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Online since: August 2012
Authors: Xing Wen Jia, Ya Jie Zhang, Jue Shi Qian
The Properties of Modified Adobe Materials with Desulfurization Waste*
Xingwen Jia Yajie Zhang Jueshi Qian
(College of Material Science& Engineering, Chongqing University, Chongqing, China)
(E-mail:jiaxingwen@126.com)
* Key Technologies R&D Program of China(Project Number: 2006BAJ04A04-02)
Keywords: desulfurization hemihydrates gypsum (DHG); desulphurization fly ash (DFA); modified adobe materials; drying shrinkage; durability
Abstract: As a modifier, desulfurization waste can improve the performance of traditional adobe materials.
Currently, the modifiers of adobe materials are cement, lime,fly ash and other cementations materials [3,4].
Consequently, adding DFA into the adobe materials, the water resistance of adobe materials can be improved significantly.
Journal of China Coal Society, vol.31, no.4, pp.506-510, April 2006
Journal of the Chinese Ceramic Society, vol.34, no.8, pp.828-831, August 2006
Currently, the modifiers of adobe materials are cement, lime,fly ash and other cementations materials [3,4].
Consequently, adding DFA into the adobe materials, the water resistance of adobe materials can be improved significantly.
Journal of China Coal Society, vol.31, no.4, pp.506-510, April 2006
Journal of the Chinese Ceramic Society, vol.34, no.8, pp.828-831, August 2006
Online since: February 2019
Authors: A.V. Khramenkova, K.R. Yuzhakova, D.N. Ariskina
Preparation of Hybrid Composite Materials
on the Basis of Vanadium and Molybdenum Oxide Compounds
A.V.
Electrochemical methods to produce such kinds of materials are used comparatively rarely.
The latter surpasses many known cathode materials for lithium-ion batteries [20].
Cao, A facile method for low – temperature synthesis of NaV3O8 as cathode materials for lithium secondary batteries, Materials Science. 17 (2011) 65-68
Rocther et al., AC electrophoretic deposition of organic – inorganic composite coatings, Journal of colloid and interface science. 392 (2013) 167–171
Electrochemical methods to produce such kinds of materials are used comparatively rarely.
The latter surpasses many known cathode materials for lithium-ion batteries [20].
Cao, A facile method for low – temperature synthesis of NaV3O8 as cathode materials for lithium secondary batteries, Materials Science. 17 (2011) 65-68
Rocther et al., AC electrophoretic deposition of organic – inorganic composite coatings, Journal of colloid and interface science. 392 (2013) 167–171
Online since: August 2010
Authors: Chang He Li, Cheng Jun Chen, Yong Yang
However, for the "single factor" material model, the correlation between material parameters (D
,n) and temperature is different for various materials.
Some materials express weakly temperature dependence (D and n are temperature independent) [4], but other materials express stronger temperature dependence (D and n are temperature dependent) [5].
Deng: Journal of Materials Processing Technology Vol. 105 (2000), p. 95-109 [6] H.
Becher: Materials Science and Engineering Vol.
Seeger: Materials Science and Engineering Vol.
Some materials express weakly temperature dependence (D and n are temperature independent) [4], but other materials express stronger temperature dependence (D and n are temperature dependent) [5].
Deng: Journal of Materials Processing Technology Vol. 105 (2000), p. 95-109 [6] H.
Becher: Materials Science and Engineering Vol.
Seeger: Materials Science and Engineering Vol.
Online since: September 2007
Authors: Zhao Qian Li, Ming Chen, Y.G. Wang
Introduction
Mechanical parts made by coating or cladding materials have been used extensively in the thermal
shock and thermal fatigue conditions.
So the thermal shock and thermal fatigue properties of cladding materials are an important property which will influence the life of the part made by cladding materials.
Though there have been many papers published on TBB hard cladding materials and thermal properties of hard materials and cladding or coating materials [2,3], there are few studies concerning the thermal properties of TBB cladding material.
Rao, G.S.Upadhyaya: P/M Science &Technology Briefs,Vol.2, n4 (2000), p. 9-13
Li: Chinese Journal of Applied Mechanics, Vol.19, n3 (2002), pp:120-123 Fig.4.
So the thermal shock and thermal fatigue properties of cladding materials are an important property which will influence the life of the part made by cladding materials.
Though there have been many papers published on TBB hard cladding materials and thermal properties of hard materials and cladding or coating materials [2,3], there are few studies concerning the thermal properties of TBB cladding material.
Rao, G.S.Upadhyaya: P/M Science &Technology Briefs,Vol.2, n4 (2000), p. 9-13
Li: Chinese Journal of Applied Mechanics, Vol.19, n3 (2002), pp:120-123 Fig.4.
Online since: August 2013
Authors: Vsévolod A. Mymrin, Rodrigo E. Catai, Natalia A. Tolmacheva, Elena Zelinskaya
New Construction Materials
Based on Automobile Construction Sludge.
For the majority of the materials it was up to 10%.
Journal of Hazardous materials, 106B, 2004, 139-147
Industrial wastes as raw materials for tile making.
Journal of the Ceramic Society of Japan.
For the majority of the materials it was up to 10%.
Journal of Hazardous materials, 106B, 2004, 139-147
Industrial wastes as raw materials for tile making.
Journal of the Ceramic Society of Japan.
Online since: May 2013
Authors: Yao Lin Liu
Metal materials are one of the most widely used materials.
It will provide reference for researchers engaging in the Extenics field and material science.
Beijing: Science Press
Beijing: Science Press
Journal of Jilin university (engineering and technology edition), 41(7):165~166.
It will provide reference for researchers engaging in the Extenics field and material science.
Beijing: Science Press
Beijing: Science Press
Journal of Jilin university (engineering and technology edition), 41(7):165~166.
Online since: December 2012
Authors: Jing Song Liu, You Ping Wang
Preparation and properties of high-temperature wave-transparent materials chromic phosphate aluminum [J].Aerospace Materials &Technology, 2004, 34(2):29-31
Advances in high temperature wave-transparent materials research [J].Journal of Aeronautical Materials, 2002, 23(1):57-58
Carbon fiber/ceramic composite using aluminum phosphate with different P/Al molar rations [J].Journal of Material Science Letters, 2000, 19(7):557-560 [4] Xiaolan Hu, Guangming Zhu, Guozheng Liang.
Preparation of aluminum borate whisker reinforced Aluminum Phosphates wave-transparent materials [J].Chinese Science Bulletin, 2008, 53(13):1608-1610 [6] Xifeng Li.Principle and Analysis of the Wave-transparent materials[J].
SAMPE Journal,2001, 37 (5):53.
Advances in high temperature wave-transparent materials research [J].Journal of Aeronautical Materials, 2002, 23(1):57-58
Carbon fiber/ceramic composite using aluminum phosphate with different P/Al molar rations [J].Journal of Material Science Letters, 2000, 19(7):557-560 [4] Xiaolan Hu, Guangming Zhu, Guozheng Liang.
Preparation of aluminum borate whisker reinforced Aluminum Phosphates wave-transparent materials [J].Chinese Science Bulletin, 2008, 53(13):1608-1610 [6] Xifeng Li.Principle and Analysis of the Wave-transparent materials[J].
SAMPE Journal,2001, 37 (5):53.
Online since: June 2014
Authors: Ming Xie, You Cai Yang, Ji Ming Zhang, Yong Tai Chen, Man Men Liu, Jie Qiong Hu
The density of materials is 9.15~9.41 g/cm3.
Journal of Changchun University. 111 (2001) 11-14
Ordnance material science and engineering. 24 (2001) 26-29
The Chinese Journal of Nonferrous Metals. 15 (2005) 1766-1769
The Chinese Journal of Nonferrous Metals. 10 (2000) 97-101
Journal of Changchun University. 111 (2001) 11-14
Ordnance material science and engineering. 24 (2001) 26-29
The Chinese Journal of Nonferrous Metals. 15 (2005) 1766-1769
The Chinese Journal of Nonferrous Metals. 10 (2000) 97-101
Online since: March 2012
Authors: Zarina Isnin, Sabarinah Sh. Ahmad
There are limited available datasets on building materials as they are typically not transparent, and research is usually done to individual materials or components.
Unfortunately, construction activities consume as much as 40% of global energy and materials used, emitting about 35% of carbon dioxide [20] using 30% raw materials and 28% of landfill material as construction debris [6].
Although less toxic and safer materials such as sustainable and green building materials are available, they are not widely used.
Journal of Workplace Health Management, (2011) [8] B.
Journal of the Physical Sciences Vol. 5(6), pp. 768-773, (2010) [22] J-J.
Unfortunately, construction activities consume as much as 40% of global energy and materials used, emitting about 35% of carbon dioxide [20] using 30% raw materials and 28% of landfill material as construction debris [6].
Although less toxic and safer materials such as sustainable and green building materials are available, they are not widely used.
Journal of Workplace Health Management, (2011) [8] B.
Journal of the Physical Sciences Vol. 5(6), pp. 768-773, (2010) [22] J-J.
Online since: July 2020
Authors: Md Supar Rohani, Mat Daud Anis Nazihah, Rosly Jaafar
Effect of Temperature and Frequency on the Acoustic Properties of Konjac Glucomannan-Agar Gels as Tissue Mimicking Materials
Anis Nazihah MAT DAUD1,a,*, Md Supar ROHANI1,b and Rosly JAAFAR2,c
1Department of Physics, Faculty of Science, Universiti Teknologi Malaysia,
81310 Skudai, Johor, Malaysia
2PhyKiR Research Group, Department of Physics, Faculty of Science and Mathematics,
Universiti Pendidikan Sultan Idris, 35900 Tanjong Malim, Perak, Malaysia
aanisnmd@yahoo.co.uk, bmdsupar@utm.my, crosly@fsmt.upsi.edu.my
Keywords: temperature, frequency, acoustic properties, konjac glucomannan-agar gels, tissue mimicking material, pulse echo immersion technique.
Introduction Tissue mimicking materials (TMMs) are materials that mimic the acoustic properties of human tissues [1–2].
Haisch, Acoustical properties of selected tissue phantom materials for ultrasound imaging, Physics in Medicine and Biology 52 (2007) N475–N484
Rohani, A computerized system based on alternative pulse echo immersion technique for acoustic characterization of non-porous solid tissue mimicking materials, Measurement Science and Technology 29 (2018) 45902
Jaafar, A computerized time domain and spectral analysis system for acoustic characterization of tissue mimicking materials, Journal of Physics: Conference Series 1083 (2018) 012016
Introduction Tissue mimicking materials (TMMs) are materials that mimic the acoustic properties of human tissues [1–2].
Haisch, Acoustical properties of selected tissue phantom materials for ultrasound imaging, Physics in Medicine and Biology 52 (2007) N475–N484
Rohani, A computerized system based on alternative pulse echo immersion technique for acoustic characterization of non-porous solid tissue mimicking materials, Measurement Science and Technology 29 (2018) 45902
Jaafar, A computerized time domain and spectral analysis system for acoustic characterization of tissue mimicking materials, Journal of Physics: Conference Series 1083 (2018) 012016