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Online since: October 2023
Authors: Eva María Rubio, Beatriz de Agustina, Marta María Marín, M.A. Rabalo, Amabel Garcia-Dominguez
It is observed that articles framed in the Material Sciences and Engineering areas predominate, of a transversal nature for manufacturing technologies and processes.
Processes and materials.
Karunakaran, Hybrid layered manufacturing of turbine blades, Materials today proceedings. 4(8) (2017) 8837-8847
Alberdi, Analysis of the machining process of inconel 718 parts manufactured by laser metal deposition, Materials. 12(13) (2019) 2159-2173
Zhang, Repairing surface defects of metal parts by groove machining and wire + arc based filling, Journal of Materials Processing Technology. 274 (2019) 116268
Processes and materials.
Karunakaran, Hybrid layered manufacturing of turbine blades, Materials today proceedings. 4(8) (2017) 8837-8847
Alberdi, Analysis of the machining process of inconel 718 parts manufactured by laser metal deposition, Materials. 12(13) (2019) 2159-2173
Zhang, Repairing surface defects of metal parts by groove machining and wire + arc based filling, Journal of Materials Processing Technology. 274 (2019) 116268
Online since: September 2013
Ten
supporting journals, including Journal of Inorganic and Organometallic Polymers
and Materials (JIOPM; Springer), Monatshefte für Chemie - Chemical Monthly (CM;
Springer) Journal of the Chinese Advanced Materials Society (JCAMS; Taylor
Francis), Journal of Energetic Materials (JEM; Taylor & Francis), Journal of Nano
Research (JNanoR; Trans Tech), Polymers & Polymer Composites (PPC; Smithers
Rapra), Current Organic Chemistry (COC; Bentham Science), Key Engineering
Materials (KEM; Trans Tech), The Open Electrochemistry Journal (TOEJ; Bentham
Science), and American Journal of Environmental Science (AJES; Science
publications), have included ca. 700 full manuscripts contributed and 315 abstracts.
H Fujii (National Institute for Materials Science, Japan) Dr.
Kumakura (National Institute for Materials Science, Japan) Dr.
K Togano (National Institute for Materials Science, Japan) Dr.
Korea) Sponsors Jiangsu University University of Jinan State Key Laboratory of Bioreactor Engineering (East China University of Science and Technology) Hengyang Normal University Journal of Inorganic and Organometallic Polymers and Materials (JIOPM; Springer), Monatshefte für Chemie - Chemical Monthly (CM; Springer) Journal of the Chinese Advanced Materials Society (JCAMS; Taylor Francis) Journal of Energetic Materials (JEM; Taylor & Francis) Journal of Nano Research (JNanoR; Trans Tech) Polymers & Polymer Composites (PPC; Smithers Rapra) Current Organic Chemistry (COC; Bentham Science) Key Engineering Materials (KEM; Trans Tech) The Open Electrochemistry Journal (TOEJ; Bentham Science) American Journal of Environmental Science (AJES; Science publications).
H Fujii (National Institute for Materials Science, Japan) Dr.
Kumakura (National Institute for Materials Science, Japan) Dr.
K Togano (National Institute for Materials Science, Japan) Dr.
Korea) Sponsors Jiangsu University University of Jinan State Key Laboratory of Bioreactor Engineering (East China University of Science and Technology) Hengyang Normal University Journal of Inorganic and Organometallic Polymers and Materials (JIOPM; Springer), Monatshefte für Chemie - Chemical Monthly (CM; Springer) Journal of the Chinese Advanced Materials Society (JCAMS; Taylor Francis) Journal of Energetic Materials (JEM; Taylor & Francis) Journal of Nano Research (JNanoR; Trans Tech) Polymers & Polymer Composites (PPC; Smithers Rapra) Current Organic Chemistry (COC; Bentham Science) Key Engineering Materials (KEM; Trans Tech) The Open Electrochemistry Journal (TOEJ; Bentham Science) American Journal of Environmental Science (AJES; Science publications).
Online since: November 2025
Authors: Mariy Shyogoleva, Victoria Otrosh, Oleksandr Tyshchenko, Nina Rashkevich
Materials Science Forum. 1006 (2020) 166–172
Journal of Superhard Materials. 41(1) (2019) 53–59
In Materials Science Forum.
Materials Science Forum. 1141 (2024) 35–42
Materials Science Forum. 1038 (2021) 407–416
Journal of Superhard Materials. 41(1) (2019) 53–59
In Materials Science Forum.
Materials Science Forum. 1141 (2024) 35–42
Materials Science Forum. 1038 (2021) 407–416
Online since: January 2021
Authors: Ahmed TAFRAOUI, Noureddine Kacimi
Composite materials have important advantages over traditional materials.
Materials and Methods Materials.
Gibson, Modal vibration response measurements for characterization of composite materials and structures, Composites science and technology, Réf 60(15) 2769-2780, 2000
[15] Chung-Shin Chang, Turning of glass-fiber reinforced plastics materials with chamfered main cutting edge carbide tools, journal of materials processing technology, vol.180, p.117-129, 2006
Sztajnowski, Multifunctional Polymer Composites Produced by Melt-Blown Technique to Use in Filtering Respiratory Protective Devices, Materials Journal, 2020, 13, 712; doi:10.3390/ma13030712
Materials and Methods Materials.
Gibson, Modal vibration response measurements for characterization of composite materials and structures, Composites science and technology, Réf 60(15) 2769-2780, 2000
[15] Chung-Shin Chang, Turning of glass-fiber reinforced plastics materials with chamfered main cutting edge carbide tools, journal of materials processing technology, vol.180, p.117-129, 2006
Sztajnowski, Multifunctional Polymer Composites Produced by Melt-Blown Technique to Use in Filtering Respiratory Protective Devices, Materials Journal, 2020, 13, 712; doi:10.3390/ma13030712
Online since: January 2012
Authors: Chen Xu, Yong Li Zhang, Jing Yan, Yu Liu, Mao Cong Yi, Zhi Ming Sun, Jian Ping Gao
Reference
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[2] W.K.Choll, T.Robert, L.Lichun et al: Jourmal of Biomedical Materials Research Vol. 85(2008), p. 1114-1119
[8] F.C.M.Driessens, M.G.Boltong, O.Bermudez et al: Journal Material Science Material in Medicine Vol. 4(1993), p. 503-508
[11] M.Nilsson, L.Wielanek, J.S.Wang, et al: Journal of Material Science Material in Medicine Vol. 14(2003), p. 399-404
[13] C.J.Gao, J.P.Gao, X.D.You et al: Journal Biomedical Material Research A Vol. 73(2005), p. 244-253.
[2] W.K.Choll, T.Robert, L.Lichun et al: Jourmal of Biomedical Materials Research Vol. 85(2008), p. 1114-1119
[8] F.C.M.Driessens, M.G.Boltong, O.Bermudez et al: Journal Material Science Material in Medicine Vol. 4(1993), p. 503-508
[11] M.Nilsson, L.Wielanek, J.S.Wang, et al: Journal of Material Science Material in Medicine Vol. 14(2003), p. 399-404
[13] C.J.Gao, J.P.Gao, X.D.You et al: Journal Biomedical Material Research A Vol. 73(2005), p. 244-253.
A Micro Constitutive Model for Ultra-High Molecular Weight Polyethylene Orthopaedic Implant Bearings
Online since: January 2018
Authors: Chen Yuan Chung
[5] Sia Nemat-Nasser, Muneo Hori, Micromechanics: overall properties of heterogeneous materials, North-Holland Series in Applied Mathematics and Mechanics, 1999
Benveniste, Mori-Tanaka estimates of the overall elastic moduli of certain composite materials, Journal of Applied Mechanics, Vol. 59 (1992), p. 539-546
Young, Deformation Mechanisms in Crystalline Polymers, Journal of Materials Science, Vol. 9 (1974), p. 2034-2051
Gao, The effect of nanotube waviness and agglomeration on the elastic property of carbon nanotube-reinforced composites, Journal of Engineering Materials and Technology, Vol. 126 (2004), p. 250-257
Simoes, Predicting the mechanical behavior of amorphous polymeric materials under strain through multi-scale simulation, Applied Surface Science, Vol. 306 (2014), p. 37-46.
Benveniste, Mori-Tanaka estimates of the overall elastic moduli of certain composite materials, Journal of Applied Mechanics, Vol. 59 (1992), p. 539-546
Young, Deformation Mechanisms in Crystalline Polymers, Journal of Materials Science, Vol. 9 (1974), p. 2034-2051
Gao, The effect of nanotube waviness and agglomeration on the elastic property of carbon nanotube-reinforced composites, Journal of Engineering Materials and Technology, Vol. 126 (2004), p. 250-257
Simoes, Predicting the mechanical behavior of amorphous polymeric materials under strain through multi-scale simulation, Applied Surface Science, Vol. 306 (2014), p. 37-46.
Online since: May 2013
Authors: Ming Zhe Li, Wen Zhi Fu, Qi Gang Han, Qiang Zhang, Ya Dong Chen
[3] Alberti N., Fratini L.: Journal of Materials Processing Technology Vol.150 (2004) p.150:2–9
[5] Watari Hisaki, Ona Hiroshi: Journal of Materials Processing Technology Vol.80-81 (1998) p. 225–231
[6] Music O., Allwood J.M., Kawai K.: Journal of Materials Processing Technology Vol.210 (2010) p. 3-23
[7] Zhang S.H., Danckert J.: Journal of Materials Processing Technology Vol.83 (1998) p.14-25
[12] Cai Zhong-Yi, Wang Shao-Hui, Xu Xu-Dong, Li Ming-Zhe: Journal of Materials processing technology Vol.209 (2009) p.396-394.
[5] Watari Hisaki, Ona Hiroshi: Journal of Materials Processing Technology Vol.80-81 (1998) p. 225–231
[6] Music O., Allwood J.M., Kawai K.: Journal of Materials Processing Technology Vol.210 (2010) p. 3-23
[7] Zhang S.H., Danckert J.: Journal of Materials Processing Technology Vol.83 (1998) p.14-25
[12] Cai Zhong-Yi, Wang Shao-Hui, Xu Xu-Dong, Li Ming-Zhe: Journal of Materials processing technology Vol.209 (2009) p.396-394.
Online since: October 2025
Authors: Silvia Mar'atus Shoimah, George Amos Bastian, Y. Mardiyati, Steven Steven
Material and Metod
Materials.
Maddah, Polypropylene as a Promising Plastic: A Review, American Journal of Polymer Science 2016, 6(1): 1-11
Antonakou, Chemical recycling of plastic wastes made from polyethylene (LDPE and HDPE) and polypropylene (PP), Journal of Hazardous Materials, Volume 149, Issue 3, 19 November 2007, Pages 536-542
Badini, Effect of recycling on polypropylene composites reinforced with glass fibres, Journal of Thermoplastic Composite Materials, 1–17
Fudholi, A review on natural fibers for development of eco-friendly bio-composite: characteristics, and utilizations, Journal of Materials Research and Technology, Volume 13, July–August 2021, Pages 2442-2458
Maddah, Polypropylene as a Promising Plastic: A Review, American Journal of Polymer Science 2016, 6(1): 1-11
Antonakou, Chemical recycling of plastic wastes made from polyethylene (LDPE and HDPE) and polypropylene (PP), Journal of Hazardous Materials, Volume 149, Issue 3, 19 November 2007, Pages 536-542
Badini, Effect of recycling on polypropylene composites reinforced with glass fibres, Journal of Thermoplastic Composite Materials, 1–17
Fudholi, A review on natural fibers for development of eco-friendly bio-composite: characteristics, and utilizations, Journal of Materials Research and Technology, Volume 13, July–August 2021, Pages 2442-2458
Online since: December 2019
Authors: Sergei V. Klyuev, Alexander V. Klyuev, A.K. Grishko, S.V. Trukhanov
Klyuev, The Fiber-Reinforced Concrete Constructions Experimental Research, Materials Science Forum. 931 (2018) 598-602
Klyuev, Fiber Concrete on the Basis of Composite Binder and Technogenic Raw Materials, Materials Science Forum. 931 (2018) 603-607
Netrebenko, High Strength Fiber Concrete for Industrial and Civil Engineering, World Applied Sciences Journal. 24 (10) (2013) 1280-1285
Kalashnikov, Fiber Concrete on Composite Knitting and Industrialsand KMA for Bent Designs, World Applied Sciences Journal. 30 (8) (2014) 964-969
Zinkova, Ata El-Karim Soliman, Truss design calculation, Construction Materials and Products. 2 (1) (2019) 37-44.
Klyuev, Fiber Concrete on the Basis of Composite Binder and Technogenic Raw Materials, Materials Science Forum. 931 (2018) 603-607
Netrebenko, High Strength Fiber Concrete for Industrial and Civil Engineering, World Applied Sciences Journal. 24 (10) (2013) 1280-1285
Kalashnikov, Fiber Concrete on Composite Knitting and Industrialsand KMA for Bent Designs, World Applied Sciences Journal. 30 (8) (2014) 964-969
Zinkova, Ata El-Karim Soliman, Truss design calculation, Construction Materials and Products. 2 (1) (2019) 37-44.