Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2013
Authors: Lan Chen, Yu Heng Quan, Yan Song, Dan Dan Zou
Acknowledgements
This work was financially supported by the Natural Science Foundation of Hebei Province (No.
Larramendy: Journal of Hazardous Materials Vol. 163(2009), p. 337-343 [5] J.
Elvira Ríos: Journal of Hazardous Materials Vol. 152(2008), p. 1108-1114 [9] W.
Quan: CIESC Journal Vol. 62(2011), p. 2920-2925(in Chinese) [13] L.
Quan: CIESC Journal Vol. 62(2011), p. 2926-2931(in Chinese) [14] W.
Larramendy: Journal of Hazardous Materials Vol. 163(2009), p. 337-343 [5] J.
Elvira Ríos: Journal of Hazardous Materials Vol. 152(2008), p. 1108-1114 [9] W.
Quan: CIESC Journal Vol. 62(2011), p. 2920-2925(in Chinese) [13] L.
Quan: CIESC Journal Vol. 62(2011), p. 2926-2931(in Chinese) [14] W.
Online since: November 2011
Authors: Feng Liu, Ai Ping Zhao, Xue Ran Deng, Hong Deng
Silicon is one of the most promising materials to offer us a high quality substrate among various materials.
Materials of III-nitride grown on Si (111) III-nitride is the direct wide band semiconductor material with wurtzite structure .
LEO is a promising method to achieve quasi defect free GaN-based materials.
Sci. 17, (2008). 1-32 [4] Alois Krost, Armin Dadgar, Materials Science and Engineering.
Rouviere, A.Bourret, J.Massies, C.Deparis, N.Grandjean,[J],Materials Science and EngineeringB Vol.29, (1995), No.1-3, p.74-77 [56] P.R.Willmott, F.Antoni, [J] Appl.
Materials of III-nitride grown on Si (111) III-nitride is the direct wide band semiconductor material with wurtzite structure .
LEO is a promising method to achieve quasi defect free GaN-based materials.
Sci. 17, (2008). 1-32 [4] Alois Krost, Armin Dadgar, Materials Science and Engineering.
Rouviere, A.Bourret, J.Massies, C.Deparis, N.Grandjean,[J],Materials Science and EngineeringB Vol.29, (1995), No.1-3, p.74-77 [56] P.R.Willmott, F.Antoni, [J] Appl.
Online since: August 2014
Authors: Liang Ren, Long Wang, Chao Yin, Teng Wang, Xin Yu Mao, Jia Lu, Xiao Hou Shao
Materials and Methods
Materials.
The materials for EM enrichment culture were mixed and fermented by constant temperature incubator under the condition of 37℃ for 7-8 days[11].
Applied Mechanics and Materials, 2013, 409: 318-324
Journal of Hohai University (Natural Sciences), 2006, 34(5) : 489-491.
Journal of Chongqing University (Natural Science Edition) , 2004, 27(10): 125-127.
The materials for EM enrichment culture were mixed and fermented by constant temperature incubator under the condition of 37℃ for 7-8 days[11].
Applied Mechanics and Materials, 2013, 409: 318-324
Journal of Hohai University (Natural Sciences), 2006, 34(5) : 489-491.
Journal of Chongqing University (Natural Science Edition) , 2004, 27(10): 125-127.
Online since: August 2013
Authors: Dong Tao Xia, Xiang Kun Liu, Bo Ru Zhou
Test program
Materials and concrete mixtures.
(In Chinese) [3] Chujie Jiao, Zhenfeng Zhan and Chunyuan Peng: Journal of Guangzhou University (Natural Science Edition) Vol. 6 (2007), p. 70.
(In Chinese) [4] Dongtao Xia, Lihua Xu and Yin Chi: Journal of Shenyang Jianzhu University (Natural Science Edition) Vol.1 (2007), p. 77.
(In Chinese) [5] Yining Ding and Xiangjun Dong: Journal of Building Material Vol.8 (2005), p. 294.
(In Chinese) [10] Chengjiao Yang, Chengkui Hang and Yi Che: Journal of Building Materials Vol.11 (2008), p. 89.
(In Chinese) [3] Chujie Jiao, Zhenfeng Zhan and Chunyuan Peng: Journal of Guangzhou University (Natural Science Edition) Vol. 6 (2007), p. 70.
(In Chinese) [4] Dongtao Xia, Lihua Xu and Yin Chi: Journal of Shenyang Jianzhu University (Natural Science Edition) Vol.1 (2007), p. 77.
(In Chinese) [5] Yining Ding and Xiangjun Dong: Journal of Building Material Vol.8 (2005), p. 294.
(In Chinese) [10] Chengjiao Yang, Chengkui Hang and Yi Che: Journal of Building Materials Vol.11 (2008), p. 89.
Online since: October 2013
Authors: Dan Mei Xie, Li Kun Zheng, Yan Zhou
However, the method can only deal with constant material properties.
For most materials, the temperature-dependent thermal conductivity and thermal expansion coefficient can be assumed as: , , (4) where Tk is the reference temperature, λ1 and β1 are some constant coefficients.
Kushwaha: International Journal of Fatigue, Vol.23 (2001) No. 6, p. 549–560
Yu: International Journal of Thermal Science, Vol.53 (2012), p.100-108
Zhang, Kan, Weimin, Hu, Xuejiao: International Journal of Thermal Sciences, Vol.71 (2013), p. 292-301.
For most materials, the temperature-dependent thermal conductivity and thermal expansion coefficient can be assumed as: , , (4) where Tk is the reference temperature, λ1 and β1 are some constant coefficients.
Kushwaha: International Journal of Fatigue, Vol.23 (2001) No. 6, p. 549–560
Yu: International Journal of Thermal Science, Vol.53 (2012), p.100-108
Zhang, Kan, Weimin, Hu, Xuejiao: International Journal of Thermal Sciences, Vol.71 (2013), p. 292-301.
Online since: November 2012
Authors: Dai Qiang Deng, Yong Jian Zhu, Ping Wang
Quotation
For different geotechnical materials, due to the different internal composition particles, the expression of properties in the engineering is quite different, and its particle size distribution with fractal features to some extent.
TH backfill is similar to all kinds of concrete and rock materials, the fractal characteristics of the particle composition have its particularity.
In the aspect of mine backfill, the studies of literature [10-11] for the mechanical strength of the filling materials and distribution has achieved good results.
Journal of Chang’an University (Natural Science Edit ion): Vol. 6 (2009), p. 10-14
China Civil Engineering Journal: Vol. 11 of 40 (2007), p. 86-91
TH backfill is similar to all kinds of concrete and rock materials, the fractal characteristics of the particle composition have its particularity.
In the aspect of mine backfill, the studies of literature [10-11] for the mechanical strength of the filling materials and distribution has achieved good results.
Journal of Chang’an University (Natural Science Edit ion): Vol. 6 (2009), p. 10-14
China Civil Engineering Journal: Vol. 11 of 40 (2007), p. 86-91
Online since: November 2025
Authors: Valentine Yato Katte, Olumide Afis Busari
The dynamics of the bed materials show that the Shield parameter responsible for the initiation of motion of bed materials is in the range of (0.028≤θ≤0.19).
Hence, the mobile bed materials are characterized as being gravel.
Description of River Bed Materials The riverbed materials are referenced based on the cross-section of the river reaches where samples were collected.
Science Bulletin, (2020), 65 (1) 62-69
Aquatic Sciences - Research across Boundaries (2009)
Hence, the mobile bed materials are characterized as being gravel.
Description of River Bed Materials The riverbed materials are referenced based on the cross-section of the river reaches where samples were collected.
Science Bulletin, (2020), 65 (1) 62-69
Aquatic Sciences - Research across Boundaries (2009)
Online since: June 2014
Authors: Zhao Xia Hou, Shao Hong Wang, Dan Zhou, Li Qiong Yang, Wei Wei Hu, Xiao Dong Liu
Brief description for LTCC
LTCC technology is a new material technology [2] researched by Hughes in 1982, which is also an impressive multidisciplinary cross component integration technology in recent years and involves electronic technology, materials science, microwave technology [3].
The hardness of all materials contacted with refrigerant is higher than Cu.
The materials with high hardness have higher corrosion resistance.
In practical process, Zero shrinkage of LTCC technology is used with the combination of some lamination processes such as using the sacrificial materials, the covers, inserts materials[18-22].
[17] Xuemin Cui, Ji Zhou, Yuehui Wang, et al: ELECTRONIC COMPONENTS & MATERIALS.
The hardness of all materials contacted with refrigerant is higher than Cu.
The materials with high hardness have higher corrosion resistance.
In practical process, Zero shrinkage of LTCC technology is used with the combination of some lamination processes such as using the sacrificial materials, the covers, inserts materials[18-22].
[17] Xuemin Cui, Ji Zhou, Yuehui Wang, et al: ELECTRONIC COMPONENTS & MATERIALS.
Online since: October 2013
Authors: Zhi Liu, Shuang Zheng, Zhi Lian Peng, Pu Gong, Gan Ran Deng, Jian Hua Cao, Guo Jie Li, Yu Lin Li
Unsaponifiable matter is material that neither dissolves in water nor work with alkali in the process of saponification.
Analava: Journal of Human Ecology.
Keyou G.: Journal of Nutrition.
Basiron: European Journal of Lipid Science and Technology.
Kiatsimkul: Songklanakarin Journal of Science and Technology.
Analava: Journal of Human Ecology.
Keyou G.: Journal of Nutrition.
Basiron: European Journal of Lipid Science and Technology.
Kiatsimkul: Songklanakarin Journal of Science and Technology.
Online since: July 2013
Authors: Addisson Salazar, Gonzalo Safont, Luis Vergara, Antonio Vidal, Alberto Gonzalez
Common materials employed in heritage buildings are stone, mortar and brick.
All of this information can be used for quality control and characterization of materials since physical properties of the material, such as porosity and density, have a definite influence on the propagation of the ultrasound [7].
[3] J.H Bungey, Sub-surface radar testing of concrete: a review, Construction and Building Materials, 18 (1) (2004), 1-8
Papayianni, Investigative methods for the characterisation of historic mortars - Part 2: Chemical characterisation, Materials and Structures/Materiaux et Constructions, 38 (282) (2005) 771-780
Vergara, Nonlinear Prediction Based on Independent Component Analysis Mixture Modelling, Lecture Notes in Computer Science, 6692 (2011), 508-515
All of this information can be used for quality control and characterization of materials since physical properties of the material, such as porosity and density, have a definite influence on the propagation of the ultrasound [7].
[3] J.H Bungey, Sub-surface radar testing of concrete: a review, Construction and Building Materials, 18 (1) (2004), 1-8
Papayianni, Investigative methods for the characterisation of historic mortars - Part 2: Chemical characterisation, Materials and Structures/Materiaux et Constructions, 38 (282) (2005) 771-780
Vergara, Nonlinear Prediction Based on Independent Component Analysis Mixture Modelling, Lecture Notes in Computer Science, 6692 (2011), 508-515