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Online since: October 2013
Authors: Qiao Juan Gong, Hong Sun, Yong Qiang He, Chen Zhong Yao, Jian Ping Gao, Tao Wu
Introduction
CaSO4 is a fast biodegradable material that has been used to fill the bone defects.
[3] M.V.Thomas and D.A.Puleo: Journal Biomedical Material Research Part B Vol. 88B(2009), p. 597-610
[4] X.Cui, B.Zhang, Y.Wang et al: Journal of Craniofacial Surgery Vol. 19(2008), p. 459-465
[7] S.S.Mamidwar, C.Arena, S.Kelly et al: Journal of Biomedical Materials Research Vol. 81B(2006), p. 57-65
[8] C.Gao, J.Gao, X.You et al: Journal of Biomedical Materials Research Vol. 73A(2005), p. 244-253
[3] M.V.Thomas and D.A.Puleo: Journal Biomedical Material Research Part B Vol. 88B(2009), p. 597-610
[4] X.Cui, B.Zhang, Y.Wang et al: Journal of Craniofacial Surgery Vol. 19(2008), p. 459-465
[7] S.S.Mamidwar, C.Arena, S.Kelly et al: Journal of Biomedical Materials Research Vol. 81B(2006), p. 57-65
[8] C.Gao, J.Gao, X.You et al: Journal of Biomedical Materials Research Vol. 73A(2005), p. 244-253
Online since: May 2004
Authors: Michael J. Hoffmann, Rainer Oberacker, Andreas Mattern
The process is suitable for all materials that can be
handled by slip casting.
Brook (Ed.), Materials Science and Technology - Processing of Ceramics Part I, Vol. 17A (VHC Verlagsgesellschaft Weinheim 1996) [2] J.
Moreno, Functionally gradient ceramics by sequential slip casting, Materials Letters 14 (1992) 333-335
Boulanger, Graded Casting of Materials with Contiinuous Gradients, Journal of the American Ceramic Society 78 (1995) 3297-3303
Munz, SiC-Ceramics with Tailored Porosity Gradients for Combustion Chambers, Key Engineering Materials 175-176 (2000) 149-162
Brook (Ed.), Materials Science and Technology - Processing of Ceramics Part I, Vol. 17A (VHC Verlagsgesellschaft Weinheim 1996) [2] J.
Moreno, Functionally gradient ceramics by sequential slip casting, Materials Letters 14 (1992) 333-335
Boulanger, Graded Casting of Materials with Contiinuous Gradients, Journal of the American Ceramic Society 78 (1995) 3297-3303
Munz, SiC-Ceramics with Tailored Porosity Gradients for Combustion Chambers, Key Engineering Materials 175-176 (2000) 149-162
Online since: August 2013
Authors: Yong Wu He, Zhi Fa Wang, Jing Long Bu, Rui Sheng Wang, Li Xue Yu, Jun Xing Chen, Dong Mei Zhao
Sintering Properties of Fused Silica/Nano-zirconia Composite Ceramic
Yongwu He1, a, Jinglong Bu1, b, Ruisheng Wang 1, c, Dongmei Zhao1, d,
Junxing Chen2, e, Lixue Yu1, f, Zhifa Wang1, g
1Hebei Provincial Key Laboratory of Inorganic Nonmetallic Materials, College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
2LIRR Engineering Technology Co.
Experimental Raw Materials.
McKinstry: Annual Review of Materials Science, Vol.19 (1989), p.59-81
Ma: Advanced Materials Research, Vol.150-151(2010), p.1786-1789
Guo: Journal of the European Ceramic Society, Vol.16 (1996), p.1057-1061
Experimental Raw Materials.
McKinstry: Annual Review of Materials Science, Vol.19 (1989), p.59-81
Ma: Advanced Materials Research, Vol.150-151(2010), p.1786-1789
Guo: Journal of the European Ceramic Society, Vol.16 (1996), p.1057-1061
Online since: June 2013
Authors: Shuai Li, Yan Fu Yan, Li Fang Feng, Hong Na Wang
Effect of the Er on resistivity and spreading properties of Bi5Sb8Sn solder alloy
Shuai Li 1,a, YanFu Yan 1, b, LiFang Feng 1,c, HongNa Wang 1,d
1College of Material Science and Engineering, He Nan University of Science and Technology, Luoyang,China 471003
aemail: lyctlishuai@163.com ,bemail: yanyanfu@mail.haust.edu.cn, cemail: fenglifang198306@126.com, demail: xiaona1986107@126.com
Keywords: quaternary alloy;rare earth Er; resistivity;spreading area
Abstract: In this paper a novel quaternary alloy is formed by adding a small amount of rare earth Er(RE) into Bi5Sb8Sn solder alloy to improve its technological properties.
In this paper, a new Bi5Sb8SnRE quaternary alloy was formed by adding different contents of Er which could alternate high-lead solders and the high-cost Au-based solders to speed up China’s lead-free process. 2 Experiment procedure 2.1 Solder preparation The pure Bi, Sb, Sn and Er with purity of 99.95% were used as raw materials.
References [1] Z T Hu, D R Xu: Electronics Process Technology Vol. 26(2005), P. 125-128 [2] J Glazer: Journal of Eletronic Materials Vol, 23 (1994), P. 693-697 [3] Y C Liu, J W R Teo, S K Tung and K H Lam: Journal of Alloys and Compounds Vol. 448(2008), P.340–343 [4] C H Du,F Chen and Y F Du: Electronic Components and Materials Vol. 123(2004), P. 34~36 [5] J Glazer: Journal of Eletronic Materials Vol,23 (1994), P. 693-697 [6] L F Feng, Y F Yan and X X Guo: Materials Science Froum Vol. 610-613(2009), P. 537-541
[8] B Li, Y W Shi and Y P Lei: Journal of Electronic Materials Vol. 34(2005), P. 217
In this paper, a new Bi5Sb8SnRE quaternary alloy was formed by adding different contents of Er which could alternate high-lead solders and the high-cost Au-based solders to speed up China’s lead-free process. 2 Experiment procedure 2.1 Solder preparation The pure Bi, Sb, Sn and Er with purity of 99.95% were used as raw materials.
References [1] Z T Hu, D R Xu: Electronics Process Technology Vol. 26(2005), P. 125-128 [2] J Glazer: Journal of Eletronic Materials Vol, 23 (1994), P. 693-697 [3] Y C Liu, J W R Teo, S K Tung and K H Lam: Journal of Alloys and Compounds Vol. 448(2008), P.340–343 [4] C H Du,F Chen and Y F Du: Electronic Components and Materials Vol. 123(2004), P. 34~36 [5] J Glazer: Journal of Eletronic Materials Vol,23 (1994), P. 693-697 [6] L F Feng, Y F Yan and X X Guo: Materials Science Froum Vol. 610-613(2009), P. 537-541
[8] B Li, Y W Shi and Y P Lei: Journal of Electronic Materials Vol. 34(2005), P. 217
Online since: May 2021
Authors: Samuel Segun Okoya, Ephesus Olusoji Fatunmbi
Makinde:Journal of King Saud University-Science Vol. 30 (2018), 44-?
Begum:Multidiscipline Modeling in Materials and Structures Vol. 14(2) (2018), 236-260
Mukhopadhyay:Mechanics of Advanced Materials and Structures, 0(0) (2018), 1-7
Ismail:Journal of Magnetism and Magnetic Materials Vol. 374 (2015), 569?
Okoya:Advances in Materials Science and Engineering Vol. 2020 (2020), 1-11
Begum:Multidiscipline Modeling in Materials and Structures Vol. 14(2) (2018), 236-260
Mukhopadhyay:Mechanics of Advanced Materials and Structures, 0(0) (2018), 1-7
Ismail:Journal of Magnetism and Magnetic Materials Vol. 374 (2015), 569?
Okoya:Advances in Materials Science and Engineering Vol. 2020 (2020), 1-11
Online since: August 2014
Authors: Zuhailawati Hussain, Soon Vern Yee, Anasyida Abu Seman, Muhammad Syukron, Indra Putra Almanar
Among the various available procedures for the production of ultra-fine grain materials, ECAP is the most established method for the production of bulk billets [3].
References [1] Jogi, B.F et al., "Some Studies on Fatigue Crack Growth Rate of Aluminum Alloy 6061", Journal of Materials Processing Technology,201, pp.380-384, 2008
[4] Stolyarov, V.V et al., "Influence of ECAP Routes on The Microstructures and Properties of Pure Ti", Materials Science and Engineering, A(299), pp.59-67, 2001
[5] Valiev, R.Z et al., “Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation”, Journal of the Minerals, Metals and Materials Society, 58(4), pp.33-39, 2006
[6] Furukawa, M., Horita, Z., & Langdon, T.G, “Processing by Equal-Channel Angular Pressing: Applications to Grain Boundary Engineering”, Journal of Materials Science, pp.909-917, 2005.
References [1] Jogi, B.F et al., "Some Studies on Fatigue Crack Growth Rate of Aluminum Alloy 6061", Journal of Materials Processing Technology,201, pp.380-384, 2008
[4] Stolyarov, V.V et al., "Influence of ECAP Routes on The Microstructures and Properties of Pure Ti", Materials Science and Engineering, A(299), pp.59-67, 2001
[5] Valiev, R.Z et al., “Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation”, Journal of the Minerals, Metals and Materials Society, 58(4), pp.33-39, 2006
[6] Furukawa, M., Horita, Z., & Langdon, T.G, “Processing by Equal-Channel Angular Pressing: Applications to Grain Boundary Engineering”, Journal of Materials Science, pp.909-917, 2005.
Online since: March 2016
Authors: Naser Mahmoud Ahmed, Zainuriah Hassan, Siti Azlina Rosli, Marina Mokhtar, Ainorkhilah Mahmood, Nurul Huda Mohd Noor, Lee Siang Chuah, Fong Kwong Yam
Eventually the ridges become well separated and thinner, seeing that the etchant consumes most of the materials.
Khan, "Transistors and detectors based on GaN-related materials," in Group III Nitrides Semiconductors Compounds, B.
Ahmed, "Structural and Surface Studies of Undoped Porous GaN Grown on Sapphire," Advanced Materials Research, vol. 620, pp. 45-49, 2013
Kwong, "Porous GaN for Gas Sensing Application " Advanced Materials Research, vol. 1043, pp. 50-56, 2014
Hassan, "A Novel AC Technique for High Quality Porous GaN," International Journal of Electrochemical Science, vol. 8, 2013
Khan, "Transistors and detectors based on GaN-related materials," in Group III Nitrides Semiconductors Compounds, B.
Ahmed, "Structural and Surface Studies of Undoped Porous GaN Grown on Sapphire," Advanced Materials Research, vol. 620, pp. 45-49, 2013
Kwong, "Porous GaN for Gas Sensing Application " Advanced Materials Research, vol. 1043, pp. 50-56, 2014
Hassan, "A Novel AC Technique for High Quality Porous GaN," International Journal of Electrochemical Science, vol. 8, 2013
Online since: January 2012
Authors: Nathalie Herlin-Boime, Alice Mesnage, Pardis Simon, Guy Deniau, Serge Palacin
Among the methods to functionalize materials by polymer films, Graftfast© appeared to be a powerful process since it has been successfully applied to a large variety of materials: nickel, zinc, platinum, stainless steel (inox), titanium, gold, carbon fibres, aluminium but also plastics, cellulose (wood, paper), cotton and multiwalled carbon nanotubes.
Therefore, we focused on the grafting of such materials by a biocompatible polymer (PHEMA).
Conclusion The Graftfast© process, leading to the grafting of polymer on any type of materials, was presented.
Vicens: Journal of Nanoparticle Research Vol. 8 (2006), p. 351
She: Journal of Applied Polymer Science Vol. 117 (2010), p. 534
Therefore, we focused on the grafting of such materials by a biocompatible polymer (PHEMA).
Conclusion The Graftfast© process, leading to the grafting of polymer on any type of materials, was presented.
Vicens: Journal of Nanoparticle Research Vol. 8 (2006), p. 351
She: Journal of Applied Polymer Science Vol. 117 (2010), p. 534
Online since: November 2012
Authors: Antonio Eduardo Martinelli, Poliana Rochele Santos, João Moreno Silva, Rubens Maribondo Nascimento, Jorge Carlos Pereira
Brazing is a well established technique to joint metal-metal, ceramic-ceramic and ceramic-metal materials.
Williamson, Mapping of the residual stress distribution in a brazed zirconia-iron joint, Materials Science and Engineering A, vol. 211 (1996) 45-53
Materials Science, vol. 43 (2008) 23-32
Kostyuk, Investigation of interaction of metal melts and zirconia, Journal of Materials Science, 40 (2005) 2173-2178
Carim, All solubility in M6X compounds in the Ti-Cu-0 system, Materials Letters, 23 (1995) 231-235 [16] Y.
Williamson, Mapping of the residual stress distribution in a brazed zirconia-iron joint, Materials Science and Engineering A, vol. 211 (1996) 45-53
Materials Science, vol. 43 (2008) 23-32
Kostyuk, Investigation of interaction of metal melts and zirconia, Journal of Materials Science, 40 (2005) 2173-2178
Carim, All solubility in M6X compounds in the Ti-Cu-0 system, Materials Letters, 23 (1995) 231-235 [16] Y.