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Online since: August 2017
Authors: Yvan Bordiec, Benoit Grimault, Paul Lefèvre, Frédéric Chateau, Renaud Frappier
RS after different HFMI processes were extensively characterized by Nitschke-Pagel and co-workers in different welding configurations and materials [5-7].
Topper, High cycle fatigue behavior of impact treated welds under variable amplitude loading conditions, International Journal of Fatigue 81 (2015), 128-142 [20] Information on http://www.empowering-technologies.com/page-43-ultrasonic-impact-treatment-needle-peening.html [21] Fabien Lefebvre, et al., External reference samples for residual stress analysis by X-ray diffraction, Materials Science Forum 681 (2001), 215-222 [22] Y.
Fujiwara, On the diffraction plane dependency of X-ray elastic constants, Journal of the Society of Materials Science Japan 18 (1969), 1066-1071 [23] A.
Bocher, Computational quantification and correction of the errors induced by layer removal for subsurface residual stress measurements, International Journal of Mechanical Sciences 64 (2012), 184-195 [30] T.
Frydrysek, Report about the possibilities of FEM applied in the verification of X-Ray measurement of residual stress, MM Science Journal 178/179 (2010), 1-2 [34] E.
Topper, High cycle fatigue behavior of impact treated welds under variable amplitude loading conditions, International Journal of Fatigue 81 (2015), 128-142 [20] Information on http://www.empowering-technologies.com/page-43-ultrasonic-impact-treatment-needle-peening.html [21] Fabien Lefebvre, et al., External reference samples for residual stress analysis by X-ray diffraction, Materials Science Forum 681 (2001), 215-222 [22] Y.
Fujiwara, On the diffraction plane dependency of X-ray elastic constants, Journal of the Society of Materials Science Japan 18 (1969), 1066-1071 [23] A.
Bocher, Computational quantification and correction of the errors induced by layer removal for subsurface residual stress measurements, International Journal of Mechanical Sciences 64 (2012), 184-195 [30] T.
Frydrysek, Report about the possibilities of FEM applied in the verification of X-Ray measurement of residual stress, MM Science Journal 178/179 (2010), 1-2 [34] E.
Online since: May 2023
Authors: Hui Lin Ong, Ronniel D. Manalo, Marvin U. Herrera, Mary Donnabelle L. Balela, Ana Rose Ramos
Materials made from renewable resources offer a promising strategy for reducing environmental problems.
Introduction The use of biodegradable materials to reduce the use of plastic packaging is of interest nowadays.
Studies have shown the possibility of producing sustainable materials derived from natural polymers.
Among different sources of starch, cassava starch is an excellent raw material for the production of biodegradable materials.
Hubinger: Journal of Food Science Vol. 75 No.5 (2010), pp.E297-E304 [5] A.
Introduction The use of biodegradable materials to reduce the use of plastic packaging is of interest nowadays.
Studies have shown the possibility of producing sustainable materials derived from natural polymers.
Among different sources of starch, cassava starch is an excellent raw material for the production of biodegradable materials.
Hubinger: Journal of Food Science Vol. 75 No.5 (2010), pp.E297-E304 [5] A.
Online since: March 2010
Authors: Xian Li Liu, Guang Jun Chen, Cai Xu Yue
Vol. 42 (2005), P. 467
[2] ZHANG Xue-ping, ZHAO Guo-wei and JIANG Hui et al: Journal of Shanghai Jiaotong
University.
Vol. 5 (2006), P. 19 (In Chinese) [4] X.L.Liu, F.G.Yan and Y.F.Li et al: Materials.Science Forum.
Chen: Process Materials Science Forum.
Vols.532-533 (2006), P. 412 [6] G.J.Chen, X.L Liu and Wang Y: Key Engineering Materials.
Vols. 392-394(2009), P. 351 [7] XIONG Dazhang, WANG Changxing: Journal of Changchun Institute of Optics and Fine Mechanics.
Vol. 5 (2006), P. 19 (In Chinese) [4] X.L.Liu, F.G.Yan and Y.F.Li et al: Materials.Science Forum.
Chen: Process Materials Science Forum.
Vols.532-533 (2006), P. 412 [6] G.J.Chen, X.L Liu and Wang Y: Key Engineering Materials.
Vols. 392-394(2009), P. 351 [7] XIONG Dazhang, WANG Changxing: Journal of Changchun Institute of Optics and Fine Mechanics.
Online since: January 2014
Authors: Shuo Li, Hui Bin Wu, Di Tang, Ji Guang Xiong
Acarer: Journal of Materials Processing Technology, Vol. 152 (2004), p. 91
[5] V.
Szalay: Journal of Materials Processing Technology, Vol. 44 (1994), p. 99 [8] A.G.
Vaxevanidis: Materials Science and Engineering: A, Vol. 188 (1994), p. 267 [9] H.M.
Acarer: Materials Science and Engineering: A , Vol. 363 (2003), p. 290
Nagarjuna: Materials Science and Technology.
Szalay: Journal of Materials Processing Technology, Vol. 44 (1994), p. 99 [8] A.G.
Vaxevanidis: Materials Science and Engineering: A, Vol. 188 (1994), p. 267 [9] H.M.
Acarer: Materials Science and Engineering: A , Vol. 363 (2003), p. 290
Nagarjuna: Materials Science and Technology.
Online since: December 2011
Authors: Xu Dong Zhou, Xiang Ru Liu
Hot Forming Behavior and Flow Stress Model of Steel 50A1300
Xudong ZHOU1, a, Xiangru LIU2, b
1Material Science & Engineering College, Henan University of Science & Technology, Luo Yang, 471003, China
2Physics & Engineering College, Henan University of Science & Technology, Luo Yang, 471003, China
asyuuzhou@163.com, bxiangruliu314@126.com
Keywords: Hot Forming, Flow Stress Model, Non-oriented Silicon Steel
Abstract.
Kaido: Journal of Magnetism and Magnetic Materials Vol. 209 (2000) p.197-200 [2] M.
Paolinelli: Journal of Magnetism and Magnetic Materials Vol. 254–255 (2003) p.379–381 [3]T.
Moses: Journal of Magnetism and Magnetic Materials Vol. 320 (2008) p.e611–e613 .[4] H.
Salinas-Rodriguez: Journal of Magnetism and Magnetic Materials Vol. 323 (2011) p. 2524–2530 [7] J.
Kaido: Journal of Magnetism and Magnetic Materials Vol. 209 (2000) p.197-200 [2] M.
Paolinelli: Journal of Magnetism and Magnetic Materials Vol. 254–255 (2003) p.379–381 [3]T.
Moses: Journal of Magnetism and Magnetic Materials Vol. 320 (2008) p.e611–e613 .[4] H.
Salinas-Rodriguez: Journal of Magnetism and Magnetic Materials Vol. 323 (2011) p. 2524–2530 [7] J.
Online since: December 2009
Authors: Feng Li, Yong Lin Su, Du Fang Shi, Cheng Tao Wang
One of these
materials, polyvinyl alcohol (PVA) hydrogel is proposed to be used as artificial cartilage in joint
replacement.
Many kinds of synthetic articular cartilage, such as methyl methacrylate, poly (2-hydroxyethyl) methacrylate (polyHEMA) hydrogel, polyvinyl alcohol (PVA) hydrogel and so on, are used to replace the traditional joint materials.
Materials and methods Specimen preparation.
PVA hydrogel is a kind of viscoelastic and porous material.
Acknowledgements This research was supported by the national natural science foundation of China (No. 50535050).
Many kinds of synthetic articular cartilage, such as methyl methacrylate, poly (2-hydroxyethyl) methacrylate (polyHEMA) hydrogel, polyvinyl alcohol (PVA) hydrogel and so on, are used to replace the traditional joint materials.
Materials and methods Specimen preparation.
PVA hydrogel is a kind of viscoelastic and porous material.
Acknowledgements This research was supported by the national natural science foundation of China (No. 50535050).
Online since: November 2011
Authors: Ling Zhang, Zhi Xian Chang, De Liang Li
Tai: Silicone Materials.
Qin: Journal of Wuhan University of Science and Technoogy (Natural Science Edition).
Nie: Journal of Inorganic Materials, Vol. 22(5) (2007), p. 949 [10] A.S.M.
Li: Chinese Journal of Materials Research.
Xie: Journal of Functional Materials.
Qin: Journal of Wuhan University of Science and Technoogy (Natural Science Edition).
Nie: Journal of Inorganic Materials, Vol. 22(5) (2007), p. 949 [10] A.S.M.
Li: Chinese Journal of Materials Research.
Xie: Journal of Functional Materials.
Online since: October 2022
Authors: Oleg A. Kudryavtsev, Anastasia V. Ignatova, Nikita A. Olivenko
Nowadays, several approaches have been developed for modelling the impact loading of composite materials.
Rivallant, Damage tolerance of composite structures under low-velocity impact, in: V.V Silberschmidt (Eds), Dynamic Deformation, Damage and Fracture in Composite Materials and Structures, Elsevier, 2016, pp. 7-33
Pettermann, A multiscale approach for modelling impact on woven composites under consideration of the fabric topology, Journal of Composite Materials. 52 (2018) 2859-2874
Sapozhnikov, Yarn-level modelling of woven and unidirectional thermoplastic composite materials under ballistic impact, PNRPU Mechanics Bulletin. 3 (2016) 108-119
Reddy, Ballistic impact behaviour of woven fabric composites: Parametric studies, Materials Science and Engineering A. 412 (2005) 104-116.
Rivallant, Damage tolerance of composite structures under low-velocity impact, in: V.V Silberschmidt (Eds), Dynamic Deformation, Damage and Fracture in Composite Materials and Structures, Elsevier, 2016, pp. 7-33
Pettermann, A multiscale approach for modelling impact on woven composites under consideration of the fabric topology, Journal of Composite Materials. 52 (2018) 2859-2874
Sapozhnikov, Yarn-level modelling of woven and unidirectional thermoplastic composite materials under ballistic impact, PNRPU Mechanics Bulletin. 3 (2016) 108-119
Reddy, Ballistic impact behaviour of woven fabric composites: Parametric studies, Materials Science and Engineering A. 412 (2005) 104-116.
Online since: February 2013
Authors: Hai Jie Yu, Sheng Su
The byproducts of a plant are the raw materials of another plant.
Journal of Cleaner Production. (2004),p. 809-823
Chinese Journal of management.vol.6 .(2009),p45-50 [6] J.H.Guo,B.Y.Li,M.Ni.
Journal of Soft Science vol.26.(2012),p.131-135 [7] C.X.
Operations Research and Management Science.
Journal of Cleaner Production. (2004),p. 809-823
Chinese Journal of management.vol.6 .(2009),p45-50 [6] J.H.Guo,B.Y.Li,M.Ni.
Journal of Soft Science vol.26.(2012),p.131-135 [7] C.X.
Operations Research and Management Science.
Online since: June 2008
Authors: Yi He Zhang, Hai Tao Huang, Helen Lai Wah Chan, Xiang Yang Hao, Jin Bo Lu
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