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Online since: June 2012
Authors: Guo Yun Chen, Yong Xin, Cheng Hong Luo, Xin Fa Deng, Ling Yan Hu
The calcined materials were reground to fine powder and then pressed into thin discs with diameter of 10mm and thickness of 2mm.
Au, et al: Journal of Magnetism and Magnetic Materials, Vol. 261(2003), p. 238-243
Amaral, et al: Journal of Magnetism and Magnetic Materials, Vol. 282 - 276(2004), p. 1753-1755
Tang, et al: Journal of Rare Earths, Vol. 29(2011), p. 83-86.
Zhang, et al: Chinese Journal of Rare Metals, Vol. 35(2011), p.883-886.
Au, et al: Journal of Magnetism and Magnetic Materials, Vol. 261(2003), p. 238-243
Amaral, et al: Journal of Magnetism and Magnetic Materials, Vol. 282 - 276(2004), p. 1753-1755
Tang, et al: Journal of Rare Earths, Vol. 29(2011), p. 83-86.
Zhang, et al: Chinese Journal of Rare Metals, Vol. 35(2011), p.883-886.
Online since: April 2020
Authors: Wen Zhong Nie, Jian Min Lu, Huan Chen, Ya Jian Ma
Materials and Manufacturing Processes, 2018,33(11)
Single-point diamond form-finishing of glasses and other macroscopically brittle materials, SPIE, 1991, 15(73):39-48 [6] F.
Journal of Materials Processing Technology, 2002,12(1):243-251 [8] Chen Jianbin, Fang Qihong, Li Ping.
International Journal of MachineTools & Manufacturc,2015,91:12-23
Journal of Mechanical Science & Technology, 2017, 31: 851-85
Single-point diamond form-finishing of glasses and other macroscopically brittle materials, SPIE, 1991, 15(73):39-48 [6] F.
Journal of Materials Processing Technology, 2002,12(1):243-251 [8] Chen Jianbin, Fang Qihong, Li Ping.
International Journal of MachineTools & Manufacturc,2015,91:12-23
Journal of Mechanical Science & Technology, 2017, 31: 851-85
Online since: March 2011
Authors: N. He, L. Li, B.G. Qiu, Y. Su, Mao Hua Xiao
Hence, it is classified as ‘‘Difficult-to-cut materials”.
Ceramic materials retain hardness and stiffness at temperatures above 1000℃.
Journal of Materials Processing Technology. 2002,129:127~130 [3] China Aeronautical Materials Handbook Editorial Board.
Journal of Materials Processing Technology. 1999,86:1~16 [5] M.H.
Journal of Wuhan University of Technology(Materials Science Edition), 2010,1:78~83 [7] X.
Ceramic materials retain hardness and stiffness at temperatures above 1000℃.
Journal of Materials Processing Technology. 2002,129:127~130 [3] China Aeronautical Materials Handbook Editorial Board.
Journal of Materials Processing Technology. 1999,86:1~16 [5] M.H.
Journal of Wuhan University of Technology(Materials Science Edition), 2010,1:78~83 [7] X.
Online since: October 2010
Authors: Li Qun Zhou, Yu Ping Li, Hong Liu, Guo Xing
The Johnson-Cook's constitutive relation is adopted for the asphalt
material.
(S) (N) Fig. 4 Cutting force for cutting depth of 60mm and cutting speed of 1000mm/s Fig. 3 Stress-strain relationship for asphalt concrete (MPa) Fig. 2 Contact pair for the nodes of cutter and workpiece First surface 1 Secondsurface First surface 2 Contact pair 2 Fig. 1 Finite element milling model for asphalt concrete Cutter Asphalt concrete Fine mesh layer Coarse mesh layer Cutting velocity Materials Model Modeling the material is very important for the whole FE simulation.
Acknowledgment This work is supported by Hunan Provincial Natural Science Foundation of China (No: 09JJ6064) .
[4] Jinyue Tian and Huarong Xiang:Journal of Jiangsu University, Vol.25(2004),No.5,pp.380-384
[5] Manhua Qin, Helai Yang and Man Xue: Journal of Tianjin Institute of Urban Construction, Vol.6(2000),No.2,pp.122-125
(S) (N) Fig. 4 Cutting force for cutting depth of 60mm and cutting speed of 1000mm/s Fig. 3 Stress-strain relationship for asphalt concrete (MPa) Fig. 2 Contact pair for the nodes of cutter and workpiece First surface 1 Secondsurface First surface 2 Contact pair 2 Fig. 1 Finite element milling model for asphalt concrete Cutter Asphalt concrete Fine mesh layer Coarse mesh layer Cutting velocity Materials Model Modeling the material is very important for the whole FE simulation.
Acknowledgment This work is supported by Hunan Provincial Natural Science Foundation of China (No: 09JJ6064) .
[4] Jinyue Tian and Huarong Xiang:Journal of Jiangsu University, Vol.25(2004),No.5,pp.380-384
[5] Manhua Qin, Helai Yang and Man Xue: Journal of Tianjin Institute of Urban Construction, Vol.6(2000),No.2,pp.122-125
Online since: March 2017
Authors: Fábio Faistauer, Petros Rodrigues, Rejane de Césaro Oliveski
Among the methods of thermal energy storage systems (TES), the use of latent heat has motivated the research of a certain group of materials called PCM (Phase Change Materials).
“Solar energy storage using phase change materials”.
“Phase change materials for thermal energy storage”.
Progress in Materials Science. 65:67–123
International Journal of Thermal Sciences, v. 63, p. 55-64
“Solar energy storage using phase change materials”.
“Phase change materials for thermal energy storage”.
Progress in Materials Science. 65:67–123
International Journal of Thermal Sciences, v. 63, p. 55-64
Online since: June 2013
Authors: Hai Peng Gao, Meng Liu, Jun Wang
Load Bearing and Mass Relation Contrast between
Composite Shell and Alloy Shell
Haipeng Gao 1, a, Meng Liu 1, b and Jun Wang 1, c
1 School of Aeronautic Science and Engineering, Beihang University, Beijing, 100191, China
a ghphpg@sina.com, b gongsigongcheng@126.com, c ghphpg@126.com
Key words: composite material shell; aluminium alloy shell; load bearing; mass; work efficiency
Abstract.
Composite Material Shell Model.
Composite Material Shell.
Conclusion To improve work efficiency of capsule environment, the paper analysises and contrasts effects of load bearing on mass of two materials.
Journal of Northwestern Polytechnical University Vol. 45 (2002), p. 1048~1050 [4] M.C.Simmons, G.K.Schleyer.
Composite Material Shell Model.
Composite Material Shell.
Conclusion To improve work efficiency of capsule environment, the paper analysises and contrasts effects of load bearing on mass of two materials.
Journal of Northwestern Polytechnical University Vol. 45 (2002), p. 1048~1050 [4] M.C.Simmons, G.K.Schleyer.
Online since: March 2023
Authors: Benrad Edwin Simanjuntak, Marhaposan Situmorang, Marzuki Sinambela, Syahrul Humaidi
Polymers are materials that have high resistance.
The polymer materials used are silicon DC-200, PEG-20M, 0V-101, 0V-17, DEGA, PEG-200, PEG-1540, and PEG-6000.
Sensors and Materials, 30(5), 1197–1206. https://doi.org/10.18494/SAM.2018.1778 [22] Kiswanto, Fitriyanti, & Wijaya, B. (2020).
Journal of Materials Chemistry A, 2(35), 14289–14328. https://doi.org/10.1039/c4ta02159b [35] Saldıvar, E., & Vivaldo, E. (2013).
[37] Sciences, A. (2006).
The polymer materials used are silicon DC-200, PEG-20M, 0V-101, 0V-17, DEGA, PEG-200, PEG-1540, and PEG-6000.
Sensors and Materials, 30(5), 1197–1206. https://doi.org/10.18494/SAM.2018.1778 [22] Kiswanto, Fitriyanti, & Wijaya, B. (2020).
Journal of Materials Chemistry A, 2(35), 14289–14328. https://doi.org/10.1039/c4ta02159b [35] Saldıvar, E., & Vivaldo, E. (2013).
[37] Sciences, A. (2006).
Online since: October 2010
Authors: Zhi Xiong Huang, Jian Li
Study on the Fiber Distribution and Fiber Orientation in Low Pressure
Sheet Molding Compounds
Jian LI 1,a
, Zhixiong HUANG 2,b
1
Department of Materials Engineering, Hubei Automotive Industries Institute, Shiyan, 442002;
2
School of Materials Science and Engineering, Wuhan University of Technology, Wuhan, 430070
a
email:lijian_0711@126.com; bemail:zhixiongh@whut.edu.cn
Keywords: Low pressure sheet molding compound, Mold flowing, Fiber distribution, Fiber
orientation
Abstract.
For years, fiber orientation is considered undesirable in the process of molding, and a large number of studies have been focused on materials with irregular fiber arrangements and isotropic mechanical properties[3].
However, in the past 10years, some researchers started to predict and control the fiber orientation to obtain compression materials with special properties which could be applied in some fields with different requirements.
[4] LI Jian, HUANG Zhi-xiong, YU Hao et al: Polymer Materials Science & Engineering, Vol.22 (2006)No.10, pp. 185-188.
[10] Katayarna, T.Hakotani, M.; Shinohara, M. et al: Journal of Materials Processing Technology, Vol.155-156(2004) No.9 , pp. 1577-1582 [11] Lisa M.
For years, fiber orientation is considered undesirable in the process of molding, and a large number of studies have been focused on materials with irregular fiber arrangements and isotropic mechanical properties[3].
However, in the past 10years, some researchers started to predict and control the fiber orientation to obtain compression materials with special properties which could be applied in some fields with different requirements.
[4] LI Jian, HUANG Zhi-xiong, YU Hao et al: Polymer Materials Science & Engineering, Vol.22 (2006)No.10, pp. 185-188.
[10] Katayarna, T.Hakotani, M.; Shinohara, M. et al: Journal of Materials Processing Technology, Vol.155-156(2004) No.9 , pp. 1577-1582 [11] Lisa M.
Online since: December 2016
Authors: M. Erkin Cura, Simo Pekka Hannula, Vivek Kumar Singh, Panu Viitaharju, Joonas Lehtonen
Materials prepared by direct chemical homogenization had better fracture toughness.
The hardness of the materials was measured by a Vicker’s indenter (Innovatest) applying a load of 0.1 kgf.
Fracture toughness of the materials was calculated Figure 2.
[4] Cetinel H., Celik E., and Kusoglu M.I., Tribological behavior of Cr2O3 coatings as bearing materials, Journal of Materials Processing Technology 196 (2008) 259-265
Gupta, Handbook of Tribology of Materials for Coatings and Surface Treatments, McGraw-Hill, New York, 1991
The hardness of the materials was measured by a Vicker’s indenter (Innovatest) applying a load of 0.1 kgf.
Fracture toughness of the materials was calculated Figure 2.
[4] Cetinel H., Celik E., and Kusoglu M.I., Tribological behavior of Cr2O3 coatings as bearing materials, Journal of Materials Processing Technology 196 (2008) 259-265
Gupta, Handbook of Tribology of Materials for Coatings and Surface Treatments, McGraw-Hill, New York, 1991
Online since: May 2021
Authors: Intan Juliana Shamsudin, Hussein Hanibah, Norsyabila Shrgawi, Norherdawati Kasim, Siti Aminah Mohd Noor
Methodology
Chemicals and Materials. ƙ-carrageenan (molecular weight: 788.7 g/mol) powder was purchased from Sigma Aldrich, Malaysia.
Khademhosseini, Photocrosslinkable kappa‐carrageenan hydrogels for tissue engineering applications, Advanced healthcare materials 2(6) (2013) 895-907
Kanbara, Effect of Purification Solvent on Polymer Impurities and Device Performance, ACS Applied Polymer Materials 1(8) (2019) 2083-2088
Wicklein, The use of ATR-FTIR spectroscopy for quantification of adsorbed compounds, Journal of Spectroscopy 2015 (2015) 1-8
Papageorgiou, Recycling of polymers from plastic packaging materials using the dissolution–reprecipitation technique, Polymer Bulletin 63(3) (2009) 449-465
Khademhosseini, Photocrosslinkable kappa‐carrageenan hydrogels for tissue engineering applications, Advanced healthcare materials 2(6) (2013) 895-907
Kanbara, Effect of Purification Solvent on Polymer Impurities and Device Performance, ACS Applied Polymer Materials 1(8) (2019) 2083-2088
Wicklein, The use of ATR-FTIR spectroscopy for quantification of adsorbed compounds, Journal of Spectroscopy 2015 (2015) 1-8
Papageorgiou, Recycling of polymers from plastic packaging materials using the dissolution–reprecipitation technique, Polymer Bulletin 63(3) (2009) 449-465