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Online since: January 2014
Authors: Bao Tian Wang, Xu Fen Zhu, Yong Li Zhang, Jun Yang Wei
In this paper, we focus on the need for the study of interface characteristics between different reinforced materials and clay, by making indoor drawing test with two kinds of reinforced materials commonly used in engineering and the same clay.
With the rapid development of Reinforced earth technology, different reinforced materials are also gradually applied to reinforced earth, In this paper, we focus on the need for the study of interface characteristics between different reinforced materials and clay, by making a indoor drawing test with two kinds of reinforced materials commonly used in engineering and the same clay.
The two kinds of reinforced materials drawing test results is shown in table 3.
Fujian Construction Science & Technology,2007(3):5-7
Journal of Chang’an University:Natural Science Edition,2005,25(6): 6-9
With the rapid development of Reinforced earth technology, different reinforced materials are also gradually applied to reinforced earth, In this paper, we focus on the need for the study of interface characteristics between different reinforced materials and clay, by making a indoor drawing test with two kinds of reinforced materials commonly used in engineering and the same clay.
The two kinds of reinforced materials drawing test results is shown in table 3.
Fujian Construction Science & Technology,2007(3):5-7
Journal of Chang’an University:Natural Science Edition,2005,25(6): 6-9
Online since: January 2015
Authors: Oleg Stolyarov, Askar Aznabaev, Irina Loginova, Semen Bondarenko, Kirill Gureev, Daria Likhaia, Nikita Lopatin, Elena Yakovleva
Methods and materials
To accomplish these objectives the priority was to determine the basic mechanical and geometrical characteristics of the material.
The assembly of testing structures was made in the laboratory of the department of "Resistance of materials" of Engineering and Construction Institute.
A multi-scale computational method including contact for the analysis of damage in composite materials (2014) Computational Materials Science, Elsevier, 95, pp. 522-535
The safety of masonry arches (1969) International Journal of Mechanical Sciences, pp. 363-385
Determination of flow curve at large cyclic plastic strain by multiaxial forging on MaxStrain System (2014) International Journal of Mechanical Sciences, pp. 182-188.
The assembly of testing structures was made in the laboratory of the department of "Resistance of materials" of Engineering and Construction Institute.
A multi-scale computational method including contact for the analysis of damage in composite materials (2014) Computational Materials Science, Elsevier, 95, pp. 522-535
The safety of masonry arches (1969) International Journal of Mechanical Sciences, pp. 363-385
Determination of flow curve at large cyclic plastic strain by multiaxial forging on MaxStrain System (2014) International Journal of Mechanical Sciences, pp. 182-188.
Online since: March 2011
Authors: He Ping Zhong
Acknowledgements
This paper is supported by the Soft Science Research Project of Henan Province (092400440088) and the Major Special Project of Xuchang University (2010ZD007).
Academy of Management Journal, 1996, 39 (5): 1245-1264
Journal of Managerial Issues, 2002, 14(1):68-84
Journal of High Technology Management Research, 2006,17(1): 97-108
Journal of Managerial Issues, 2006,18(3):372-392
Academy of Management Journal, 1996, 39 (5): 1245-1264
Journal of Managerial Issues, 2002, 14(1):68-84
Journal of High Technology Management Research, 2006,17(1): 97-108
Journal of Managerial Issues, 2006,18(3):372-392
Online since: November 2012
Authors: Xi Nan Yu, Ji Hua Cao, Jin Pang, Hong Liu
The Research on Material Balance Considering In-Seam and Intrabed Water
Xinan Yu1,a, Hong Liu 2,b, Jihua Cao3,c and Jin Pang4,d
1,2,4Chongqing University of Science and Technology,China
3The geological institute of natural gas developing company in QingHai oil field,China
ayxndavid@163.com,bliubrett@vip.sina.com,ccjhqh@petrochina.com,d3880896@qq.com
Key words: in-seam water,intrabed water,material balance equation,dynamic reserve
Abstract.
References [1] Yu Jin,Li Yun.The study process of gas and water two phases flowing through porous medium about water-driving gas reservoir.The journal of Southwest Petroluem University,2003.6,25 (3)
[2] Zhu HuaYin,FuDaQi.The expenrimental research about mechanism of fluid flowing through porous medium in low permeable gas reservoir.The journal of natural gas exploration and developmeng,32 (3)
[3] Qiu ZhongXian,Liu Yue Tian,Tu Bing.The mechanism of Non-Darcy flowing through low permeable porous medium.The journal of special oil and gas reservoir,2009.2,16 (1)
[4] Ashford F E.An evaluation of criticalmultiphase flow per-formance through wellhead chokes[J].Journal of Petroleum Technology,1974,8: 843-850
References [1] Yu Jin,Li Yun.The study process of gas and water two phases flowing through porous medium about water-driving gas reservoir.The journal of Southwest Petroluem University,2003.6,25 (3)
[2] Zhu HuaYin,FuDaQi.The expenrimental research about mechanism of fluid flowing through porous medium in low permeable gas reservoir.The journal of natural gas exploration and developmeng,32 (3)
[3] Qiu ZhongXian,Liu Yue Tian,Tu Bing.The mechanism of Non-Darcy flowing through low permeable porous medium.The journal of special oil and gas reservoir,2009.2,16 (1)
[4] Ashford F E.An evaluation of criticalmultiphase flow per-formance through wellhead chokes[J].Journal of Petroleum Technology,1974,8: 843-850
Online since: January 2013
Authors: Li Cheng Guo, Hong Jun Yu, Yan Yan Zhang, Yu Bo Feng, Kai Huang, Feng Nan Guo
Functionally graded materials. finite element method
Abstract.
Introduction Functionally graded materials (FGMs), as a kind of typical nonhomogeneous materials, have excellent thermomechanical properties and have absorbed great attention from many scholars in recent years.
The results indicate that the TSIF at the early stages of thermal shocks are dominant factors for fracture failure of the materials.
Paulino: International Journal of Fracture 107(2001), p. 73-98 [2] and Acta Mechanica Vol. 195(2008), p. 157-166 [3] L.C.Guo, N.Noda and L.Z.Wu: Composites Science and Technology.
Paulino: Journal of Applied Mechanics-Transactions of the ASME Vol. 72(2005), p. 351-364 [7] K.C.
Introduction Functionally graded materials (FGMs), as a kind of typical nonhomogeneous materials, have excellent thermomechanical properties and have absorbed great attention from many scholars in recent years.
The results indicate that the TSIF at the early stages of thermal shocks are dominant factors for fracture failure of the materials.
Paulino: International Journal of Fracture 107(2001), p. 73-98 [2] and Acta Mechanica Vol. 195(2008), p. 157-166 [3] L.C.Guo, N.Noda and L.Z.Wu: Composites Science and Technology.
Paulino: Journal of Applied Mechanics-Transactions of the ASME Vol. 72(2005), p. 351-364 [7] K.C.
Online since: May 2012
Authors: Yang Ping Yao, Zhao Xia Tong, Min Zhou
Micro-deformation mechanism of granular materials under different boundary conditions based on DEM simulation
Zhaoxia TONG1,a ,Min ZHOU1,b and Yangping YAO1,c
1School of Transportation Science and Engineering, Beihang University, Beijing,China
atongzx@buaa.edu.cn, blwmdelp@foxmail.com, cypyao@buaa.edu.cn
Keywords: Boundary condition; Micromechanics; Discrete element method (DEM); Granular material;
Abstract.
The micro-deformation mechanism of anisotropic granular materials under different boundary conditions was analyzed in detail.
Meanwhile, particle rotation plays a dominant role in the development of shear bands in granular materials.
The mechanical properties of granular materials were affected greatly by the long axis orientation of particles.
Dafalias: International Journal for Numerical and Analytical Methods in Geomechanics, Vol. 35(10) (2011), p. 1098-1126 [7] LianWei ZHANG: Research on Failure Mechanism and Strength Criterion of Anisotropic Granular Materials and Its Application.
The micro-deformation mechanism of anisotropic granular materials under different boundary conditions was analyzed in detail.
Meanwhile, particle rotation plays a dominant role in the development of shear bands in granular materials.
The mechanical properties of granular materials were affected greatly by the long axis orientation of particles.
Dafalias: International Journal for Numerical and Analytical Methods in Geomechanics, Vol. 35(10) (2011), p. 1098-1126 [7] LianWei ZHANG: Research on Failure Mechanism and Strength Criterion of Anisotropic Granular Materials and Its Application.
Online since: November 2013
Authors: Mohammad Javad Mahdavinejad, Leili Hashemi Rafsanjani, Maryam Rasoolzadeh, Marzieh Nazari
New nanostructured materials open new horizons to scientific bases of building and construction materials.
Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
Sometimes conservative architects use traditional materials.
Materials and Methods Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
International Journal of Disaster Resilience in the Built Environment, 3 (2) (2012) 133 – 147
Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
Sometimes conservative architects use traditional materials.
Materials and Methods Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
International Journal of Disaster Resilience in the Built Environment, 3 (2) (2012) 133 – 147
Online since: December 2022
Authors: Ahmed H. Ali, Ismail Hakkı Kara, Jamal Ismael Abdulhameed
Materials and Methods Section
2.1.
Materials 2.1.1.
Rashmi. , Waste tire rubber in polymer blends: A review on the evolution, properties and future, Progress in Materials Science 72 (2015) 100-140
Bárány., Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers, Journal of Materials Science 48, no. 1 (2013) 1- 38
,How to read and interpret FTIR spectroscope of organic material, Indonesian Journal of Science and Technology 4, no. 1 (2019) 97-118.
Materials 2.1.1.
Rashmi. , Waste tire rubber in polymer blends: A review on the evolution, properties and future, Progress in Materials Science 72 (2015) 100-140
Bárány., Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers, Journal of Materials Science 48, no. 1 (2013) 1- 38
,How to read and interpret FTIR spectroscope of organic material, Indonesian Journal of Science and Technology 4, no. 1 (2019) 97-118.
Online since: May 2020
Authors: Jian Quan Liang, Lin Li, Yue Wang, Li Wei Liu, Hai Tao Feng, Hong Da Zhang, Wei Sun
The materials are nano porous aerogels, rubber and asbestos plates, all of which are high polymer organic materials and inorganic materials with the typical property of low temperature resistance.
[2] Wu Chuanlin, in: New building materials, 2003(5), Application and development of thermal insulation materials in electric power industry.
(In Chinese) [6] Lee J K, Gould G L, Rhine W, in: Journal of sol-gel Science and Technology, 2009, 49(2):209-220
[7] Xue-Nong G, in: Journal of South China University of Technology, 2007, 35(5):113-111.
[10] Jiang H, Yin Z, in: Journal of Wuhan University of Technology, 2002, 24 (3): 1-1528
[2] Wu Chuanlin, in: New building materials, 2003(5), Application and development of thermal insulation materials in electric power industry.
(In Chinese) [6] Lee J K, Gould G L, Rhine W, in: Journal of sol-gel Science and Technology, 2009, 49(2):209-220
[7] Xue-Nong G, in: Journal of South China University of Technology, 2007, 35(5):113-111.
[10] Jiang H, Yin Z, in: Journal of Wuhan University of Technology, 2002, 24 (3): 1-1528
Online since: April 2015
Authors: Alexey Pestryakov, Frank Werner, Larysa Burtseva, Rainier Romero, Vitalii Petranovskii, Benjamin Valdes
Materials Science and Engineering 23 (1976) 199-205
Computational Materials Science 29 (2004) 301-308
Computational Materials Science 44 (2009) 1397-1407
Computational Materials Science 47 (2010) 951-961
Computational Materials Science 77 (2013) 387-398
Computational Materials Science 29 (2004) 301-308
Computational Materials Science 44 (2009) 1397-1407
Computational Materials Science 47 (2010) 951-961
Computational Materials Science 77 (2013) 387-398