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Online since: July 2011
Authors: Wan Li Bi
Synthesis of MgAl2O4 Spinel-Corundum Composite
with Waste Refractory
Wanli Bi
School of High Temperature Materials and Magnesium Resource Engineering, University of Science and Technology Liaoning,Anshan 114051,China
asbwl@126.com
Keywords: Magnesia-alumina spinel; Waste slide plate; Waste Magnesia carbon brick; Composite.
Experimental In this paper, waste magnesia-carbon brick and slide plate were used as starting materials.
The chemical compositions of starting materials are shown in Table 1.
This results in an improvement of sintering performance of magnesia - alumina spinel - corundum composite materials[5,6].
Qiaoqin ZHOU: Journal of Fuzhou University(Natural Science Edition).
Experimental In this paper, waste magnesia-carbon brick and slide plate were used as starting materials.
The chemical compositions of starting materials are shown in Table 1.
This results in an improvement of sintering performance of magnesia - alumina spinel - corundum composite materials[5,6].
Qiaoqin ZHOU: Journal of Fuzhou University(Natural Science Edition).
Online since: March 2018
Authors: Mustafa Umut Mutlu, Osman Akin, Ümit Hakan Yildiz, Mustafa M. Demir
Materials and Methods
Chemicals.
International Journal of Polymer Science, 2016. 2016: p. 1-6
Diamond and Related Materials, 2003. 12(8): p. 1295-1299
ADVANCED MATERIALS, 1996. 8(2)
Wendorff, Functional materials by electrospinning of polymers.
International Journal of Polymer Science, 2016. 2016: p. 1-6
Diamond and Related Materials, 2003. 12(8): p. 1295-1299
ADVANCED MATERIALS, 1996. 8(2)
Wendorff, Functional materials by electrospinning of polymers.
Online since: October 2011
Authors: Yu Zhi Jiang, Li Li Zhang, Yan Bo Li
Introduction
Nano-materials is a kind of materials causing a popular topic in the present research field, its only symbol that is distinguished from other materials is the new features coming from dimension effect [1].
There were some reports about this kind of materials in domestic journals, but the study on the interaction between MH whisker and ABS plastic matrix was less.
Then the MH whiskers/ABS composite materials were gained.
Materials Science and Engineering A.
Materials science and engineering A.
There were some reports about this kind of materials in domestic journals, but the study on the interaction between MH whisker and ABS plastic matrix was less.
Then the MH whiskers/ABS composite materials were gained.
Materials Science and Engineering A.
Materials science and engineering A.
Online since: December 2012
Authors: Chong Kang, Yang Zhang
With measuring instrument accuracy enhancement, it is to meet the requirements of the geomagnetic matching location, but the underwater vehicle is mainly made of ferromagnetic material, the sensor measured except magnetic field, besides magnetic field that the vehicle of the inherent hard magnetic and soft magnetic materials produce and vehicle magnetic fields produced in mechanical and electrical equipment.
Journal of Applied Clinical Medical Physics, 2005, 6(3): 143-149
Journal of Chinese Inertial Technology, 2007, 15(1): 47-50
Journal of Chinese Inertial Technology, 2007, 15(3): 322-326
The International Journal of Robotics Research,2004,23( 10-11): 1029-1040
Journal of Applied Clinical Medical Physics, 2005, 6(3): 143-149
Journal of Chinese Inertial Technology, 2007, 15(1): 47-50
Journal of Chinese Inertial Technology, 2007, 15(3): 322-326
The International Journal of Robotics Research,2004,23( 10-11): 1029-1040
Online since: July 2014
Authors: Lun You Li, Ya Nan Hu
Experiment Materials and Methods
2.1 Experiment Materials.
Journal of heat treatment, 2007, 22 (4) : 4 to 8
Beijing: science press, 2002:45-49 [5] Wang Jun, Han Wei, Li Hongxi etc.
Journal of corrosion science and protection technology, 2002, 14 (6) : 333
Journal of the Chinese Journal of Nonferrous Metals, 2008.
Journal of heat treatment, 2007, 22 (4) : 4 to 8
Beijing: science press, 2002:45-49 [5] Wang Jun, Han Wei, Li Hongxi etc.
Journal of corrosion science and protection technology, 2002, 14 (6) : 333
Journal of the Chinese Journal of Nonferrous Metals, 2008.
Online since: September 2013
Authors: Yu Luo, Cai Xia Li
The Mg-Al EAM potential data using in our simulation is acquired from the EAM potential data of Computational Materials Science Group at ASU.
Eda, Simulation and experimental analysis of super high-speed grinding of ductile material, Journal of Materials Processing Technology 129 (2002) 19-24
Lee, Large scale molecular dynamics study of nanometric machining of copper, Computational Materials Science 41 (2007) 177-185
Johnson, Modified embedded atom potentials for HCP metals, Modelling and Simulation in Materials Science and Engineering 2 (1994) 147-163
Zhang, A new scheme of many-body potentials for hcp metals, Computational Materials Science 29 (2004) 428-436
Eda, Simulation and experimental analysis of super high-speed grinding of ductile material, Journal of Materials Processing Technology 129 (2002) 19-24
Lee, Large scale molecular dynamics study of nanometric machining of copper, Computational Materials Science 41 (2007) 177-185
Johnson, Modified embedded atom potentials for HCP metals, Modelling and Simulation in Materials Science and Engineering 2 (1994) 147-163
Zhang, A new scheme of many-body potentials for hcp metals, Computational Materials Science 29 (2004) 428-436
Online since: April 2011
Authors: Hai Quan Feng, Zhi Guo Wang, Yamashita Shuzou, Nakatani Tatsuyuki
This was also in order to avoid any abnormal interface formations between different materials and stress concentration arising from rapid changes in materials.
Maguire: Diamond and Related Materials, Vol. 14 (2005), p.1277
Descounts: European Cells and Materials, Vol. 5 (2003), p.17
Yamashitsa: Journal of Photopolymer Science and Technology, Vol. 20 (2007), p.221
Mochizuki, KINZOKU Materials Science & Technology (Japanese, 2009).
Maguire: Diamond and Related Materials, Vol. 14 (2005), p.1277
Descounts: European Cells and Materials, Vol. 5 (2003), p.17
Yamashitsa: Journal of Photopolymer Science and Technology, Vol. 20 (2007), p.221
Mochizuki, KINZOKU Materials Science & Technology (Japanese, 2009).
Online since: February 2017
Authors: I. Zsoldos, Imre Fekete, István Kozma
Rohatgi, Materials Science and Engineering 582, 415-422 (2013)
[3] L.
Gupta, Materials & Design 66, 504–515 (2015) [4] M.
Orbulov, The Journal of The Minerals, Metals & Materials Society, Vol. 66, No. 6. 882–891 (2014) [11] K.
Orbulov, Material Science and Engineering: A, Vol. 606, 248–256 (2014) [12] K.
Májlinger, International Journal of Materials Research, Vol. 106, No. 11, 1165–1173 (2015) [14] G.H.
Gupta, Materials & Design 66, 504–515 (2015) [4] M.
Orbulov, The Journal of The Minerals, Metals & Materials Society, Vol. 66, No. 6. 882–891 (2014) [11] K.
Orbulov, Material Science and Engineering: A, Vol. 606, 248–256 (2014) [12] K.
Májlinger, International Journal of Materials Research, Vol. 106, No. 11, 1165–1173 (2015) [14] G.H.
Online since: September 2020
Authors: Hafizah Hanim Mohd Zaki, Farah Diana Mohd Daud, Jamaluddin Abdullah, Norshahida Sariffudin, Nur Azemuzahir Mohd Sobri
Materials and Methods
In this work, high purity Ni and TiH2 powders were used to form near equiatomic NiTi.
Canadinc, Evaluation of the biocompatibility of NiTi dental wires: A comparison of laboratory experiments and clinical conditions, Materials Science and Engineering: C. 40, 142-147, 2014
Zhu, Microstructure and martensitic transformation behavior of porous NiTi shape memory alloy prepared by hot isostatic pressing processing, Materials Science and Engineering: A. 382, 181-187, 2004
Sikong, Characteristics and compressive properties of porous NiTi alloy synthesized by SHS technique, Materials Science and Engineering: A. 515, 93-97, 2009
Luo, et al., Microstructure, mechanical properties and superelasticity of biomedical porous NiTi alloy prepared by microwave sintering, Materials Science and Engineering: C. 46, 387-393, 2015
Canadinc, Evaluation of the biocompatibility of NiTi dental wires: A comparison of laboratory experiments and clinical conditions, Materials Science and Engineering: C. 40, 142-147, 2014
Zhu, Microstructure and martensitic transformation behavior of porous NiTi shape memory alloy prepared by hot isostatic pressing processing, Materials Science and Engineering: A. 382, 181-187, 2004
Sikong, Characteristics and compressive properties of porous NiTi alloy synthesized by SHS technique, Materials Science and Engineering: A. 515, 93-97, 2009
Luo, et al., Microstructure, mechanical properties and superelasticity of biomedical porous NiTi alloy prepared by microwave sintering, Materials Science and Engineering: C. 46, 387-393, 2015
Online since: October 2007
Authors: V. Kumar, Ramana G. Reddy
Singh (Eds.), Materials Science and
Technology, Ohio, (2006) p. 435-443.
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Anyalebechi: Materials Science and Technology, Vol. 4, (1988) p.1-4. 17.
Zhang: Journal of Materials Science, Vol. 30, (1995) p.4309-4315. 20.
Reddy: Advanced Engineering Materials, Vol. 5, (2003) p.167-172. 11.
Greil: Journal of Material Science, Vol. 26, (1991) p.669-677. 14.
Anyalebechi: Materials Science and Technology, Vol. 4, (1988) p.1-4. 17.
Zhang: Journal of Materials Science, Vol. 30, (1995) p.4309-4315. 20.