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Development of Flux Cored Wire Using Concentrates and Mining Industry Waste Products in the Far East
Online since: February 2019
Authors: V.M. Makienko, P.V. Sokolov, A.V. Atenyaev, L.B. Leontiev
The methodological scheme includes: methodology of selecting materials; analysis of mineral raw materials; research in the composition, structure and properties of materials; and field testing.
Applied Surface Science, 16 (2008)
Bearings at high loads, Materials and Design, 31 (2010)
[11] Jun-ki Kim, Geun-mo Kim, Seon-jin Kim, The effect of manganese on the strain-induced martensitic transformation and high temperature wear resistance of Fe–20Cr–1C–1Si hardfacing alloy, Journal of Nuclear Materials, 3 (2001)
Materials Letters, 6 (2005).
Applied Surface Science, 16 (2008)
Bearings at high loads, Materials and Design, 31 (2010)
[11] Jun-ki Kim, Geun-mo Kim, Seon-jin Kim, The effect of manganese on the strain-induced martensitic transformation and high temperature wear resistance of Fe–20Cr–1C–1Si hardfacing alloy, Journal of Nuclear Materials, 3 (2001)
Materials Letters, 6 (2005).
Online since: September 2013
Authors: Jamaluddin Mahmud, Muhammad Hussain Ismail, Nur Hanis Arzami, Nor Fazli Adull Manan
Preparing materials and samples compulsory in experiment based research.
Available at Strength of Materials laboratory in Faculty of Mechanical Engineering UiTM Shah Alam.
Gilchrist, Mélanie Otténio, Characterization of the anisotropic mechanical properties of excised human skin, Journal of the Mechanical Behavior of the Biomedical Materials. 5 (2012) 139-148 [2] Langer, K.
The Imperial Academy of Science, Vienna.
Evans, An anisotropic, hyperelastic model for skin: Experimental measurements, finite element modelling and identification of parameters for human and murine skin, Journal of the Mechanical Behavior of the Biomedical Materials. 18 (2013) 167-180 [4] Guozheng Kang and Xinfeng W, Ratchetting of porcine skin under uniaxial cyclic loading, Journal of the Mechanical Behavior of the Biomedical Materials. 4 (2011) 498-506 [5] Jansen, L., Rottier, P., Some mechanical properties of human abdominal skin measured on excised strips.
Available at Strength of Materials laboratory in Faculty of Mechanical Engineering UiTM Shah Alam.
Gilchrist, Mélanie Otténio, Characterization of the anisotropic mechanical properties of excised human skin, Journal of the Mechanical Behavior of the Biomedical Materials. 5 (2012) 139-148 [2] Langer, K.
The Imperial Academy of Science, Vienna.
Evans, An anisotropic, hyperelastic model for skin: Experimental measurements, finite element modelling and identification of parameters for human and murine skin, Journal of the Mechanical Behavior of the Biomedical Materials. 18 (2013) 167-180 [4] Guozheng Kang and Xinfeng W, Ratchetting of porcine skin under uniaxial cyclic loading, Journal of the Mechanical Behavior of the Biomedical Materials. 4 (2011) 498-506 [5] Jansen, L., Rottier, P., Some mechanical properties of human abdominal skin measured on excised strips.
Online since: September 2012
Authors: O.U. Dairo, T.M.A. Olayanju
Materials and Methods
Thin-layer drying apparatus: The thin layer drying apparatus consisted of a Gallenkhamp 200v series oven with three separated tray sections ventilated with air at the same temperature and airflow rate.
Previous studies have also showed that drying biological material is a diffusion-controlled process and may be represented by the Fick’s law [8],[16],[18].
Food science and Technology International 13 (1) (2007) 35 – 40
Makungu, Thin-layer drying of diced cassava roots, African Journal of Science and Technology: Science and Engineering Series 2 (2) (2001) 94 – 100
Cloke, Modelling of thin layer drying kinetics of cocoa beans during artificial and natural drying, Journal of Engineering Science and Technology 3 (1) (2008) 1 – 10
Previous studies have also showed that drying biological material is a diffusion-controlled process and may be represented by the Fick’s law [8],[16],[18].
Food science and Technology International 13 (1) (2007) 35 – 40
Makungu, Thin-layer drying of diced cassava roots, African Journal of Science and Technology: Science and Engineering Series 2 (2) (2001) 94 – 100
Cloke, Modelling of thin layer drying kinetics of cocoa beans during artificial and natural drying, Journal of Engineering Science and Technology 3 (1) (2008) 1 – 10
Online since: April 2020
Authors: Piyaporn Surinlert, Akkawat Ruammaitree
High surface hardness materials can be applied as bearings or shafts, turbine applications, cam or ring gears, automotive component and so on [1].
The surface hardness was measured using a Micro Materials nanoindentation tester under load control to 1 mN.
Series: Materials Science and Engineering, 526 (2019) 012008
Smovzh, CVD Graphene Transfer from Copper Substrate to Polymer, Materials Today: Proceedings 4 (2017) 11476–11479
Arif, Modified and improved Hummer's synthesis of graphene oxide for capacitors applications, Modern Electronic Materials 3 (2017) 110–116
The surface hardness was measured using a Micro Materials nanoindentation tester under load control to 1 mN.
Series: Materials Science and Engineering, 526 (2019) 012008
Smovzh, CVD Graphene Transfer from Copper Substrate to Polymer, Materials Today: Proceedings 4 (2017) 11476–11479
Arif, Modified and improved Hummer's synthesis of graphene oxide for capacitors applications, Modern Electronic Materials 3 (2017) 110–116
Online since: April 2021
Authors: Yi Da Wang
Materials Horizons, 2020
Materials Science in Semiconductor Processing, 2020, 107: 104837
Materials Science and Engineering: B, 2015, 194: 48-54
Journal of Materials Chemistry A, 2018, 6(47): 23932-23977
Materials Science in Semiconductor Processing, 2020, 107: 104837.
Materials Science in Semiconductor Processing, 2020, 107: 104837
Materials Science and Engineering: B, 2015, 194: 48-54
Journal of Materials Chemistry A, 2018, 6(47): 23932-23977
Materials Science in Semiconductor Processing, 2020, 107: 104837.
Online since: April 2012
Authors: Ya Dong Bian, Ran Hai
Journal of Tongji University(Natural Science), 34(2006) 786-789
Journal of Building Materials, 12(2009) 88-91
Journal of Building Materials, 9(2006) 593-597
New Building Materials, 6(2005) 12-14
Inorganic materials science, Henan Science and Technology Press, Zhengzhou, 1998.
Journal of Building Materials, 12(2009) 88-91
Journal of Building Materials, 9(2006) 593-597
New Building Materials, 6(2005) 12-14
Inorganic materials science, Henan Science and Technology Press, Zhengzhou, 1998.
Online since: March 2013
Authors: Ping Chen, Lian Bao Kan
Thring: Journal of Hazardous Materials Vol.203–204 (2012), p.195–203
[4] Bao-chen Cui, Shu-zhi Liu, Fu-yi Cui: Process Safety and Environmental Protection Vol.89 (2011) , p.198–203
[5] Baochen Cui, Fuyi Cui, Guolin Jing: Journal of Hazardous Materials Vol.165 (2009), p.511–517
[6] D.
Stefanescu: Journal of Petroleum Science and Engineering Vol. 22 (1999) , p.151–160 [11] C.
Nammari: Journal of Hazardous Materials Vol.148(2007) , p.616– 622 [16] Nurdan Buyukkamaci, Emrah Kucukselek: Journal of Hazardous Materials Vol.144 (2007) , p.323–327 [17] Lin Yang, George Nakhla, Amarjeet Bassi: Journal of Hazardous Materials Vol.125 (2005) , p.130–140 [18] S.N.
Gimenez: Journal of Hazardous Materials Vol.167 (2009) , p.879– 884 [21] Essam A.H.
Abouelnasr: Process Safety and Environmental Protection Vol.88(2010) , p.318–326 [22] Lingsheng Zhou, Xiumin Jiang, Jianguo Liu: Journal of Hazardous Materials Vol.170 (2009) , p.175–179
Stefanescu: Journal of Petroleum Science and Engineering Vol. 22 (1999) , p.151–160 [11] C.
Nammari: Journal of Hazardous Materials Vol.148(2007) , p.616– 622 [16] Nurdan Buyukkamaci, Emrah Kucukselek: Journal of Hazardous Materials Vol.144 (2007) , p.323–327 [17] Lin Yang, George Nakhla, Amarjeet Bassi: Journal of Hazardous Materials Vol.125 (2005) , p.130–140 [18] S.N.
Gimenez: Journal of Hazardous Materials Vol.167 (2009) , p.879– 884 [21] Essam A.H.
Abouelnasr: Process Safety and Environmental Protection Vol.88(2010) , p.318–326 [22] Lingsheng Zhou, Xiumin Jiang, Jianguo Liu: Journal of Hazardous Materials Vol.170 (2009) , p.175–179
Online since: February 2018
Authors: Bo Zhang, Peng Fei Liu, Jun Jun Li, Wen Jun Chen, Ru Long Zhou
Iron-Based Amorphous Magnetic Properties by Ni Content Tuning and Isothermal Treatment
Pengfei Liu1,a, Wenjun Chen1,b, Junjun Li1,c, Rulong Zhou1,d and Bo Zhang1,e*
1Institute of Amorphous Matter Science, School of Materials Science and Engineering, Hefei University of Technology, Hefei230009,China
apfliu@mail.hfut.edu.cn, bchenwenjun@mail.hfut.edu.cn, c15256970922@163.com, drlzhou@hfut.edu.cn, ebo.zhang@hfut.edu.cn
Keywords: Isothermal annealing; Ni; Amorphous; Ferromagnetic materials
Abstract.
Hence, an appropriate annealing process is very important to improve the properties of these iron-based nanocrystalline magnetic materials.
Zhang, Fabrication of Fe-based bulk metallic glasses from low-purity industrial raw materials, J.
M, Finemet nanocrystalline soft magnetic alloy: Investigation of glass forming ability, crystallization mechanism, production techniques, magnetic softness and the effect of replacing the main constituents by other elements, Journal of Magnetism and Magnetic Materials, 408 (2016) 177-192
Shek, Bulk metallic glasses, Materials Science and Engineering: R: Reports, 44 (2004) 45-89
Hence, an appropriate annealing process is very important to improve the properties of these iron-based nanocrystalline magnetic materials.
Zhang, Fabrication of Fe-based bulk metallic glasses from low-purity industrial raw materials, J.
M, Finemet nanocrystalline soft magnetic alloy: Investigation of glass forming ability, crystallization mechanism, production techniques, magnetic softness and the effect of replacing the main constituents by other elements, Journal of Magnetism and Magnetic Materials, 408 (2016) 177-192
Shek, Bulk metallic glasses, Materials Science and Engineering: R: Reports, 44 (2004) 45-89
Online since: August 2013
Authors: Xin Ding Yao, Rui Na Fang, Hong Jian Pang, Zong Wu Wang, Guo Ji Liu
Experimental
Materials
Methyl methacrylate(MMA,Aldrich) was freed from inhibitor by vacuum distillat- ion. 2,2-Azobisisobutyronitrile(AIBN) was recrystallized from chloroform-methano l(1:1).
[2] Liu,GQ;Fan,W;Li,L.JOURNAL OF FLUORINE CHEMISTRY, vol.141(2012), p.21-28 [3] Mistri,EA;Mohanty,AK;Bane,S.JOURNAL OF MEMBRANE SCIENCE, vol.- 411(2012), p.117-129
[5] Wei Xu; Qiufeng An;Lifen Hao.Journal of Applied Polymer Science.vol.125 (2012), p.2376-2383
[8] Tenn,N; Follain, N; Fatyeyeva,K.Journal of Physical Chemistry, vol. 116 (2012), p.12599-1 2612
[9] Bai,RQ;Qiu,T;Xu,C.COLLOID AND POLYMER SCIENCE, vol.290(2012), p.769-776.
[2] Liu,GQ;Fan,W;Li,L.JOURNAL OF FLUORINE CHEMISTRY, vol.141(2012), p.21-28 [3] Mistri,EA;Mohanty,AK;Bane,S.JOURNAL OF MEMBRANE SCIENCE, vol.- 411(2012), p.117-129
[5] Wei Xu; Qiufeng An;Lifen Hao.Journal of Applied Polymer Science.vol.125 (2012), p.2376-2383
[8] Tenn,N; Follain, N; Fatyeyeva,K.Journal of Physical Chemistry, vol. 116 (2012), p.12599-1 2612
[9] Bai,RQ;Qiu,T;Xu,C.COLLOID AND POLYMER SCIENCE, vol.290(2012), p.769-776.
Online since: January 2013
Authors: Li Juan Yu, Fu You Liu, Zhao Jun Yang
Dutta, Springer Science Business Media 2009, p.85~91
[2] Kuang-Chen Liu, James Friend, Leslie Yeo, Journal of Sound and Vibration 2009, 115–136
Stone, Journal of Materials Processing Technology 1999, 303-309
[5] Beom Cheol Hwang, Won Byong Bae, Chul Kim, Journal of Mechanical Science and Technology 2010, 1301~1309
[7] Kyeong-Hoon Jeonga, Journal of Sound and Vibration July 2006, 404~419
[2] Kuang-Chen Liu, James Friend, Leslie Yeo, Journal of Sound and Vibration 2009, 115–136
Stone, Journal of Materials Processing Technology 1999, 303-309
[5] Beom Cheol Hwang, Won Byong Bae, Chul Kim, Journal of Mechanical Science and Technology 2010, 1301~1309
[7] Kyeong-Hoon Jeonga, Journal of Sound and Vibration July 2006, 404~419