Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2022
Authors: Dong Cui, Xiao Bao Zuo, Jing Wang
Journal of Materials in Civil Engineering, 33.1 (2021)
Journal of Materials in Civil Engineering, 29.7 (2017): 04017020
Ed.: Materials Science Edition, 35.5 (2020)
Journal of Building Materials, 5 (2008): 626-630
Journal of materials chemistry.
Journal of Materials in Civil Engineering, 29.7 (2017): 04017020
Ed.: Materials Science Edition, 35.5 (2020)
Journal of Building Materials, 5 (2008): 626-630
Journal of materials chemistry.
Online since: February 2016
Authors: Yaroslav A. Erisov, Fedor V. Grechnikov
Barlat, Crystallographic texture, anisotropic yield surfaces and forming limits of sheet metals, Materials Science and Engineering. 91(C) (1987) 55-72
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Santhanam, An algorithm for determining the optimal blank shape for the deep drawing of aluminum cups, Journal of Materials Processing Technology. 125-126 (2002) 743-750
Lee, Optimum blank shapes for prismatic cup drawing - Consideration of friction and material anisotropy, Journal of Manufacturing Science and Engineering, Transactions of the ASME. 120(2) (1998) 306-315
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Santhanam, An algorithm for determining the optimal blank shape for the deep drawing of aluminum cups, Journal of Materials Processing Technology. 125-126 (2002) 743-750
Lee, Optimum blank shapes for prismatic cup drawing - Consideration of friction and material anisotropy, Journal of Manufacturing Science and Engineering, Transactions of the ASME. 120(2) (1998) 306-315
Online since: July 2011
Authors: Yuan Dong Liu, Yi Hui Yin, Ying Chun Lu
Based on the idea, porous materials with in-order microstructures, i.e., metal dot array materials and linear porous materials, are designed comprising open pore and close pore whose forms are regular.
Conclusion A concurrent topology optimization model of materials and structures was presented.
In-Plane Stiffness and Yield Strength of Periodic Metal Honeycombs.Journal of Engineering Materials and Technology, 2004:137-156
Integrated Design of Porous Materials and Structures with Scale-Coupled Effect[J].
Chinese Journal of Theoretical and Applied Mechanics, 38(4):522-529 (in Chinese)
Conclusion A concurrent topology optimization model of materials and structures was presented.
In-Plane Stiffness and Yield Strength of Periodic Metal Honeycombs.Journal of Engineering Materials and Technology, 2004:137-156
Integrated Design of Porous Materials and Structures with Scale-Coupled Effect[J].
Chinese Journal of Theoretical and Applied Mechanics, 38(4):522-529 (in Chinese)
Online since: January 2013
Authors: Li Ying Zhang, Fang Zhang, Hong Wei Yang
In this paper, the basic concept, function and application of intelligent materials were introduced, some key problems such as knowledge base, reasoning machine were explained, at last, the application prospect of intelligent materials were analyzed.
1 Characteristic and application of intelligent materials
Intelligent materials were new materials that emerged and developed rapidly in the world.
Then this will give these materials, structure the bionic function and make them “intelligent”, this type of materials were called intelligent material.
In recent years, the development of science and technology injected new vitality to the development of the intelligent materials, science and technology workers began to process these four kinds of functions of intelligent materials respectively, and design them separately according to the need, manufactured a variety of excellent intelligent materials.
References [1]Gao Shuya, Intelligent Materials and Their Application on Some Fields, Journal of Shanxi University of Science & Technology, Vol.22 (5) (2004), p.163-166
[2] He Changcheng, Gu Zhenya, Discussion about Intelligent Materials Concept, Journal of Tian Jin Industrial University, Vol .20(5) (2001)
Then this will give these materials, structure the bionic function and make them “intelligent”, this type of materials were called intelligent material.
In recent years, the development of science and technology injected new vitality to the development of the intelligent materials, science and technology workers began to process these four kinds of functions of intelligent materials respectively, and design them separately according to the need, manufactured a variety of excellent intelligent materials.
References [1]Gao Shuya, Intelligent Materials and Their Application on Some Fields, Journal of Shanxi University of Science & Technology, Vol.22 (5) (2004), p.163-166
[2] He Changcheng, Gu Zhenya, Discussion about Intelligent Materials Concept, Journal of Tian Jin Industrial University, Vol .20(5) (2001)
Online since: October 2011
Authors: Wan Peng Huang, Liang Wang, Sha Huang, Shi Zhong Lu
Acknowledgement
It is a project supported by the Doctoral Candidate Innovation Research Support Program by Science & Technology Review (kjdb201001-10).
[5] Tao Yu, Laigui Wang: Journal of Liaoning Technical University Vol. 25(2006), p.132-134
[6] Weiiia Guo, Limin Liu, Guanghan Shen: Journal of China Coal Society Vol. 20(1995), p.39-44
[7] Suhua Wang, Yanfa Gao, Junzhan Liao: Journal of Shandong Agricultural University (Natural Science) Vol. 36(2005), p.411-414
[11] Haifei Lin, Shugang Li, Lianhua Cheng: Journal of Xi’an University of Science and Technology Vol. 30(2010), p.507-512
[5] Tao Yu, Laigui Wang: Journal of Liaoning Technical University Vol. 25(2006), p.132-134
[6] Weiiia Guo, Limin Liu, Guanghan Shen: Journal of China Coal Society Vol. 20(1995), p.39-44
[7] Suhua Wang, Yanfa Gao, Junzhan Liao: Journal of Shandong Agricultural University (Natural Science) Vol. 36(2005), p.411-414
[11] Haifei Lin, Shugang Li, Lianhua Cheng: Journal of Xi’an University of Science and Technology Vol. 30(2010), p.507-512
Online since: September 2014
Authors: Feng Guo Du, Guang Ren Sun, Xiu Rong Kong, Qian Chuan Jiao
Materials and methods
Biomaterials.
Method of processing composite materials.
Table 2 The results of single factor tests for processing composite materials No.
The ratio of composite materials.
Abdel-Aal: The Open Food Science Journal, 4(2010), p. 7-22
Method of processing composite materials.
Table 2 The results of single factor tests for processing composite materials No.
The ratio of composite materials.
Abdel-Aal: The Open Food Science Journal, 4(2010), p. 7-22
Online since: July 2011
Authors: You Xia Sun, Xing Dong Li
Development and Design of Coal Gangue Concrete Filling Material
Youxia Sun1, a, Xingdong Li2,b
1Key Laboratory of Mining Disaster Prevention and Control of Education Ministry, Shandong University of Science and Technology, Qingdao, Shandong, 266510, China
2College of Natural Resources and Environmental Engineering, Shandong University of Science and Technology, Qingdao, Shandong, 266510, China
asyxljl@sohu.com, blxd7356@sina.com
Keywords: coal gangue, filling material, development design
Abstract.
Thus far there are mainly four kinds of filling materials, which are high water materials, solid materials, paste filling materials and paste-like filling materials.
Except high water materials, the other three all use coal gangue as aggregate.
Kaolinite mudstone and illite shale can be used to produce coal gangue brick of porous sintered materials, building ceramics, aluminum ore, silicon aluminum alloy, road construction materials.
References [1] Minggao Qian, Jialin Xu: submitted to Journal of University of Mining & Technology (2003) in Chinese [2] Nailiang Li, Guangming Feng: submitted to Journal of Coal Mining Technology (2010), in Chinese [3] Xiexing Miao, Jixiong Zhang: submitted to Journal of China Coal Society (2010). in Chinese [4] Huaqiang Zhou: submitted to Journal of University of Mining & Technology (2004) in Chinese [5] Yucheng Huang, Henghu Sun: submitted to Journal of Coal Science and Technology(2003) in Chinese
Thus far there are mainly four kinds of filling materials, which are high water materials, solid materials, paste filling materials and paste-like filling materials.
Except high water materials, the other three all use coal gangue as aggregate.
Kaolinite mudstone and illite shale can be used to produce coal gangue brick of porous sintered materials, building ceramics, aluminum ore, silicon aluminum alloy, road construction materials.
References [1] Minggao Qian, Jialin Xu: submitted to Journal of University of Mining & Technology (2003) in Chinese [2] Nailiang Li, Guangming Feng: submitted to Journal of Coal Mining Technology (2010), in Chinese [3] Xiexing Miao, Jixiong Zhang: submitted to Journal of China Coal Society (2010). in Chinese [4] Huaqiang Zhou: submitted to Journal of University of Mining & Technology (2004) in Chinese [5] Yucheng Huang, Henghu Sun: submitted to Journal of Coal Science and Technology(2003) in Chinese
Online since: October 2011
Authors: Bo Liu, Yan Hui Qie, Jing Yuan Wang, Chen Hua Lu, Jian Bing Sang
Many researchers assume materials are incompressible.
Such materials are known as pressure sensitive materials.
Journal of Engineering Materials & Technology.
Journal of the Mechanics and Physics of Solids.
Journal of Applied Mechanics.
Such materials are known as pressure sensitive materials.
Journal of Engineering Materials & Technology.
Journal of the Mechanics and Physics of Solids.
Journal of Applied Mechanics.
Online since: July 2024
Authors: Huma Matloob
New sustainable building materials like recycled plastics, bio-based materials, and green concrete are revolutionizing the construction industry.
Significant potential for reduction through sustainable materials and techniques.
SDRP Journal of Nanotechnology & Material Science, 1(1)
In E3S Web of Conferences, v. 244, (2021), EDP Sciences
In IOP Conference Series: Materials Science and Engineering, IOP Publishing. 713, 1, (2020) p. 012048).
Significant potential for reduction through sustainable materials and techniques.
SDRP Journal of Nanotechnology & Material Science, 1(1)
In E3S Web of Conferences, v. 244, (2021), EDP Sciences
In IOP Conference Series: Materials Science and Engineering, IOP Publishing. 713, 1, (2020) p. 012048).
Online since: May 2020
Authors: Xian Zheng Gong, Feng Gao, Li Wei Hao, Yu Liu, Xiao Qing Li, Yan Zheng, Ning Liu
Moreover, the typical LCA case studies of cement, glass, ceramics, wall materials, insulation materials and other building materials were reviewed.
China is a big country in production and consumption of building materials, its output and consumption of cement, ceramics, glass, wall materials, insulation materials and other major building materials have ranked first in the world for many years.
Wall Materials.
Other Building Materials.
A review on LCA studies, Science of the total environment. 626 (2018) 927-940.
China is a big country in production and consumption of building materials, its output and consumption of cement, ceramics, glass, wall materials, insulation materials and other major building materials have ranked first in the world for many years.
Wall Materials.
Other Building Materials.
A review on LCA studies, Science of the total environment. 626 (2018) 927-940.