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Online since: July 2011
Authors: Ji Sen Qiao, Tian Dong Xia, Fi Li
Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Computational Materials Science Vol. 46 (2009), p. 347-351
Journal of Materials Science and Engineering Vol. 280 (2000), p.1–7.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Computational Materials Science Vol. 46 (2009), p. 347-351
Journal of Materials Science and Engineering Vol. 280 (2000), p.1–7.
Online since: August 2015
Authors: Himanshu R. Rasam, Danil Yurievich Pimenov, Tadeusz Mikolajczyk
Dichenko: Research Journal of Applied Sciences Vol. 9 (2014), p. 597-602
[33] A.
Pellegrini: Advanced Materials Research Vol. 590 (2012), p. 252-257 [44] A.
Faglia: Advanced Materials Research Vol. 590 (2012), p. 399-404 [45] F.
Faglia: Advanced Materials Research Vol. 590 (2012), p. 405-410 [61] R.
Bartoli: Journal of Materials Engineering and Performance Vol. 23 (2014), p. 2545-2552
Pellegrini: Advanced Materials Research Vol. 590 (2012), p. 252-257 [44] A.
Faglia: Advanced Materials Research Vol. 590 (2012), p. 399-404 [45] F.
Faglia: Advanced Materials Research Vol. 590 (2012), p. 405-410 [61] R.
Bartoli: Journal of Materials Engineering and Performance Vol. 23 (2014), p. 2545-2552
Online since: May 2011
Authors: Zhao Ran Xiao, Li Bing Jin, Xiao Li Xiong, Cheng Ying Dong
According to the experts forecast, the reinforced concrete, as inexpensive civil engineering materials, will also gain a larger application in the next one to two centuries in the developing countries.
Beijing: Science Press, 2002.
ACI Materials Journal, 1991, 88: 186-196
ACI Materials Journal, 1991, 88: 363-373
Journal of Zhejiang University (Engineering Science), Vol. 44, No. 4, pp. 789-797, 2010.
Beijing: Science Press, 2002.
ACI Materials Journal, 1991, 88: 186-196
ACI Materials Journal, 1991, 88: 363-373
Journal of Zhejiang University (Engineering Science), Vol. 44, No. 4, pp. 789-797, 2010.
Online since: August 2013
Authors: Zhi Feng Fu, Ding Cao, Yan Shi, Xiao Cui Dong
Experiment
Materials.
Park, Journal of Membrane Science, 2009, 328, 90-96
Liu, R.B.Bai, Journal of Membrane Science, 2006, 284, 313-322
Park, Journal of Membrane Science, 2007, 330, 20-26
Abdelwehab, Journal of Hazardous Materials,2007, 148, 216-228.
Park, Journal of Membrane Science, 2009, 328, 90-96
Liu, R.B.Bai, Journal of Membrane Science, 2006, 284, 313-322
Park, Journal of Membrane Science, 2007, 330, 20-26
Abdelwehab, Journal of Hazardous Materials,2007, 148, 216-228.
Online since: December 2012
Authors: Jia Lu Li, Jing Xue Liu
The Effects of Fiber Volume Fraction on the Vibration Damping Characteristics of Three-layer-connected Biaxial Weft Knitted Fabric Reinforced Composite Materials
Jingxue Liu1,a, Jialu Li1,b
1 Composites Research Institute of Tianjin Polytechnic University & Tianjin and Education Ministry Key Laboratory of Advanced Textile Composite Materials, Tianjin 300160, China aliujingxue1031@sina.com, bfhcls@tjpu.edu.cn
Keywords: three-layer-connected biaxial weft knitted fabric (TBWK), damping, composite materials, vibration test.
Mostly, soft yarn with finer yarn count (5 ~ 50tex), high fracture strength and high shear strength, is used as knitting yarn, such as polyester, Kevlar and other materials.
Materials The materials considered in the analysis are constituted of carbon fibers in an epoxy matrix and were fabricated to TBWK fabrics: The first inserted layer of the TBWK fabric is weft yarns, the middle inserted layer is warp yarns and the last inserted layer is weft yarns.
[2] Vaidya UK, Raju PK, Kowbel W: Mechanics and mechanisms of material damping.
[3] Liangsen Liu, et al: Journal of Tianjin Polytechnic University, 20 (2001), p. 21, in Chinese
Mostly, soft yarn with finer yarn count (5 ~ 50tex), high fracture strength and high shear strength, is used as knitting yarn, such as polyester, Kevlar and other materials.
Materials The materials considered in the analysis are constituted of carbon fibers in an epoxy matrix and were fabricated to TBWK fabrics: The first inserted layer of the TBWK fabric is weft yarns, the middle inserted layer is warp yarns and the last inserted layer is weft yarns.
[2] Vaidya UK, Raju PK, Kowbel W: Mechanics and mechanisms of material damping.
[3] Liangsen Liu, et al: Journal of Tianjin Polytechnic University, 20 (2001), p. 21, in Chinese
Online since: December 2025
Authors: M. Nallusamy, M. Suriya Prakash, V.S. Sree Balaji, C. Dharanidharaan
There has been significant research dedicated to the development of innovative materials derived from natural fibers.
· These hybrid composites show promise for developing countries seeking to create high-performance materials
Materials Today: Proceedings 5, no. 5 (2018): 11628-11635.https://doi.org/10.1016/j.matpr.2018.02.133
Journal of Applied Science and Engineering 18, no. 3 (2015): 289-294.https://doi.org/10.6180/jase.2015.18.3.09 [12] Bachmann, Jens, Martin Wiedemann, and Peter Wierach. 2018.
Journal of Composite Materials. 2014;49(18):2251-2263. doi:10.1177/0021998314545186 [14] Manjeet Chahar, Rajneesh Kumar, “Effect of fiber weight fraction on mechanical properties of hemp, jute, bamboo epoxy composite,” Green Materials, 2025, https://doi.org/10.1680/jgrma.24.00174
· These hybrid composites show promise for developing countries seeking to create high-performance materials
Materials Today: Proceedings 5, no. 5 (2018): 11628-11635.https://doi.org/10.1016/j.matpr.2018.02.133
Journal of Applied Science and Engineering 18, no. 3 (2015): 289-294.https://doi.org/10.6180/jase.2015.18.3.09 [12] Bachmann, Jens, Martin Wiedemann, and Peter Wierach. 2018.
Journal of Composite Materials. 2014;49(18):2251-2263. doi:10.1177/0021998314545186 [14] Manjeet Chahar, Rajneesh Kumar, “Effect of fiber weight fraction on mechanical properties of hemp, jute, bamboo epoxy composite,” Green Materials, 2025, https://doi.org/10.1680/jgrma.24.00174
Online since: January 2016
Authors: Andreas Öchsner, Sadegh Imani Yengejeh, Seyedeh Alieh Kazemi
Journal of Nano Research 6 (2009) 185-196
Computational Materials Science 63 (2012) 12-19
Imani Yengejeh, et al., Numerical modeling of eigenmodes and eigenfrequencies of hetero-junction carbon nanotubes with pentagon–heptagon pair defects, Computational Materials Science 92 (2014) 76-83
Advances in Materials Science and Engineering 2014. http://dx.doi.org/10.1155/2014/815340 [13] S.
Tang, Buckling behavior of carbon nanotube-based intramolecular junctions under compression: Molecular dynamics simulation and finite element analysis, Computational Materials Science 50 (2010) 253–259.
Computational Materials Science 63 (2012) 12-19
Imani Yengejeh, et al., Numerical modeling of eigenmodes and eigenfrequencies of hetero-junction carbon nanotubes with pentagon–heptagon pair defects, Computational Materials Science 92 (2014) 76-83
Advances in Materials Science and Engineering 2014. http://dx.doi.org/10.1155/2014/815340 [13] S.
Tang, Buckling behavior of carbon nanotube-based intramolecular junctions under compression: Molecular dynamics simulation and finite element analysis, Computational Materials Science 50 (2010) 253–259.
Online since: February 2011
Authors: Ai Qin Wang, Jing Pei Xie, Wen Yan Wang, Ji Wen Li
Introduction
From the mechanical perspective, engineering material which consists of many different componential phases is inhomogeneous material.
So, the more differences of the equivalent stress at the interface of Si particles and Al matrix, the more drop and fracture in the use of the materials.
Chinese Journal of Applied Mechanics Vol. 3 (2004) No 3,p.145-148 [2] Anil Saigal, Edwin.R.Fuller Jr.Computational Materials Science (2001) No. 21,p.149-158 [3] Rongxin Guo, Gerard Lormand, Junchang Li.
Journal of Kunming University of Science and Technology Vol. 29 (2004) No. 3,p.52-55, in Chinese [4] Feng Wang, Zhengye Zhang, Yajun Ma.
Journal of Alloys and Compounds Vol. 9 (2003) No. 12, p.356-357
So, the more differences of the equivalent stress at the interface of Si particles and Al matrix, the more drop and fracture in the use of the materials.
Chinese Journal of Applied Mechanics Vol. 3 (2004) No 3,p.145-148 [2] Anil Saigal, Edwin.R.Fuller Jr.Computational Materials Science (2001) No. 21,p.149-158 [3] Rongxin Guo, Gerard Lormand, Junchang Li.
Journal of Kunming University of Science and Technology Vol. 29 (2004) No. 3,p.52-55, in Chinese [4] Feng Wang, Zhengye Zhang, Yajun Ma.
Journal of Alloys and Compounds Vol. 9 (2003) No. 12, p.356-357
Online since: March 2015
Authors: Er Jun Guo, Si Cong Zhao, Li Ping Wang, Yi Cheng Feng, Qin Wang, Wen Yong Jiang
Yoond: Materials Science and Engineering A Vol. 494 (2008), p. 494
[5] T.
Miresmaeili: Materials Science and Engineering A Vol. 528 (2011), p. 1261 [9] B.
Miresmaeili: Materials Science and Engineering A Vol. 528 (2011), p. 5018 [10] Y.
Ishida: Materials Transactions Vol. 44 (2003), p. 562 [13] M.
Kouichi: Materials Transactions Vol. 49 (2008), p. 1025
Miresmaeili: Materials Science and Engineering A Vol. 528 (2011), p. 1261 [9] B.
Miresmaeili: Materials Science and Engineering A Vol. 528 (2011), p. 5018 [10] Y.
Ishida: Materials Transactions Vol. 44 (2003), p. 562 [13] M.
Kouichi: Materials Transactions Vol. 49 (2008), p. 1025
Online since: February 2014
Authors: Qiang Xiao, Xue Li He
Research on the Precision Machining on SiC
Qiang Xiao Xueli He
1.School of Mechanical and Electronic Engineering, Xi’an Technological University, Xi’an,710032, China;
2.School of computer science, Shannxi Normal University, Shannxi ,Xi’an, 710062,China
xiaoqiang@xatu.edu.cn
Keywords: surface quality; mechanism; precision machining
Abstract: SiC material removal mechanism and ELID grinding mechanism is analyzed, the character and condition of brittle to ductile transition of SiC single crystal, the critical depth of cut, and surface formation mechanism of ductile mode grinding of SiC single crystal are studied, the experiment results show that ELID grinding can realize ductile grinding ,this will lower the surface damage and improve the machining efficiency.
Introduction Fig.1 SiC Single crystal With the rapid development of technology, SiC single crystal become a important third generation of semiconductor materials, shown in Figure 1,because of its superior attributes, such as wide band-gap, high-breakdown electric field strength, high-saturated drift velocity, high thermal conductivity, low coefficient of thermal expansion, strength at elevated temperatures.
Material removal mechanism Material removal methods are generally two kinds of brittle fracture and plastic removal, shown in Figure 2, Figure 3,Figure 4.
Therefore, the dissolution of bond material increases and the exposure of diamond grains restart.
References [1] Xiao Q, Research on the Material Removal Rates and Surface Features of SiC Single Crystal by Ultrasonic Polishing[J], Journal of Synthetic Crystals, Vol.40, No.4, August,2011, 496-199 [2] Li Y,Wang X Y, Experiments of Ultrasonic-assisted Wire Sawing of SiC Single Crystal, Journal of Synthetic Crystals,Vol.41 No.4, August,2012, 1076-1081 [3] N.Itoh, Grinding Characteristics of Hard and Brittle Materials by Fine Grain Lapping Wheels with ELID, Journal of Materials Processing Technology 62(4)(1996)315–320
Introduction Fig.1 SiC Single crystal With the rapid development of technology, SiC single crystal become a important third generation of semiconductor materials, shown in Figure 1,because of its superior attributes, such as wide band-gap, high-breakdown electric field strength, high-saturated drift velocity, high thermal conductivity, low coefficient of thermal expansion, strength at elevated temperatures.
Material removal mechanism Material removal methods are generally two kinds of brittle fracture and plastic removal, shown in Figure 2, Figure 3,Figure 4.
Therefore, the dissolution of bond material increases and the exposure of diamond grains restart.
References [1] Xiao Q, Research on the Material Removal Rates and Surface Features of SiC Single Crystal by Ultrasonic Polishing[J], Journal of Synthetic Crystals, Vol.40, No.4, August,2011, 496-199 [2] Li Y,Wang X Y, Experiments of Ultrasonic-assisted Wire Sawing of SiC Single Crystal, Journal of Synthetic Crystals,Vol.41 No.4, August,2012, 1076-1081 [3] N.Itoh, Grinding Characteristics of Hard and Brittle Materials by Fine Grain Lapping Wheels with ELID, Journal of Materials Processing Technology 62(4)(1996)315–320