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Online since: May 2012
Authors: Ya Jun Wang, Wo Hua Zhang
This way paid high premium over meso-fracture for materials’ failure simulation.
Journal of Hydraulic Engineering, 36(4), 2005. 413–419
International Journal of Damage Mechanics, 3(1), 1994. 57–70
Safety Science, 49(2), 2011. 298–305
Journal of Zhejiang University (Engineering Science), 41(1), 2007. 52–56
Journal of Hydraulic Engineering, 36(4), 2005. 413–419
International Journal of Damage Mechanics, 3(1), 1994. 57–70
Safety Science, 49(2), 2011. 298–305
Journal of Zhejiang University (Engineering Science), 41(1), 2007. 52–56
Online since: March 2024
Authors: Kamar Shah Ariffin, Hafeezur Rehman, Kausar Sultan Shah, Mohd Hazizan Bin Mohd Hashim
Effect of Wet-Dry Cycling on the Microstructure of Various Weathering Grade Sandstone
Kausar Sultan Shah1,a, Mohd Hazizan bin Mohd Hashim1,b*, Hafeezur Rehman1,2,c, Kamar Shah bin Ariffin1,d
1Strategic Mineral Niche, School of Materials and Mineral Resources Engineering, Universiti Sains Malaysia, Engineering Campus, 14300 Nibong Tebal, Penang, Malaysia
2Department of Mining Engineering, Baluchistan University of Information Technology, Engineering and Management Sciences, Quetta 87300, Pakistan.
Materials and Method The sandstone samples used in this investigation were obtained from Sor-Range mines, Quetta, Pakistan.
International Journal of Rock Mechanics and Mining Sciences, 2017. 91: p. 1-6
Environmental Earth Sciences, 2019. 78(6): p. 1-10
International Journal of Rock Mechanics and Mining Sciences, 2015. 100(78): p. 331-335
Materials and Method The sandstone samples used in this investigation were obtained from Sor-Range mines, Quetta, Pakistan.
International Journal of Rock Mechanics and Mining Sciences, 2017. 91: p. 1-6
Environmental Earth Sciences, 2019. 78(6): p. 1-10
International Journal of Rock Mechanics and Mining Sciences, 2015. 100(78): p. 331-335
Online since: June 2013
Authors: Ke Sheng Wang, Yu Han, Chong Chao Lin, Li Han Zhang
The finite element method has been widely applied to simulate the plastic flow of part materials during the forming process.
Acknowledgment The work was supported by the Natural Science Foundation of Zhejiang Province, PR China (Grant No.
Y1111068) and the Natural Science Foundation of Ningbo City, Zhejiang Province, PR China (Grant No.2012A610055).
Corresponding Author The information about corresponding author is as follows: Name, Kesheng Wang; Email, xclwks@126.com; Mobile phone: 15958281379 References [1] Cheng Sun, Shi-Hong Zhang, Wei Dong Tang and Zhong-Tang Wang: Materials and Manufacture Processes Vol.25(2010), P. 534 [2] Lu Xianfeng, Zhang Ruhua and Min Shuigen: Chinese Journal of Mechanical Engineering Vol.43(2007), P.184 [3] Ulysse P, and Johnson RE: Int.
Vol.41(1999), P.1067 [4] Zhang Shihong, Zhou Lixin and Wang Zhongtang: Journal of Plasticity Engineering Vol. 15(2008), P.31-36 [5] Hua Lin, Liu Shenglin and Xu Hao, Journal of Plasticity Engineering Vol. 15(2008), P.46 [6] Yang J.
Acknowledgment The work was supported by the Natural Science Foundation of Zhejiang Province, PR China (Grant No.
Y1111068) and the Natural Science Foundation of Ningbo City, Zhejiang Province, PR China (Grant No.2012A610055).
Corresponding Author The information about corresponding author is as follows: Name, Kesheng Wang; Email, xclwks@126.com; Mobile phone: 15958281379 References [1] Cheng Sun, Shi-Hong Zhang, Wei Dong Tang and Zhong-Tang Wang: Materials and Manufacture Processes Vol.25(2010), P. 534 [2] Lu Xianfeng, Zhang Ruhua and Min Shuigen: Chinese Journal of Mechanical Engineering Vol.43(2007), P.184 [3] Ulysse P, and Johnson RE: Int.
Vol.41(1999), P.1067 [4] Zhang Shihong, Zhou Lixin and Wang Zhongtang: Journal of Plasticity Engineering Vol. 15(2008), P.31-36 [5] Hua Lin, Liu Shenglin and Xu Hao, Journal of Plasticity Engineering Vol. 15(2008), P.46 [6] Yang J.
Online since: April 2013
Authors: Chee Seong Chin, Robert Yong Xiao
Patel, Flexural Toughness of Steel Fiber Reinforced Concrete, ACI Materials Journal. 89 (1992) 541-546
Banthia, Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading – Part 2: Flexural Toughness, ACI Materials Journal. 98 (2001) 17-24
Najm, High-Performance Fiber-Reinforced Concrete Mixture Proportions with High Fiber Volume Fractions, ACI Materials Journal. 101 (2004) 281-286
Soleimani, Flexural Response of Hybrid Fiber-Reinforced Cementitious Composites, ACI Materials Journal. 102 (2005) 382-389
Zhang, Investigation of Complete Stress-Deformation Curves for Concrete in Tension, ACI Materials Journal. 84-M29, (1987) 278-285
Banthia, Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading – Part 2: Flexural Toughness, ACI Materials Journal. 98 (2001) 17-24
Najm, High-Performance Fiber-Reinforced Concrete Mixture Proportions with High Fiber Volume Fractions, ACI Materials Journal. 101 (2004) 281-286
Soleimani, Flexural Response of Hybrid Fiber-Reinforced Cementitious Composites, ACI Materials Journal. 102 (2005) 382-389
Zhang, Investigation of Complete Stress-Deformation Curves for Concrete in Tension, ACI Materials Journal. 84-M29, (1987) 278-285
Online since: November 2016
Authors: Natália Maria de Faria, Cristina Moniz Araujo Lopes, Rosa Maria Rocha
Polyurethane aqueous based adhesive presented better interaction with both materials when compared to organic solvent based adhesive.
The high resistance to fracture is related to the strong interactions between the materials [1, 2].
For achieving that, an adhesive layer must be introduced to bond the materials together.
Pluvinage: Applied Surface Science Vol. 264 (2013), p. 485
Douk: Journal of Colloid and Interface Science Vol. 252 (2002), p. 249.
The high resistance to fracture is related to the strong interactions between the materials [1, 2].
For achieving that, an adhesive layer must be introduced to bond the materials together.
Pluvinage: Applied Surface Science Vol. 264 (2013), p. 485
Douk: Journal of Colloid and Interface Science Vol. 252 (2002), p. 249.
Online since: June 2021
Authors: Libasse Sow, Siham Kamali-Bernard, Fabrice Bernard
Computational Materials Science, 50(1) (2010) 218-226
Computational Materials Science, 61 (2012) 106-115
Computational Materials Science, 102 (2015) 250-257
Computational Materials Science, 45(2) (2009) 528-535
Computational Materials Science, 47 (2009b) 178-185
Computational Materials Science, 61 (2012) 106-115
Computational Materials Science, 102 (2015) 250-257
Computational Materials Science, 45(2) (2009) 528-535
Computational Materials Science, 47 (2009b) 178-185
Online since: August 2015
Authors: Tadeusz A. Przylibski
Chalupnik, Correlation of radon concentration level with mining and geological conditions in Upper Silesia region, Journal of Mining Science 39 (2) (2003) 199-206
Kotyrba, Radon mapping with the support of geophysical methods, Journal of Mining Science 47 (3) (2011) 330-337
Michalik, System of radiation hazard monitoring and control in the coal mines of Poland, Journal of Mining Science 38 (6) (2002) 587-595
Wysocka, Measurement of radon exhalation from soil – development of the method and preliminary results, Journal of Mining Science 39 (2) (2003) 191-198
Rubin, Radon exhalation from cement-matrix composites in the function of technological parameters, Ceramic Materials 62 (4) (2010) 591-595.
Kotyrba, Radon mapping with the support of geophysical methods, Journal of Mining Science 47 (3) (2011) 330-337
Michalik, System of radiation hazard monitoring and control in the coal mines of Poland, Journal of Mining Science 38 (6) (2002) 587-595
Wysocka, Measurement of radon exhalation from soil – development of the method and preliminary results, Journal of Mining Science 39 (2) (2003) 191-198
Rubin, Radon exhalation from cement-matrix composites in the function of technological parameters, Ceramic Materials 62 (4) (2010) 591-595.
Online since: February 2013
Authors: Mohd Nazree B. Derman, Mohd Zaidi Omar, Junaidi Syarif, Siti Hawa Salleh, S. Abdullah
Wang: Materials Science and Engineering: A Vols. 438–440 (2006), p. 276
Materials Science and Engineering An Introduction, (Sixth Edition), Jon Wiley & Sons, Inc, pp.371-372
Zhou: Materials Characterization Vol. 59 (2008), p. 883
Zou: Materials Science and Engineering A Vol. 489 (2008), p. 193
Sajuri: International Journal of Mechanical and Materials Engineering Vol. 4 (2009), p. 21
Materials Science and Engineering An Introduction, (Sixth Edition), Jon Wiley & Sons, Inc, pp.371-372
Zhou: Materials Characterization Vol. 59 (2008), p. 883
Zou: Materials Science and Engineering A Vol. 489 (2008), p. 193
Sajuri: International Journal of Mechanical and Materials Engineering Vol. 4 (2009), p. 21
Online since: September 2016
Authors: S.A. Sozykin, V.P. Beskachko, G.P. Vyatkin
Fergus, Recent developments in cathode materials for lithium ion batteries, Journal of Power Sources. 195 (2010) 939-954
Froudakis, Theoreical study of alkaline metal cations in carbon nanotubes, Reviews on Advanced Materials Science. 11 (2006) 92-97
Computational Materials Science. 30 (2004) 50-56
Kumar, First-principle Investigation of Lithium Intercalation Behavior of a (3; 3), Materials Science Forum. 736 (2013) 27-31
Daniel, The SIESTA method for ab initio order- N materials, J.
Froudakis, Theoreical study of alkaline metal cations in carbon nanotubes, Reviews on Advanced Materials Science. 11 (2006) 92-97
Computational Materials Science. 30 (2004) 50-56
Kumar, First-principle Investigation of Lithium Intercalation Behavior of a (3; 3), Materials Science Forum. 736 (2013) 27-31
Daniel, The SIESTA method for ab initio order- N materials, J.
Online since: November 2006
Authors: Wei Shen Zhu, Yan Shuang Guo, R.H.C. Wong, Shu Cai Li, Chun Jin Lin
The Mechanism Investigation on Propagation and Coalescence Pattern
of Three Internal Plane Flaws in Brittle Materials
Yanshuang Guo1 , Weishen Zhu1, a
, R.H.C Wong
2
,Shucai Li1 and Chunjin Lin1
1
Geotechnical & Structural Engineering Research Centre, Shandong University, China
2Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hong Kong
a
Zhuw@sdu.edu.cn
Keywords: pre-existing flaw; coalescence; wrapping crack; fracture mechanism
Abstracts: Under the action of compressive load, the growth and coalescence containing flaws in
brittle materials (rock and rocklike materials e.g.) will result in the local buckling and global
fracture of rockmass.
It is a typical mechanism of fracture in brittle rocks and heterogeneous brittle materials under uniaxial compression consists in propagation of pre-existing flaws and interaction of wing cracks.
In 2-D case, the wing cracks propagation from the inclined flaws are studied with different materials by many researchers, such as Horii, Nemat-Nasser, Peng, et al [2].
So the resin after freezing can be taken as rock-like material.
Yin Experimental Study of 3-D Surface Flaw in Brittle Materials, Chinese Journal of Geophysics, Vol. 30 (1987), P.371- 378
It is a typical mechanism of fracture in brittle rocks and heterogeneous brittle materials under uniaxial compression consists in propagation of pre-existing flaws and interaction of wing cracks.
In 2-D case, the wing cracks propagation from the inclined flaws are studied with different materials by many researchers, such as Horii, Nemat-Nasser, Peng, et al [2].
So the resin after freezing can be taken as rock-like material.
Yin Experimental Study of 3-D Surface Flaw in Brittle Materials, Chinese Journal of Geophysics, Vol. 30 (1987), P.371- 378