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Online since: October 2014
Authors: M.N. Mohammed, Mohammed Zaidi Omar, Junaidi Syarif, Zainuddin Sajuri, Khaled S. Alhawari, Mohd Shukor Salleh
Experimental Procedure
Materials.
Brown, Joining using semisolid metals, Welding Journal. 81, 9 (2002) 181-187
Alhawari, Study on thixojoining process using partial remelting method, Advanced in Materials Science and Engineering. 2013 (2013) 1-8
Mohammed, Thermodynamic modelling for thixoformability of Al-Si alloys for semisolid processing, Advanced Science Letters. 19 (2013) 3503-3507
Atkinson, Microstructural investigations of XW-42 and M2 tool steels in semi-solid zones via direct partial remelting route, Journal of Materials Science. 46 (2011) 7696-7705.
Brown, Joining using semisolid metals, Welding Journal. 81, 9 (2002) 181-187
Alhawari, Study on thixojoining process using partial remelting method, Advanced in Materials Science and Engineering. 2013 (2013) 1-8
Mohammed, Thermodynamic modelling for thixoformability of Al-Si alloys for semisolid processing, Advanced Science Letters. 19 (2013) 3503-3507
Atkinson, Microstructural investigations of XW-42 and M2 tool steels in semi-solid zones via direct partial remelting route, Journal of Materials Science. 46 (2011) 7696-7705.
Online since: December 2013
Authors: Shigeyuki Haruyama, Ken Kaminishi, Yudy Surya Irawan, Aminnudin Aminnudin, Pratiko Pratiko, Anindito Purnowidodo
Journal of Materials Processing Technology, 123(January), 251-257
Materials Science and Engineering: A, 491(1-2), 501–506. doi:10.1016/j.msea.2008.04.024 [4] Callister, William D; David G.
Materials Science and Engineering, 107, 73-80
Materials Science and Engineering A, 411, 239–242. doi:10.1016/j.msea.2005.08.186 [11] Stolyarov, V.
Materials [15] Valiev, R.
Materials Science and Engineering: A, 491(1-2), 501–506. doi:10.1016/j.msea.2008.04.024 [4] Callister, William D; David G.
Materials Science and Engineering, 107, 73-80
Materials Science and Engineering A, 411, 239–242. doi:10.1016/j.msea.2005.08.186 [11] Stolyarov, V.
Materials [15] Valiev, R.
Online since: September 2013
Authors: Pongkaew Udomsamuthirun, Thitipong Kruaehong, Supphadate Sujinnapram, Tunyanop Nilkamjon, Sermsuk Ratreng
compound, Y7Ba11Cu18Oy(Y7-11-18), has been discovered by solid state reaction with the different ratios of raw materials.
Materials and Methods The Y7-11-18 and Y211 powders were synthesized by solid state reaction method.
The raw materials Y2O3, BaCO3 and CuO in the desired atomic ratio as 7:11:18 and 2:1:1 were used.
Euro Physics Journal.
[7] P.Udomsamuthirun, T.Kruaehong, T.Nilkamjon,S.Ratreng, The New Superconductors of YBaCuO Materials.
Materials and Methods The Y7-11-18 and Y211 powders were synthesized by solid state reaction method.
The raw materials Y2O3, BaCO3 and CuO in the desired atomic ratio as 7:11:18 and 2:1:1 were used.
Euro Physics Journal.
[7] P.Udomsamuthirun, T.Kruaehong, T.Nilkamjon,S.Ratreng, The New Superconductors of YBaCuO Materials.
Online since: July 2015
Authors: Wei Ling Luan, Yan Zhang, Yu Jian Liu, Zuo Sheng li, Jun Fang
Preparation and Characterization of W@SiO2 Shielding Composite Microsphere
Zuosheng LI1,a, Yan ZHANG1,b, Yujian LIU1,c*,Jun FAN1,d and Weiling LUAN2,a
1Key Laboratory of Specially Functional Polymers and Related Technology of Ministry of Education, School of Materials Science and Engineering, East China University of Science and Technology, MeiLong Road 130, Shanghai 200237, PR China
2Key Laboratory of Pressure and Safety of Ministry of Education, School of Mechanical and Power Engineering, East China University of Science and Technology, MeiLong Road 130, Shanghai 200237, PR China
c yjliu@ecust.edu.cn
Keywords: W@SiO2, core-shell, shielding, nanoparticle
Abstract.
Tungsten, which is a better shielding material due to its high Z and high density, has been the most widely used material in X-ray or gamma-ray shielding materials.
Materials Science and Engineering. 33 (2013) 4952-4957
Journal of Nuclear Materials. 430 (2012) 216-220
Journal of Alloys and Compounds.586 (2013)S455-S458
Tungsten, which is a better shielding material due to its high Z and high density, has been the most widely used material in X-ray or gamma-ray shielding materials.
Materials Science and Engineering. 33 (2013) 4952-4957
Journal of Nuclear Materials. 430 (2012) 216-220
Journal of Alloys and Compounds.586 (2013)S455-S458
Online since: September 2013
Authors: Ting Xi Li, Meng Wei, Yu Feng Sui, Yu Hua Zhao, Quan Liang Chen, Bo Gao
Materials
acrylic acid, NaOH, NH3·H2O(22%~25%), potassium persulfate, Al(OH)3, HCl(36%),distilled water
1.2.
Journal of kunming hospital, 2012, 1B: 120-123
Journal of wuhan university of engineering, 2011, 33(9): 20-25
Synthesis and water absorbency of poly (acrylic acid-co-acryl amide)[J].Advanced Materials Research.2011,250-253: 695-698
Materials Review, 2008, 22(6): 83-86.
Journal of kunming hospital, 2012, 1B: 120-123
Journal of wuhan university of engineering, 2011, 33(9): 20-25
Synthesis and water absorbency of poly (acrylic acid-co-acryl amide)[J].Advanced Materials Research.2011,250-253: 695-698
Materials Review, 2008, 22(6): 83-86.
Online since: November 2011
Authors: Jaleh Babak, Ashrafi Ghazaleh, Gholami Nasim, Azizian Saeid, Golbedaghi Reza, Habibi Safdar, Parsian Hosein
Optical Materials Express, 1,4 (2011) 658-669
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Online since: May 2011
Authors: Yue Li, Xin Zhan Li, Xiao Gang Wang
This system is the key for intelligent research in apparel science, which it must express information of human body, textile material parameters, apparel fashionable shape and pattern.
The second step is choosing or inputting values of textile material parameters, which there are popular examples for textile materials and their parameters.
Then parameters of textile material and pattern must be input.
The whole thinking, different databases setting up and connecting also broke a new channel to intelligent technology in apparel science.
References [1] Claudia M.Eckert, Helmut E.Bez, Loughborough, UK, a garment design system using constrained Bézier curves, international journal of clothing science and technology, Vol.12 No.2,2000, P34-36 [2] Feng Ji, Ruqin Li, and Yiping Qiu, Three-dimensional Garment Simulation Based on a Mass-Spring System, Textile Research Journal, Vol76 (1), 2006, P12-17, [3] Dai wei, Zhang weiyuan, fuzz mathematic methodology clothing fitness evaluation , journey of Donghua university,Vol.29 No.3, Jun 2003, P156-159
The second step is choosing or inputting values of textile material parameters, which there are popular examples for textile materials and their parameters.
Then parameters of textile material and pattern must be input.
The whole thinking, different databases setting up and connecting also broke a new channel to intelligent technology in apparel science.
References [1] Claudia M.Eckert, Helmut E.Bez, Loughborough, UK, a garment design system using constrained Bézier curves, international journal of clothing science and technology, Vol.12 No.2,2000, P34-36 [2] Feng Ji, Ruqin Li, and Yiping Qiu, Three-dimensional Garment Simulation Based on a Mass-Spring System, Textile Research Journal, Vol76 (1), 2006, P12-17, [3] Dai wei, Zhang weiyuan, fuzz mathematic methodology clothing fitness evaluation , journey of Donghua university,Vol.29 No.3, Jun 2003, P156-159
Online since: September 2006
Authors: Jin Song Zhu, Xiao Dong Tang, De Ping He
The origin for different attenuation properties is discussed in these materials.
Introduction Ultralight metal materials with a lot of holes have multi-functional properties such as lightweight (ρ<1), high specific strength, damping, anti-noise, heat transfer and so on.
The property of absorbed energy was studied usually in the plastically deforming area in these materials [8, 9], but few report was in the elastic deforming area.
These lightweight materials have high damping properties because of non-uniformity between air and metal framework.
Lu, Science in China (B), Vol.46, No.6, (2003)pp. 521-532 [5] Yang Donghui, He Deping, Science in China (B), 44(4), (2001) p 411 [6] Zhen Mingjun, He Deping, Dai Ge, Science in China (B), 45 (18), (2002)p. 598 [7] Zou Yi, He Deping, Jiang Jiaqiao, Science in China ( B), 47(5), (2004)p.407 [8] Wu Zhaojin, He Deping, Chinese Journal of Applied Sciences, 19(4), (2001) p.357 [9] Zhen Mingjun, He Deping, Chinese Journal of Material Research, 16(5), (2002)p.474 [10] He Deping, Yu Xingquan, Chinese Journal of Material Research, 11(1), (1997) p.101 [11] Liu Changsong, Han Fusheng, Zhu Zhengang, ACTA PHYSCIA SINICA, 46(8), (1997) p. 1585 [12] J.Banhart, J.Baumeister, M.Weber, Materials Science and Engineering, A205, (1996) p.221 [13] Richard Weaver, Ultrasonics, 36, (1998) p. 435 [14] Q.
Introduction Ultralight metal materials with a lot of holes have multi-functional properties such as lightweight (ρ<1), high specific strength, damping, anti-noise, heat transfer and so on.
The property of absorbed energy was studied usually in the plastically deforming area in these materials [8, 9], but few report was in the elastic deforming area.
These lightweight materials have high damping properties because of non-uniformity between air and metal framework.
Lu, Science in China (B), Vol.46, No.6, (2003)pp. 521-532 [5] Yang Donghui, He Deping, Science in China (B), 44(4), (2001) p 411 [6] Zhen Mingjun, He Deping, Dai Ge, Science in China (B), 45 (18), (2002)p. 598 [7] Zou Yi, He Deping, Jiang Jiaqiao, Science in China ( B), 47(5), (2004)p.407 [8] Wu Zhaojin, He Deping, Chinese Journal of Applied Sciences, 19(4), (2001) p.357 [9] Zhen Mingjun, He Deping, Chinese Journal of Material Research, 16(5), (2002)p.474 [10] He Deping, Yu Xingquan, Chinese Journal of Material Research, 11(1), (1997) p.101 [11] Liu Changsong, Han Fusheng, Zhu Zhengang, ACTA PHYSCIA SINICA, 46(8), (1997) p. 1585 [12] J.Banhart, J.Baumeister, M.Weber, Materials Science and Engineering, A205, (1996) p.221 [13] Richard Weaver, Ultrasonics, 36, (1998) p. 435 [14] Q.
Online since: December 2009
Authors: Andrew John Ruys, E. Soh
Current Opinion in Solid State and Materials Science, 2003. 7(4-5): p. 301-307
Journal of Biomedical Materials Research, 1970. 4(3): p. 433-356
Journal of Materials Science: Materials in Medicine, 2001. 12(8): p. 679-682
Journal of Material science: Materials in Medicine, 1999. 10(2): p. 111-120
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 2004. 68(1): p. 36-44.
Journal of Biomedical Materials Research, 1970. 4(3): p. 433-356
Journal of Materials Science: Materials in Medicine, 2001. 12(8): p. 679-682
Journal of Material science: Materials in Medicine, 1999. 10(2): p. 111-120
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 2004. 68(1): p. 36-44.
Online since: December 2022
Authors: Raad Suhail Ahmed Adnan, Haider Adnan Dawood
Key Engineering Materials, 911, 96–102
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 47(10), 5242–5255
Journal of Materials Engineering and Performance, 23(10), 3620–3629
Materials Today: Proceedings, 42, 2119–2124
Journal of Biomedical Materials Research - Part A, 75(2), 256–267
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 47(10), 5242–5255
Journal of Materials Engineering and Performance, 23(10), 3620–3629
Materials Today: Proceedings, 42, 2119–2124
Journal of Biomedical Materials Research - Part A, 75(2), 256–267