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Online since: September 2014
Authors: Xiu Guang Song, Si Feng Zhang, Lin Li, Xue Feng Chen
Journal of TongJi University: Natural Science, 2006, 34(5):586-592.
ACI Materials Journal, 2005,102 (4): 256-264
Construction and Building Materials, 2001(5): 361-368
Journal of Building Materials,2013,16(5): 869-875.
Constuction and Building Materials, 2007, 21(4): 855-864
ACI Materials Journal, 2005,102 (4): 256-264
Construction and Building Materials, 2001(5): 361-368
Journal of Building Materials,2013,16(5): 869-875.
Constuction and Building Materials, 2007, 21(4): 855-864
Online since: November 2018
Authors: Zhen Gang Guo, Hong Mei Qiu
Brück, Taming the First-Order Transition in Giant Magnetocaloric Materials, Advanced Materials 26 (2014) 2671-2675
Conde, Ball milling as a way to produce magnetic and magnetocaloric materials: a review, Journal of Materials Science 52 (2017) 11834-11850
Cheng, Recent progress in exploring magnetocaloric materials, Advanced Materials 21 (2009) 4545-4564
Nordblad, Magnetocaloric materials: Strained relations, Nature materials 12 (2013) 11-12
Nakagome, Environmentally friendly magnetic refrigeration technology using ferromagnetic Gd alloys, International Journal of Environmental Science and Development 7 (2016) 316
Conde, Ball milling as a way to produce magnetic and magnetocaloric materials: a review, Journal of Materials Science 52 (2017) 11834-11850
Cheng, Recent progress in exploring magnetocaloric materials, Advanced Materials 21 (2009) 4545-4564
Nordblad, Magnetocaloric materials: Strained relations, Nature materials 12 (2013) 11-12
Nakagome, Environmentally friendly magnetic refrigeration technology using ferromagnetic Gd alloys, International Journal of Environmental Science and Development 7 (2016) 316
Online since: May 2011
Authors: Hong Zhong, Li Qing Li, Liu Yin Xia
Used methanol, toluene, formaldehyde, 4-tert-octylphenol, and hydroxylamine as raw materials, triumphantly obtained a new extractant by the processes of salinization reaction, formylation reaction, oximate reaction and so on, the purity of new extractant is > 98%.
(1)The preparation cost of the new copper extractant (CEC) is very low (the all materials are homemade and cheap), the performances of which for separating and recovering Cu2+ are excellent by using this copper extractant
Journal of Hazardous Materials.Vol.164(2009),p.1152 [2] Papadopoulos, A.Fatta.
Journal of Hazardous Materials.
Chemical Engineering Journal.
(1)The preparation cost of the new copper extractant (CEC) is very low (the all materials are homemade and cheap), the performances of which for separating and recovering Cu2+ are excellent by using this copper extractant
Journal of Hazardous Materials.Vol.164(2009),p.1152 [2] Papadopoulos, A.Fatta.
Journal of Hazardous Materials.
Chemical Engineering Journal.
Online since: August 2022
Authors: Nor Azizah Parmin, Zahraa S. Alshaikhli, Makram A. Fakhri, Sarmad Fawzi Hamza Alhasan, May A. Abduljabbar
A Abduljabar, Some of Electrical and Detection properties of nano silver oxide, IOP Conference Series: Materials Science and Engineering 454(1) 2018 012161. doi:10.1088/1757-899X/454/1/012161
[6] T.C.
Salim, Photo Voltaic Properties of AgO/Si Heterojunction Devic Substrate Conductivity, Materials Science Forum, 1002 (2020) 200-210 [27] M.A.
T.Salim, Synthesis of Cadmium Oxide/Si Heterostructure for Two-Band Sensor Application, Iranian Journal of Science and Technology, Transactions A: Science 43(3) (2019) 1337–1343
Agool, Synthesis of SnO2 nanostructures employing Nd:YAG laser, Applied Physics A: Materials Science and Processing 120(2) (2015) 725-730
Nanoelectronics and Materials 9 (2016) 37-49 [48] M.
Salim, Photo Voltaic Properties of AgO/Si Heterojunction Devic Substrate Conductivity, Materials Science Forum, 1002 (2020) 200-210 [27] M.A.
T.Salim, Synthesis of Cadmium Oxide/Si Heterostructure for Two-Band Sensor Application, Iranian Journal of Science and Technology, Transactions A: Science 43(3) (2019) 1337–1343
Agool, Synthesis of SnO2 nanostructures employing Nd:YAG laser, Applied Physics A: Materials Science and Processing 120(2) (2015) 725-730
Nanoelectronics and Materials 9 (2016) 37-49 [48] M.
Online since: February 2019
Authors: Thierry Baudin, François Brisset, Tahar Abid, A.L. Helbert, Toufik Ziar, Hichem Farh, Toufik Djimaoui, Mosbah Zidani, Mohamed Chaouki Nebbar
Experimental Procedures
2.1 Materials
The present study was carried out on medium carbon steel wires provided by TREFISSOUD JSC., Algeria.
Zhao, F.Fang, ‘Effect of reserved texture on mechanical properties of cold drawn pearlitic steel wire’, Advanced Materials Research 936(2014) 1948-1952 [3] N.
Toribio and A.M .lancha, ‘Effect of cold drawing on environmentally assisted cracking of cold-drawn steel’, Journal of Materials Science 31 (1996) 6015–6024 [5] J.Toribio and E.
Ovejero, ‘Microstructure orientation in a pearlitic steel subjected to progressive plastic deformation’, Journal of Materials Science Letters 17(1998) 1037-1040 [6] J.D.
ScriptaMaterialia 59(2000) 850-853 [12] S.Tagashira, K.Sakai, T.Furuhara, T.Maki, ‘Deformation microstructure and tensile strength of cold rolled pearlitic steel sheets’, ISIJ International4 (2000)1149-1155 [13] C.C.Robert, B.Forfert, B.bolle, J.J.Fundenberger, A.Tidu, ‘Influence of torsion deformation on microstructure of cold-drawn pearlitic steel wire’, Journal of Materials Science 43(2008) 1241-1248 [14] N.A.Raji and O.O.Oluwole, ‘Mechanical properties of cold-drawn low carbon steel for nail manufacture: experimental observation’, Research Journal of Applied Sciences, Engineering and Technology 5 (2013) 118-122
Zhao, F.Fang, ‘Effect of reserved texture on mechanical properties of cold drawn pearlitic steel wire’, Advanced Materials Research 936(2014) 1948-1952 [3] N.
Toribio and A.M .lancha, ‘Effect of cold drawing on environmentally assisted cracking of cold-drawn steel’, Journal of Materials Science 31 (1996) 6015–6024 [5] J.Toribio and E.
Ovejero, ‘Microstructure orientation in a pearlitic steel subjected to progressive plastic deformation’, Journal of Materials Science Letters 17(1998) 1037-1040 [6] J.D.
ScriptaMaterialia 59(2000) 850-853 [12] S.Tagashira, K.Sakai, T.Furuhara, T.Maki, ‘Deformation microstructure and tensile strength of cold rolled pearlitic steel sheets’, ISIJ International4 (2000)1149-1155 [13] C.C.Robert, B.Forfert, B.bolle, J.J.Fundenberger, A.Tidu, ‘Influence of torsion deformation on microstructure of cold-drawn pearlitic steel wire’, Journal of Materials Science 43(2008) 1241-1248 [14] N.A.Raji and O.O.Oluwole, ‘Mechanical properties of cold-drawn low carbon steel for nail manufacture: experimental observation’, Research Journal of Applied Sciences, Engineering and Technology 5 (2013) 118-122
Online since: November 2025
Authors: Iuliana Duma, Raluca Faur, Mihai Florea, Andrei Christian Bucur
Introduction
Chemical analysis plays an important role in various fields, including materials science, environmental monitoring, forensics, and quality control in manufacturing.
They are valuable in material sciences for studying lighter atomic elements on surfaces but have limited use in biological sciences.
Non-destructive for surface imaging, but requires special preparation for non-conductive materials.
Materials chemistry and physics, 81(2-3), 345-348
Journal of Vacuum Science & Technology A, 28(1), 77-87
They are valuable in material sciences for studying lighter atomic elements on surfaces but have limited use in biological sciences.
Non-destructive for surface imaging, but requires special preparation for non-conductive materials.
Materials chemistry and physics, 81(2-3), 345-348
Journal of Vacuum Science & Technology A, 28(1), 77-87
Online since: December 2014
- hydrogen degradation of materials
From 2006: professor in the field of material science, chief of department of hydrogen resistance of materials at the Karpenko Physico-Mechanical Institute, National Academy of Sciences of Ukraine.
Educational activities: courses at the surface engineering, material science, chemical heat treatment, bases of fracture mechanics, cold working treatment, ageing of materials for nuclear, hydrogen and forcible energetic, medical material science and biocompatible electronics
2002-2007: Professor at the Technical University of Szczecin, Institute of Materials Engineering
Reviewer of various associations and international publications in on-line, open access journal in the fields of fracture and solid mechanics and in structural and material engineering, as the International Journal of Fracture, Engineering Fracture Mechanics, Materials Science, Welding Technology Review, Maintenance Problems, Mechanical Fatigue of Metals, Tribology International, Materials Chemistry and Physics, Advances in Mechanical Engineering.
From 2006: professor in the field of material science, chief of department of hydrogen resistance of materials at the Karpenko Physico-Mechanical Institute, National Academy of Sciences of Ukraine.
Educational activities: courses at the surface engineering, material science, chemical heat treatment, bases of fracture mechanics, cold working treatment, ageing of materials for nuclear, hydrogen and forcible energetic, medical material science and biocompatible electronics
2002-2007: Professor at the Technical University of Szczecin, Institute of Materials Engineering
Reviewer of various associations and international publications in on-line, open access journal in the fields of fracture and solid mechanics and in structural and material engineering, as the International Journal of Fracture, Engineering Fracture Mechanics, Materials Science, Welding Technology Review, Maintenance Problems, Mechanical Fatigue of Metals, Tribology International, Materials Chemistry and Physics, Advances in Mechanical Engineering.
Online since: May 2011
Authors: Jian Peng Zou
High purity HA is the ideal raw materials to fabricate excellent artificial bone and artificial tooth.
Experimental Ca (NO3)2 ,NH4H2PO4 and NH3.H2O were chosen as raw materials.
Materials Chemistry and Physics, 2003, 78:816-824 [4] Li SP.
Introduction for Biomedical Materials[M].
Journal of Materials Science, 1993, 28: 5297-5300 [8] Ruan JM, Zou JP, Huang BY.
Experimental Ca (NO3)2 ,NH4H2PO4 and NH3.H2O were chosen as raw materials.
Materials Chemistry and Physics, 2003, 78:816-824 [4] Li SP.
Introduction for Biomedical Materials[M].
Journal of Materials Science, 1993, 28: 5297-5300 [8] Ruan JM, Zou JP, Huang BY.
Online since: June 2015
Authors: M. Rusop, J. Rouhi, Salman A.H. Alrokayan, Haseeb A. Khan, Kevin Alvin Eswar, Mohd Husairi Fadzilah Suhaimi
Materials and method
Vertically aligned ZnO nanocone arrays were grown on PC substrates using hydrothermal-electrochemical method.
Abdullah, Annealing heat treatment of ZnO nanoparticles grown on porous Si substrate using spin-coating method, Advances in Materials Science and Engineering, 2014 (2014) 6
Kaur, Development of gas sensors using ZnO nanostructures, Journal of Chemical Sciences, 122 (2010) 57-62
Mahmodi, Enhanced optical and electrical stability of thermally carbonized porous silicon, Materials Science in Semiconductor Processing, 16 (2013) 542-546
Hassan, Growth of Vertically Aligned ZnO Nanorods Arrays by Hydrothermal Method, Advanced Materials Research, 795 (2013) 616-619
Abdullah, Annealing heat treatment of ZnO nanoparticles grown on porous Si substrate using spin-coating method, Advances in Materials Science and Engineering, 2014 (2014) 6
Kaur, Development of gas sensors using ZnO nanostructures, Journal of Chemical Sciences, 122 (2010) 57-62
Mahmodi, Enhanced optical and electrical stability of thermally carbonized porous silicon, Materials Science in Semiconductor Processing, 16 (2013) 542-546
Hassan, Growth of Vertically Aligned ZnO Nanorods Arrays by Hydrothermal Method, Advanced Materials Research, 795 (2013) 616-619
Online since: August 2014
Authors: Hao Cai, Zhi Long Chen, Qi Lin Feng, Dong Jun Guo, Yin Ma
For example, Fig. 3 can be used to determine the minimum distance between the salt caverns, to find safe places for people to stay, and to identify proper areas for storing flammable and explosive materials.
Zhang: China Safety Science Journal, Vol. 19 (9) (2009), p.125.
Ahn: Journal of hazardous materials, Vol. 97(1) (2003), p. 31
Pietersen: Journal of Hazardous Materials,Vol. 20 (1988), p. 85
Wang: Advanced Materials Research, Vol. 396 (2012), p. 66
Zhang: China Safety Science Journal, Vol. 19 (9) (2009), p.125.
Ahn: Journal of hazardous materials, Vol. 97(1) (2003), p. 31
Pietersen: Journal of Hazardous Materials,Vol. 20 (1988), p. 85
Wang: Advanced Materials Research, Vol. 396 (2012), p. 66