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Online since: January 2020
Authors: Artem Yurovskikh, Anatoliy G. Illarionov, Stella V. Grib
Siddiquee, Beta Titanium Alloys: the Lowest Elastic Modulus for Biomedical Applications: a Review, World Academy of Science, Engineering and Technology, International Journal of Chemical, Nuclear, Metallurgical and Materials Engineering, 8(8) (2014) 726-731
Yurovskikh, Metallic materials for medical use, MATEC Web of Conferences, 132 (2017) 03003
Niinomi, Biocompatibility of Ti-alloys for long-term implantation, Journal of the Mechanical Behavior of Biomedical Materials, 20 (2013) 407-415
Akahori, Effects of Ta content on Young’s modulus and tensile properties of binary Ti-Ta alloys for biomedical applications, Materials Science and Engineering F 371 (2004) 283-290 [15] S.
Liu, Study of low-modulus biomedical β Ti–Nb–Zr alloys based on single-crystal elastic constants modeling, Journal of the Mechanical Behavior of Biomedical Materials, 62 (2016) 310-318 [27] M.
Yurovskikh, Metallic materials for medical use, MATEC Web of Conferences, 132 (2017) 03003
Niinomi, Biocompatibility of Ti-alloys for long-term implantation, Journal of the Mechanical Behavior of Biomedical Materials, 20 (2013) 407-415
Akahori, Effects of Ta content on Young’s modulus and tensile properties of binary Ti-Ta alloys for biomedical applications, Materials Science and Engineering F 371 (2004) 283-290 [15] S.
Liu, Study of low-modulus biomedical β Ti–Nb–Zr alloys based on single-crystal elastic constants modeling, Journal of the Mechanical Behavior of Biomedical Materials, 62 (2016) 310-318 [27] M.
Online since: April 2022
Authors: Mufutau Akindoye Waheed, Oluseyi O. Ajayi, Mercy Ogbonnaya, Enesi Y. Salawu
Chibante, Improving the heat transfer of nanofluids nanolubricant with carbon nanotubes, Journal of the Minerals, Metals and Materials (JOM), 57:12 (2005) 32 – 43
Journal of Thermal Science, 12:2 (2008) 27– 37
International Journal of Mechanical and Materials Engineering (IJMME), 7:2 (2012) 146 – 151
Gräfe, A simple quantum mechanical model for the contribution of electronic surface states to surface stress, strength and electro-capillarity of solids, Journal of Materials Science, 48:5 (2013) 2092 – 2103
Thermophysical Properties of Al2O3-Water Nanofluids, Materials Science Forum Trans.
Journal of Thermal Science, 12:2 (2008) 27– 37
International Journal of Mechanical and Materials Engineering (IJMME), 7:2 (2012) 146 – 151
Gräfe, A simple quantum mechanical model for the contribution of electronic surface states to surface stress, strength and electro-capillarity of solids, Journal of Materials Science, 48:5 (2013) 2092 – 2103
Thermophysical Properties of Al2O3-Water Nanofluids, Materials Science Forum Trans.
Online since: February 2014
Authors: W.F. Ng, Mui Nyuk Chai, Mohd Ikmar Nizam Mohamad Isa
Isa3,c
3Advanced Material Research Group; Renewable Energy Research Interest Group
1,2 Department of Physical Sciences, Faculty of Science & Technology,
University Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu, Malaysia
a wfei_1017922@hotmail.com, bpcmn_1211@hotmail.com, cikmar_isa@umt.edu.my
Keywords: Carboxy methylcellulose, citric acid, conductivity, proton conductor.
HATTORI: MATERIALS LETTERS.
ISA: JOURNAL OF CURRENT ENGINEERING RESEARCH.
ROTH: JOURNAL OF SOLID STATE CHEMISTRY VOL. 4(1971), P. 294-310
ISA: INTERNATIONAL JOURNAL OF THE PHYSICAL SCIENCES.
HATTORI: MATERIALS LETTERS.
ISA: JOURNAL OF CURRENT ENGINEERING RESEARCH.
ROTH: JOURNAL OF SOLID STATE CHEMISTRY VOL. 4(1971), P. 294-310
ISA: INTERNATIONAL JOURNAL OF THE PHYSICAL SCIENCES.
Online since: September 2013
Authors: U.J. Udosen, A.J. Emuekpere
It also served as source of raw materials for most industries in the country.
At the industrial scale, cassava is used as a raw material for the production of adhesives for packaging industries and pharmaceutical products.
Otanwa,Economic Analysis of Cassava Production in Benue State, Nigeria, Current Research Journal of Social Sciences 3(5) 406-411, 2011 [14] K.
Umaru, The relevance of cassava production processing, the growing domestic and foreign markets, Nigerian Journal of Science, Technology and Environmental Education, 3 (1), 2010 [16] T.
Ayandiji, Status of cassava production, distribution and utilization in Osun State, Nigeria, International Journal of Agricultural Science and Research, 3 (1)1-6, 2013.
At the industrial scale, cassava is used as a raw material for the production of adhesives for packaging industries and pharmaceutical products.
Otanwa,Economic Analysis of Cassava Production in Benue State, Nigeria, Current Research Journal of Social Sciences 3(5) 406-411, 2011 [14] K.
Umaru, The relevance of cassava production processing, the growing domestic and foreign markets, Nigerian Journal of Science, Technology and Environmental Education, 3 (1), 2010 [16] T.
Ayandiji, Status of cassava production, distribution and utilization in Osun State, Nigeria, International Journal of Agricultural Science and Research, 3 (1)1-6, 2013.
Online since: April 2025
Authors: Wan Maisarah Mukhtar, Affa Rozana Abdul Rashid, Nur Athirah Mohd Taib, Razman Mohd Halim, Nurulshahida Syafinie Fauzi
Materials Science and Engineering: C, 59, pp.500-508
Smart Materials and Structures, 25(10), p.105033
In Advanced Materials Research (Vol. 462, pp. 38-41).
Optoelectronics and Advanced Materials, Rapid Communications, 6(11-12), pp.988-992
Journal of Mechanical Engineering and Sciences, 14(4), pp. 7540-7550.
Smart Materials and Structures, 25(10), p.105033
In Advanced Materials Research (Vol. 462, pp. 38-41).
Optoelectronics and Advanced Materials, Rapid Communications, 6(11-12), pp.988-992
Journal of Mechanical Engineering and Sciences, 14(4), pp. 7540-7550.
Online since: October 2012
Authors: Guo Dong Zhang, Hui Yang, Shao Wei Guo
A total 100 grams of the reaction product available should be obtained in each group ,so all the amount of raw materials must be in accordance with Table 1.
Materials Science &Engineering, 1997.6, 15(2), p.20-25, in Chinese
[2] Dou Zhihe, Zhang Ting-an, Niu Liping, He Jicheng:Preparation of CuCr Alloy by Self-Propagating High-Temperature Synthesis, Journal of Northeastern University(Natural Science),2009.10, 30(10), p.1462-1465, in Chinese
[3] Zhu Peng,Shen Ruiqi,Ye Yinghua,Hu Yan,Huang Daowu:Chemical Reaction Property of Al/CuVO Multilayer Films, Chinese Journal of Energetic Materials, 2010,18(4), p.427-430, in Chinese
[5] Zhang Jianping,Chen Jingchao, Zhou Xiaolong:Effects on Performance of CuCr Contact Materials, Electric material, 2003, (1), p.3-8, in Chinese
Materials Science &Engineering, 1997.6, 15(2), p.20-25, in Chinese
[2] Dou Zhihe, Zhang Ting-an, Niu Liping, He Jicheng:Preparation of CuCr Alloy by Self-Propagating High-Temperature Synthesis, Journal of Northeastern University(Natural Science),2009.10, 30(10), p.1462-1465, in Chinese
[3] Zhu Peng,Shen Ruiqi,Ye Yinghua,Hu Yan,Huang Daowu:Chemical Reaction Property of Al/CuVO Multilayer Films, Chinese Journal of Energetic Materials, 2010,18(4), p.427-430, in Chinese
[5] Zhang Jianping,Chen Jingchao, Zhou Xiaolong:Effects on Performance of CuCr Contact Materials, Electric material, 2003, (1), p.3-8, in Chinese
Online since: July 2011
Authors: Xi Qin Wang, Bo Yu
This study made full use of industrial spent bleaching clay (SBC) to replace cottonseed hull, wheat bran and other costly traditional cultural materials for shimeji production.
Experimental Materials and Methods Experimental strains.
Experimental materials.
The main raw materials for the experiment included cottonseed hull, wheat bran, thick wood shavings, lime, SBC, etc.
Since 2008, the prices of cottonseed hull, wheat bran and other raw and semi-finished materials of edible medium have been persistently high.
Experimental Materials and Methods Experimental strains.
Experimental materials.
The main raw materials for the experiment included cottonseed hull, wheat bran, thick wood shavings, lime, SBC, etc.
Since 2008, the prices of cottonseed hull, wheat bran and other raw and semi-finished materials of edible medium have been persistently high.
Online since: March 2014
Authors: Rui Zhang, Hao Chen, Xiao Xuan Pian, Bing Bing Fan, Xin Zhang
Preparation of α-Al2O3 Powder by Microwave Pyrolysis
Hao Chen1a, Bingbing Fan1b, Xin Zhang1c, Xiaoxuan Pian 1d, Rui Zhang1,2*
1School of Materials Science and Engineering, Zhengzhou University, Henan, 450001, P.R.
Materials scientists showed a lot of interest in sol-gel method to prepare high purity α-Al2O3 powder.
Experimental Al2(SO4)3 and (NH4)2SO4 raw materials were commercially available to prepare AlNH4(SO4)2•12H2O precursor.
Hu, Preparation of plate-like nano α-Al2O3 using nano-aluminum seeds by wet-chemical methods, Materials Science and Engineering: A 406 (1–2) (2005) 19-23
Clark, UNIQUE APPLICATION OF MICROWAVE-ENERGY TO THE PROCESSING OF CERAMIC MATERIALS, J.
Materials scientists showed a lot of interest in sol-gel method to prepare high purity α-Al2O3 powder.
Experimental Al2(SO4)3 and (NH4)2SO4 raw materials were commercially available to prepare AlNH4(SO4)2•12H2O precursor.
Hu, Preparation of plate-like nano α-Al2O3 using nano-aluminum seeds by wet-chemical methods, Materials Science and Engineering: A 406 (1–2) (2005) 19-23
Clark, UNIQUE APPLICATION OF MICROWAVE-ENERGY TO THE PROCESSING OF CERAMIC MATERIALS, J.
Online since: July 2011
Authors: Hui Xia Liu, Min Feng Jiang, Zhen Kai Xu, Kai Wang, Cheng Zhang, Pin Li, Yang Hu
With increasing development of science and technology, a great many materials such as polymers, metals, glass, and ceramics are applied successfully to laser transmission joint.
Anawa, A.G Olabi: Journal of Materials Processing Technology Vol. 204(22008),p. 22-33 [6] I.
Witte, et al:SPIE ,Vol. 5339(2004) [7] Mian.A , Newaz.G , Vendra.L, et al:Journal of Materials Science: Materials in Medicine Vol. 16(2005), p. 229 [8] Xiao Wang,Pin Li,Zhenkai Xu, et al: Journal of Materials Processing Technology,Vol. 210 (2010) ,p.1767–1771 [9] Zhenkai Xu, Huixia Liu, Pin Li Xinhua Song, Kai Wang,Xiao Wang: Journal of Materials Science and Engineering Applications Vol. 160-162(2011 ), p 1118-1125
Bates, M.Birk : Journal of Materials Processing Technology Vol. 210(2010), p. 24-31 [12] Coelho JMP, Abreu MA, Pires MC: Journal of Optics and Lasers in Engineering Vol. 34(2000), p. 385-395 [13] K.Y.
Hashmi: Journal of Materials Processing Technology Vol. 164-965(2005), p. 986-989
Anawa, A.G Olabi: Journal of Materials Processing Technology Vol. 204(22008),p. 22-33 [6] I.
Witte, et al:SPIE ,Vol. 5339(2004) [7] Mian.A , Newaz.G , Vendra.L, et al:Journal of Materials Science: Materials in Medicine Vol. 16(2005), p. 229 [8] Xiao Wang,Pin Li,Zhenkai Xu, et al: Journal of Materials Processing Technology,Vol. 210 (2010) ,p.1767–1771 [9] Zhenkai Xu, Huixia Liu, Pin Li Xinhua Song, Kai Wang,Xiao Wang: Journal of Materials Science and Engineering Applications Vol. 160-162(2011 ), p 1118-1125
Bates, M.Birk : Journal of Materials Processing Technology Vol. 210(2010), p. 24-31 [12] Coelho JMP, Abreu MA, Pires MC: Journal of Optics and Lasers in Engineering Vol. 34(2000), p. 385-395 [13] K.Y.
Hashmi: Journal of Materials Processing Technology Vol. 164-965(2005), p. 986-989
Online since: February 2013
Authors: Guo Qiang Shang, Xin Nan Wang, Li Wei Zhu, Zhi Shou Zhu, Xiao Hu Zhou, Yue Fei, Jun Li
Ward, Aging response of coarse- and fine-grained β titanium alloys, Materials Science and Engineering A405 (2005) 296-305
Matviychuk, Deformation behavior of beta-titanium alloys, Materials Science and Engineering A354 (2003) 121-132
Briggs, The Use of Titanium Alloys in the Aerospace Industry, Journal of Materials Engineering and Performance 14 (2005) 681-685
Boyer, An overview on the use of titanium in the aerospace industry, Materials Science and Engineering A213 (1996) 103-114
Boyer, Quick Reference Guide for Titanium Alloys in the 00s, Journal of Materials Engineering and Performance 14 (2005) 799-811
Matviychuk, Deformation behavior of beta-titanium alloys, Materials Science and Engineering A354 (2003) 121-132
Briggs, The Use of Titanium Alloys in the Aerospace Industry, Journal of Materials Engineering and Performance 14 (2005) 681-685
Boyer, An overview on the use of titanium in the aerospace industry, Materials Science and Engineering A213 (1996) 103-114
Boyer, Quick Reference Guide for Titanium Alloys in the 00s, Journal of Materials Engineering and Performance 14 (2005) 799-811