Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2008
Authors: Yunn Shiuan Liao, Hsiu Ping Wang, Fwu Hsing Liu
Introduction
Many materials, such as ultraviolet (UV) resin, plastic, metal, wax, paper, and ceramic can be
employed in Rapid Prototyping (RP) as raw materials.
Methods and materials A solid freeform fabrication (SFF) employs various materials to form solid parts.
Froyen et al., Selective laser melting of iron-based powder, Journal of Materials Processing Technology, Vol. 149, Issues 1-3, (2004), pp. 616-622
Liu, et al., Rapid prototyping and manufacturing by gelcasting of metallic and ceramic slurries, Materials Science and Engineering A, Vol. 334, (2002), pp. 187-192
Mo et al, Scaffold development using 3D printing with a starch-based polymer, Materials Science and Engineering: C, Vol. 20, Issues 1-2, (2002), pp. 49-56
Methods and materials A solid freeform fabrication (SFF) employs various materials to form solid parts.
Froyen et al., Selective laser melting of iron-based powder, Journal of Materials Processing Technology, Vol. 149, Issues 1-3, (2004), pp. 616-622
Liu, et al., Rapid prototyping and manufacturing by gelcasting of metallic and ceramic slurries, Materials Science and Engineering A, Vol. 334, (2002), pp. 187-192
Mo et al, Scaffold development using 3D printing with a starch-based polymer, Materials Science and Engineering: C, Vol. 20, Issues 1-2, (2002), pp. 49-56
Online since: June 2010
Authors: Sreeramamurthy Ankem, Zane Wyatt
The nucleation of twinning in
polycrystalline materials is determined by the stress concentration at a dislocation pile-up.
Harris, Journal of Mat.
Chen, et al.: Science, 2003. 300(5623): p. 1275-1277
Ankem: International Journal of Plasticity, 2009. 25(5): p. 881-900
Capolungo, et al.: Materials Science and Engineering A, 2009. 513-14: p. 42-51
Harris, Journal of Mat.
Chen, et al.: Science, 2003. 300(5623): p. 1275-1277
Ankem: International Journal of Plasticity, 2009. 25(5): p. 881-900
Capolungo, et al.: Materials Science and Engineering A, 2009. 513-14: p. 42-51
Online since: April 2021
Authors: Togar Saragi, Risdiana Risdiana, Tony Kristiantoro, Trie Joko Satrio Wibowo, Supono A. Dwiwanto
Journal of Materials Science Materials in Electronics 28, 12 (2017)
Journal of Materials Science Materials in Electronics 28, 2377–2384 (2017)
Journal of Magnetism and Magnetic Materials 62 (1986) 57-67
Materials Science (Medžiagotyra), 17(3), 302-307 (2011)
Materials Science Forum, 827, 219–222 (2015)
Journal of Materials Science Materials in Electronics 28, 2377–2384 (2017)
Journal of Magnetism and Magnetic Materials 62 (1986) 57-67
Materials Science (Medžiagotyra), 17(3), 302-307 (2011)
Materials Science Forum, 827, 219–222 (2015)
Online since: January 2011
Authors: Bao Zhong Sun, Lv Tao Zhu
The mechanical properties of the composite materials depend strongly on the fibre reinforcement, and the response of materials is sensitive to the strain rate at which they are loaded.
Mechanical response of materials is sensitive to the rate at which they are loaded.
Proceedings of the 33rd Japan Congress on Materials Research 87-91 (1990) [2] V.P.W.
Journal of Engineering Material Technology 127 (2):197-203 (2005) [5] V.B.C.
Journal of Materials Science 27 (3): 755-760 (1992)
Mechanical response of materials is sensitive to the rate at which they are loaded.
Proceedings of the 33rd Japan Congress on Materials Research 87-91 (1990) [2] V.P.W.
Journal of Engineering Material Technology 127 (2):197-203 (2005) [5] V.B.C.
Journal of Materials Science 27 (3): 755-760 (1992)
Online since: September 2014
Authors: Bing Shuai Wen
The Application of New Material Development and Research in the Badminton Lines
Bingshuai Wen
Military Department, Suzhou Institute of Trade & Commerce, Zip code: 215009
416860689@qq.com
Keywords: Weaving technology; New materials; Badminton line; Performance; Daub technology
Abstract.
High techniques and the use of new materials is also in an experimental stage.
Also in YONEX-BG80, BG-95 line, due to technical process and the use of new materials absorption was also got obvious improvement, well under control of the ball and strength.
Journal of wool spinning technology, 2001, 6:38-42
Polymer materials science and engineering, 2002, 17 (5) : 7-11.
High techniques and the use of new materials is also in an experimental stage.
Also in YONEX-BG80, BG-95 line, due to technical process and the use of new materials absorption was also got obvious improvement, well under control of the ball and strength.
Journal of wool spinning technology, 2001, 6:38-42
Polymer materials science and engineering, 2002, 17 (5) : 7-11.
Online since: February 2018
Authors: Yong Ho Sohn, Ryan Newell, Abhishek Mehta, Young Joo Park, Dennis D. Keiser Jr.
Clark, High-density, low-enriched uranium fuel for nuclear research reactors, Journal of Materials 55(9) (2003) 55-58
Keiser Jr, Effects of heat treatment on U–Mo fuel foils with a zirconium diffusion barrier, Journal of Nuclear Materials 460 (2015) 153-159
%Mo monolithic fuel plate in AA6061 matrix with Zr diffusion barrier, Journal of Nuclear Materials 402(1) (2010) 8-14
AA6061 HIP bonded cladding–cladding interface, Journal of Materials Processing Tech.
Wachs, Fission induced swelling and creep of U–Mo alloy fuel, Journal of Nuclear Materials 437(1) (2013) 37-46
Keiser Jr, Effects of heat treatment on U–Mo fuel foils with a zirconium diffusion barrier, Journal of Nuclear Materials 460 (2015) 153-159
%Mo monolithic fuel plate in AA6061 matrix with Zr diffusion barrier, Journal of Nuclear Materials 402(1) (2010) 8-14
AA6061 HIP bonded cladding–cladding interface, Journal of Materials Processing Tech.
Wachs, Fission induced swelling and creep of U–Mo alloy fuel, Journal of Nuclear Materials 437(1) (2013) 37-46
Online since: May 2013
Authors: Zhen Hua Duan, Ju Lan Wang, Chang Yu Cheng, Yang Hai
Materials and methods
Materials.
References [1] J.S.Sim, G.J.Jun, T.Toida, S.Y.Cho: Journal of Chromatography B.
Mao, B.H.He: Food Science, Vol.30(2009),p.231 [9] H.Y.Luo: Food Science, Vol.25(2004),p.135 [10] Z.H.Duan, L.N.Jiang, J.L.Wang: Food and Bioproducts Processing, Vol.89 (2011), p.472 [11] Z.H.Duan, J.L.Wang,Y.Y.Wu, J.Peng,Y.Yang,Y.G.Pan:Advanced Materials Research, Vol.554-556(2012),p.1332 [12] W.K.Jung, P.J.Park, H.G.Byun, S.H.Moon: Food Chemsitry,Vol.91(2005),p.333 [13] Z.H.Duan, M.H.Yi: Fisheries Science & Technology Information, Vol.32(2005),p.250 [14] Y.P.Kotzamanis, M.N.
Fan, K.G.Zhou: Food science and technology, Vol.36(2011), p.213 [17] Z.D.Yu, G.M.Yang, H.Gao, K.Liu: Journal of Qinghai University (Natural Science Edition), Vol.23(2005), p.41(In Chinese) [18] Z.S.Qin,F.Q.Chang,H.X.Han,G.R.Chen: Chinese Journal of Health Laboratory Technology,Vol.12(2002), p.306(In Chinese) [19] J.C.Boulet,P.Williams,T.Doco: Carbohydrate Polymers, Vol.69(2007), p.79 [20] X.B.Fang, X.E.
Chen, H.Yu, R.Song:Journal of Chinese Institute of Food Science and Technology, Vol.9(2009), p.103(In Chinese) [21] S.G.Chen, C.H.Xue, L.A.Yin, Q.J.Tang, G.L.Yu, W.G.Chai:Carbohydrate Polymers, Vol.83(2011), p.688 [22] A.S.Amarasekara, G.Opoku, X.D.Qiu, V.
References [1] J.S.Sim, G.J.Jun, T.Toida, S.Y.Cho: Journal of Chromatography B.
Mao, B.H.He: Food Science, Vol.30(2009),p.231 [9] H.Y.Luo: Food Science, Vol.25(2004),p.135 [10] Z.H.Duan, L.N.Jiang, J.L.Wang: Food and Bioproducts Processing, Vol.89 (2011), p.472 [11] Z.H.Duan, J.L.Wang,Y.Y.Wu, J.Peng,Y.Yang,Y.G.Pan:Advanced Materials Research, Vol.554-556(2012),p.1332 [12] W.K.Jung, P.J.Park, H.G.Byun, S.H.Moon: Food Chemsitry,Vol.91(2005),p.333 [13] Z.H.Duan, M.H.Yi: Fisheries Science & Technology Information, Vol.32(2005),p.250 [14] Y.P.Kotzamanis, M.N.
Fan, K.G.Zhou: Food science and technology, Vol.36(2011), p.213 [17] Z.D.Yu, G.M.Yang, H.Gao, K.Liu: Journal of Qinghai University (Natural Science Edition), Vol.23(2005), p.41(In Chinese) [18] Z.S.Qin,F.Q.Chang,H.X.Han,G.R.Chen: Chinese Journal of Health Laboratory Technology,Vol.12(2002), p.306(In Chinese) [19] J.C.Boulet,P.Williams,T.Doco: Carbohydrate Polymers, Vol.69(2007), p.79 [20] X.B.Fang, X.E.
Chen, H.Yu, R.Song:Journal of Chinese Institute of Food Science and Technology, Vol.9(2009), p.103(In Chinese) [21] S.G.Chen, C.H.Xue, L.A.Yin, Q.J.Tang, G.L.Yu, W.G.Chai:Carbohydrate Polymers, Vol.83(2011), p.688 [22] A.S.Amarasekara, G.Opoku, X.D.Qiu, V.
Online since: September 2013
Authors: Peng Jia
Introduction
Increased demands for precision components made of brittle materials such as optical glasses and advanced ceramics are such that conventional grinding and polishing techniques can no longer meet the requirements of today’s precision engineering.
Diamond cutting is a promising alternative to grinding and polishing techniques for fabricating high quality surfaces on brittle materials as a well-defined single point tool is more predictable than a multi-point grinding wheel [1-3].
Journal Series C, Vol. 47 (2004) No.1, pp. 29 [2] W.S.
Lee: Sadhana-Academy Proceedings in Engineering Sciences, Vol. 28 (2003) No.5, pp. 945 [5] M.
Ngoi: Journal of Materials Processing Technology, Vol. 121 (2002) No.2-3, pp. 250 [6] T.
Diamond cutting is a promising alternative to grinding and polishing techniques for fabricating high quality surfaces on brittle materials as a well-defined single point tool is more predictable than a multi-point grinding wheel [1-3].
Journal Series C, Vol. 47 (2004) No.1, pp. 29 [2] W.S.
Lee: Sadhana-Academy Proceedings in Engineering Sciences, Vol. 28 (2003) No.5, pp. 945 [5] M.
Ngoi: Journal of Materials Processing Technology, Vol. 121 (2002) No.2-3, pp. 250 [6] T.
Dynamic Response of Magnesium Alloy and its Nanocomposite under High Strain Rate Compressive Loading
Online since: September 2013
Authors: Xiao Jing, Wei Shu Dong
International Materials Reviews, 1994. 39(1): p. 1-23
Journal of Materials Science, 2004. 39(20): p. 6153-6171
Materials Science and Technology, 2004. 20(11): p. 1383-1388
Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2009. 523(1-2): p. 304-311
Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2009. 517(1-2): p. 24-29
Journal of Materials Science, 2004. 39(20): p. 6153-6171
Materials Science and Technology, 2004. 20(11): p. 1383-1388
Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2009. 523(1-2): p. 304-311
Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2009. 517(1-2): p. 24-29
Online since: March 2012
Authors: Dan Dan Ji, Bin Xu, Hong Xia Jia, Xin Liao, Zhi Tao Liu
Journal of Ballistics, Vol.14(2002),p.8-13
Journal of Ballistics,Vol.12(2000),p.11-14
Journal of Ballistics,Vol.20(2008),p.29-32
Journal of Nanjing university of science and technology,Vol.19(1995),p.489-492 [8] ZhiMing Jing.
Beijing: Beijing University of Science and Technology Press, Beijing, 2004.
Journal of Ballistics,Vol.12(2000),p.11-14
Journal of Ballistics,Vol.20(2008),p.29-32
Journal of Nanjing university of science and technology,Vol.19(1995),p.489-492 [8] ZhiMing Jing.
Beijing: Beijing University of Science and Technology Press, Beijing, 2004.