, Faculty of Engineering, University of Malaya, Kuala Lumpur, Malaysia
2 Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia, PO Box 10, 50728 Kuala Lumpur, Malaysia
3 Department of Materials Engineering and Design, Universiti Tun Hussein Onn Malaysia
aadzila@uthm.edu.my, bsopyan@iium.edu.my
Keywords: Mechanochemical, Hydroxyapatite, Water, Ethanol, Sintering, Dense Bioceramics.
Kaur, Preparation and characterization of porous hydroxyapatite through polymeric sponge method, Ceramics International. 35 (2009) 3161-3168
Hamdi, Synthesis of Nano sized hydroxyapatite powder using sol-gel technique and its conversion to dense and porous body, Indian Journal of Chemistry. 47A (2008) 1626-1631
Sopyan, Low temperature hydrothermal synthesis of calcium phosphate ceramics: effect of Ca excess precursor on phase behaviour, Indian Journal of Chemistry. 48A (2009) 1492-1500
Lin, Synthesis of Si-substituted hydroxyapatite by a wet mechanochemical method, Materials Science and Engineering C. 28 (2008) 57–63.
Kaur, Preparation and characterization of porous hydroxyapatite through polymeric sponge method, Ceramics International. 35 (2009) 3161-3168
Hamdi, Synthesis of Nano sized hydroxyapatite powder using sol-gel technique and its conversion to dense and porous body, Indian Journal of Chemistry. 47A (2008) 1626-1631
Sopyan, Low temperature hydrothermal synthesis of calcium phosphate ceramics: effect of Ca excess precursor on phase behaviour, Indian Journal of Chemistry. 48A (2009) 1492-1500
Lin, Synthesis of Si-substituted hydroxyapatite by a wet mechanochemical method, Materials Science and Engineering C. 28 (2008) 57–63.
Online since: August 2015
Authors: Xiong Gang Lu, Hong Bin Wang, Jin He, Chao Wei, Chong He Li
International journal of powder metallurgy. 46 (2010) 29-44
Yang, Centrifugal precision cast TiAl turbocharger wheel using ceramic mould journal of materials processing technology, J. 204 (2008) 492-497
Journal of Materials Processing Technology. 210 (2010) 1190-1196
Journal of Material Science. 41 (2006) 3045-3049
Journal of the Chinese ceramic society. 41 (2013) 1278-1283
Yang, Centrifugal precision cast TiAl turbocharger wheel using ceramic mould journal of materials processing technology, J. 204 (2008) 492-497
Journal of Materials Processing Technology. 210 (2010) 1190-1196
Journal of Material Science. 41 (2006) 3045-3049
Journal of the Chinese ceramic society. 41 (2013) 1278-1283
Online since: October 2009
Authors: Hiroshi Izui, Shu Feng Li, Michiharu Okano, Wei Hua Zhang, Taku Watanabe
Song, Relationship between microstructure and
mechanical properties of fibrous Hap-(t-ZrO2)/Al2O3-(m-ZrO2) composites, Materials Science
and Engineering A 458 (2007) 11-16
Spark plasma sintered hydroxyapatite-yttria stabilized zirconia composites, Ceramics International 30 (2004) 17931796
Pressureless sintered ATZ and ZTA ceramic composites, Journal of Materials Science, 27(1992) 5597-5602
Journal of Materials Engineering and Technology, 130 (2008) DOI: 10.1115/1.2931153 [13] Rajiv S.
Paszkiewicz, Mechanical properties of Hap-ZrO2 composites, Journal of the European Ceramics Society 26(2006) 1481-1488.
Spark plasma sintered hydroxyapatite-yttria stabilized zirconia composites, Ceramics International 30 (2004) 17931796
Pressureless sintered ATZ and ZTA ceramic composites, Journal of Materials Science, 27(1992) 5597-5602
Journal of Materials Engineering and Technology, 130 (2008) DOI: 10.1115/1.2931153 [13] Rajiv S.
Paszkiewicz, Mechanical properties of Hap-ZrO2 composites, Journal of the European Ceramics Society 26(2006) 1481-1488.
Online since: July 2011
Authors: Yuan Li, Hui Huang, Xi Peng Xu, You Ji Zhan
Xu: Key Engineering Materials Vol. 416 (2009), pp 198-204
Malkin: ASME Journal of Manufacturing Science & Engineering Vol. 123 (2001) No.1, pp: 13-22
Malkin: ASME Journal of Engineering for Industry Vol. 117 (1995), pp: 160-168
Huang and X.P Xu: International Journal of Advanced Manufacturing Technology Vol. 41 (2009), pp: 16-23
Scattergood: ASME Journal of Engineering for Industry Vol. 113 (1991), pp: 184-189.
Malkin: ASME Journal of Manufacturing Science & Engineering Vol. 123 (2001) No.1, pp: 13-22
Malkin: ASME Journal of Engineering for Industry Vol. 117 (1995), pp: 160-168
Huang and X.P Xu: International Journal of Advanced Manufacturing Technology Vol. 41 (2009), pp: 16-23
Scattergood: ASME Journal of Engineering for Industry Vol. 113 (1991), pp: 184-189.
Online since: June 2015
Authors: Sandra Juradin, Katarina Grbeša
Kamal at all [1] have investigated the properties of fresh self-compacting concrete made with recycled crushed red brick and crushed ceramic.
Eldaboly: Evaluating the Prolonged Properties of Fresh Self-Compacting Concrete Incorporating Recycled Aggregates, International Journal of Current Engineering and Technology, Vol.3, No.2, June 2013, [2] Z.
Kharchi: Effect of Clay Fines on the Behavior of Self-Compacting Concrete, Engineering, Vol. 5 No. 2, 2013, pp. 213-218. doi: 10.4236/eng.2013.52031
Journal of Engineering Research and Applications, Vol. 4, Issue 7( Version 4), July 2014, pp.32-36 [4] P.
Billberg: Self-compacting concrete for civil engineering structures – the Swedish experience, (Swedish Cement and Concrete Research Institute, Stockholm, 1999) [5] T.K.
Eldaboly: Evaluating the Prolonged Properties of Fresh Self-Compacting Concrete Incorporating Recycled Aggregates, International Journal of Current Engineering and Technology, Vol.3, No.2, June 2013, [2] Z.
Kharchi: Effect of Clay Fines on the Behavior of Self-Compacting Concrete, Engineering, Vol. 5 No. 2, 2013, pp. 213-218. doi: 10.4236/eng.2013.52031
Journal of Engineering Research and Applications, Vol. 4, Issue 7( Version 4), July 2014, pp.32-36 [4] P.
Billberg: Self-compacting concrete for civil engineering structures – the Swedish experience, (Swedish Cement and Concrete Research Institute, Stockholm, 1999) [5] T.K.
Online since: September 2016
Authors: Mario Rosso, Ivano Gattelli, Ildiko Peter
[3] Fan Z. on International Materials Review, Vol. 47, 49–85, 2002
Liu on Materials Science and Engineering: A, Volume 496, 1-2, 25, 439-446, 2008
Gattelli, “Development of industrial components by improved rheocasting system” , International Journal of Materials Forming, pp. 787– 790, (2010) Vol. 3 Suppl 1, DOI 10.1007/s12289-010-0888-8 [15] M.
Kapranos, eds., Department of Engineering Materials, The University of Sheffield, Sheffield, England, 204- 207, 1996
Villa on Journal of Solid State Phenomena Vol. 141-143, 237-242, 2008
Liu on Materials Science and Engineering: A, Volume 496, 1-2, 25, 439-446, 2008
Gattelli, “Development of industrial components by improved rheocasting system” , International Journal of Materials Forming, pp. 787– 790, (2010) Vol. 3 Suppl 1, DOI 10.1007/s12289-010-0888-8 [15] M.
Kapranos, eds., Department of Engineering Materials, The University of Sheffield, Sheffield, England, 204- 207, 1996
Villa on Journal of Solid State Phenomena Vol. 141-143, 237-242, 2008
Online since: February 2014
Authors: Jian Xin Zhou, Hong Wang, Jun Li Tang, Dong Qiao Zhang
Microporosity closure technique went to public on the Second International Superalloy Conference in 1972 [2].
Sambogna, Journal of materials processing technology, 2008, 204(1), 231-238
Gong, RARE METAL MATERIALS AND ENGINEERING, 2000, 29.
Campbell, Materials Science and Engineering: A, 2007, 465(1), 136-145
Bor, Ceramics International, 2009, 35(2), 565-570
Sambogna, Journal of materials processing technology, 2008, 204(1), 231-238
Gong, RARE METAL MATERIALS AND ENGINEERING, 2000, 29.
Campbell, Materials Science and Engineering: A, 2007, 465(1), 136-145
Bor, Ceramics International, 2009, 35(2), 565-570