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Online since: May 2011
Authors: Hong Hong Sun, Jiu Guang Geng, Qian Zhang
Journal of Materials in Civil Engineering. 8, 779-787
Journal of Materials in Civil Engineering. 11, 711-718
Journal of Materials in Civil Engineering. 3, 157-165
Journal of Materials in Civil Engineering.2, 6-14
Journal of Materials in Civil Engineering.7, 714-725
Journal of Materials in Civil Engineering. 11, 711-718
Journal of Materials in Civil Engineering. 3, 157-165
Journal of Materials in Civil Engineering.2, 6-14
Journal of Materials in Civil Engineering.7, 714-725
Online since: September 2024
Authors: Myroslav Malovanyy, Galina Krusir, Halyna Sakalova, Tamara Vasylinych, Natalia Beznosiuk
Introduction
The relevance of the work is determined by the need to dispose of materials waste for water treatment on one hand, and the improvement of water purification technologies on the other, particularly through the regeneration and reuse of such materials.
Consequently, sorption materials utilized in food production adhere to the highest quality parameters, ensuring minimal impurity content.
As a result, the cost of these materials is comparatively higher than adsorbents used in other industries [9].
Key Engineering Materials. 925 (2022) 169–178
Materials Science Forum. 1038 (2021) 407–416
Consequently, sorption materials utilized in food production adhere to the highest quality parameters, ensuring minimal impurity content.
As a result, the cost of these materials is comparatively higher than adsorbents used in other industries [9].
Key Engineering Materials. 925 (2022) 169–178
Materials Science Forum. 1038 (2021) 407–416
Online since: May 2011
Authors: Jun Shuai Huo, Yi Jun Geng, Zhi Qiang Yu
So, after being improved, whether the weathered red sandstone soil can meet the requirements of expressway pavement materials is an urgent problem to be solved.
Test materials Weathered red sandstone soil samples in test was taken from Mianyan to Suining (of sichuang province) Expressway proposed to construct by China Railway Erju Co.
The road performance tests of the improved red sandstone weathered soil Indirect tensile strength is an important mechanical property of materials, reflecting the connection performance of particles within the materials.
China Civil Engineering Journal Vol. 35(2002), p. 82-86, in Chinese
Journal of South China University of Technology (Natural Science Edition) Vol. 29(2008), p. 475-478, in Chinese
Test materials Weathered red sandstone soil samples in test was taken from Mianyan to Suining (of sichuang province) Expressway proposed to construct by China Railway Erju Co.
The road performance tests of the improved red sandstone weathered soil Indirect tensile strength is an important mechanical property of materials, reflecting the connection performance of particles within the materials.
China Civil Engineering Journal Vol. 35(2002), p. 82-86, in Chinese
Journal of South China University of Technology (Natural Science Edition) Vol. 29(2008), p. 475-478, in Chinese
Online since: October 2011
Authors: Xi Xiang Zhang, Chao Zhang
FRP materials have lower density to polymer concrete.
Typical mechanical properties of pavement materials.
In addition, the FRP materials can be designed to be almost zero coefficient of thermal expansion (CTE) [14].
Ding: Journal of Huazhong University of Science and Technology, Vol. 25 (2008), p. 23.
Wang, Mechanics Composite Materials Mechanics and Structural Mechanics.
Typical mechanical properties of pavement materials.
In addition, the FRP materials can be designed to be almost zero coefficient of thermal expansion (CTE) [14].
Ding: Journal of Huazhong University of Science and Technology, Vol. 25 (2008), p. 23.
Wang, Mechanics Composite Materials Mechanics and Structural Mechanics.
Online since: February 2011
Authors: Zhi Gang Yan, Ming Zhe An, Hua Luo
Their usage provides high strength, high ductility, high stiffness and full usage of construction materials.
Material Model of Confined Concrete.
Journal of Construction Steel Research, Vol. 62 (2006), p 706-715
Journal of Building Structures, Vol. 26 (2005), p 52-57.
Sichuan Building Science, Vol. 35 (2009), p 19-23.
Material Model of Confined Concrete.
Journal of Construction Steel Research, Vol. 62 (2006), p 706-715
Journal of Building Structures, Vol. 26 (2005), p 52-57.
Sichuan Building Science, Vol. 35 (2009), p 19-23.
Online since: May 2013
Authors: Qing Shan Li, Wei Hong, Long Long Guan, Ming Cheng Liu, Pei Jing Wang
Research of the Ancient Sea Rock-The Natural Mineral Enzyme Function Water
Ming-cheng Liu1, Qing-shan Li1*, Pei-jing Wang2,Longlong Guan1,Wei Hong1
1, State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, Hebei, China
2, Shandong forefront of biotechnology Limited Company, Binzhou 256600, Shandong China
* Corresponding author: Qingshan Li; Tel: 13102503197; Email: qsli@ysu.edu.cn.
In this paper, the micro-nano powder of ancient Sea rock was used as core material to filter tap water.
Materials and apparatus Ordinary tap water; ancient Sea rock which is natural sedimentary was prepared as powder of 10-500nm with micro-nanotechnology.
[3] Li Zhifu, Zhang Xiaojian and Lv MuJian, “Study cluster structures of liquid water with17O–NMR”, Journal of Environmental Science, vol. 24, pp: 6-9, January 2004
Yang, “Effects of ions in natural water on the 17O-NMR chemical shift of water and their relationship to water cluster”, Journal of Molecular Liquids, vol. 126, pp: 14-18, January/March 2006.
In this paper, the micro-nano powder of ancient Sea rock was used as core material to filter tap water.
Materials and apparatus Ordinary tap water; ancient Sea rock which is natural sedimentary was prepared as powder of 10-500nm with micro-nanotechnology.
[3] Li Zhifu, Zhang Xiaojian and Lv MuJian, “Study cluster structures of liquid water with17O–NMR”, Journal of Environmental Science, vol. 24, pp: 6-9, January 2004
Yang, “Effects of ions in natural water on the 17O-NMR chemical shift of water and their relationship to water cluster”, Journal of Molecular Liquids, vol. 126, pp: 14-18, January/March 2006.
Online since: July 2014
Authors: Ping Sun, Dong Dong Wang, Yu Zhang Sha, Lu Xi Liu
Research Journal of Applied Sciences,Engineering and Technology, Vol. 5 (2013) No.5,p.1646-1651
Wang: Granular Materials of Slurry Pipeline Transportation (Ocean Publication,China 1998).p.67-68.
Chemical Engineering Science,Vol.60 (2005), p.1371 – 1381
Journal of Hydrodynamics, Vol. 4 (1989) No.4, p.105-114.
Journal of Chengdu University of Science and Technology, (1996) No.3, p.89-94.
Wang: Granular Materials of Slurry Pipeline Transportation (Ocean Publication,China 1998).p.67-68.
Chemical Engineering Science,Vol.60 (2005), p.1371 – 1381
Journal of Hydrodynamics, Vol. 4 (1989) No.4, p.105-114.
Journal of Chengdu University of Science and Technology, (1996) No.3, p.89-94.
Online since: January 2025
Authors: Salasiah Endud, Zainab Ramli, Mohd Bakri Bakar, Nurliana Binti Roslan
Because of aformentioned excellent characteristics, SBA-15 is currently one of the most fascinating support material for the functionalization with the imidazolium-based ILs, compared to other various ordered mesoporous materials.
The pore size distribution, pore volume and specific surface area of the materials were determined from a N2 adsorption-desorption isotherms analysis at 77 K using a Micromeritics ASAP 2010.
Julbe,Design pf Phosphonated Imidazolium-Based Ionic Liquids Grafted on γ-Alumina: Potential Model for Hybrid Membranes, International Journal of Molecular Sciences 17(1212) (2016) 1-13
Lin,Functionalized Mesoporous Silica Materials for Controlled Drug Delivery, Chemical Society Reviews 41 (2012) 3679-3698
Lai, Synthesis of Ionic Liquid Functionalized SBA-15 Mesoporous Materials as Heterogeneous Catalyst toward Knoevenagel Condensation under SolventFree Conditions, European Journal of Inorganic Chemistry (2006) 2947-2949
The pore size distribution, pore volume and specific surface area of the materials were determined from a N2 adsorption-desorption isotherms analysis at 77 K using a Micromeritics ASAP 2010.
Julbe,Design pf Phosphonated Imidazolium-Based Ionic Liquids Grafted on γ-Alumina: Potential Model for Hybrid Membranes, International Journal of Molecular Sciences 17(1212) (2016) 1-13
Lin,Functionalized Mesoporous Silica Materials for Controlled Drug Delivery, Chemical Society Reviews 41 (2012) 3679-3698
Lai, Synthesis of Ionic Liquid Functionalized SBA-15 Mesoporous Materials as Heterogeneous Catalyst toward Knoevenagel Condensation under SolventFree Conditions, European Journal of Inorganic Chemistry (2006) 2947-2949
Online since: December 2012
Authors: Shi Sha Zhu, You Hang Zhou, Xue Peng Qian
Introduction
Among a large number of smart materials and structures, Electrorheological (Magnetorheological) material has a physical property that can be controlled by external electric (magnetic) field, and many advantages, including quick response, low energy consumption, and wide range of dynamic variation.
When the internal resistance of the material is too large or too small, the electric energy generated by it can not be transferred, and it will be converted into vibration energy again because of inverse piezoelectric effect, namely generating reaction force which will further hinder the deformation of piezoelectric materials.
Acknowledgements During the research of this project, the authors receive the support provided by National Natural Science Foundation of China: 51075345 and 11172100.
References [1] K X Wei, G Meng, W M Zhang: Journal of Intelligent Material Systems and Structures , Vol. 18(11) (2007), p.1165 [2] Z Q Chen: Journal of Architecture and Civil Engineering, Vol. 26 (2009) , p.9.In Chinese [3] Choi S B, Seong M S, Kim K S.: Journal of Automobile Engineering, Vol. 223(2009), p.459 [4] Nakano K, Suda Y, Nakadai S.: Journal of Sound and Vibration, Vol.260 (2003), p. 213 [5] Adhikari S, Friswell M I, Inman D J.
Smart Structures and Materials Conf.
When the internal resistance of the material is too large or too small, the electric energy generated by it can not be transferred, and it will be converted into vibration energy again because of inverse piezoelectric effect, namely generating reaction force which will further hinder the deformation of piezoelectric materials.
Acknowledgements During the research of this project, the authors receive the support provided by National Natural Science Foundation of China: 51075345 and 11172100.
References [1] K X Wei, G Meng, W M Zhang: Journal of Intelligent Material Systems and Structures , Vol. 18(11) (2007), p.1165 [2] Z Q Chen: Journal of Architecture and Civil Engineering, Vol. 26 (2009) , p.9.In Chinese [3] Choi S B, Seong M S, Kim K S.: Journal of Automobile Engineering, Vol. 223(2009), p.459 [4] Nakano K, Suda Y, Nakadai S.: Journal of Sound and Vibration, Vol.260 (2003), p. 213 [5] Adhikari S, Friswell M I, Inman D J.
Smart Structures and Materials Conf.
Online since: August 2015
Authors: Kazuya Kurokawa, Agus Sukarto Wismogroho, Kemas Ahmad Zaini Thosin, Toto Sudiro, Didik Aryanto
This is due to the fact that those materials posses attractive properties such as a relatively low density, high melting point and high oxidation resistant by forming protective SiO2 scale through selective oxidation of silicon [2-3].
Powder metallurgy was widely used to fabricate the sintered materials.
Journal of Refractory Metals and Hard Materials 41 (2013) 103-109
Kessel, Challenges and Opportunities for Spark Plasma Sintering: A Key Technology for a New Generation of Materials, in Burcu Ertuğ (Ed.), Sintering Applications, InTech, Chapters published February 06, 2013 under CC BY 3.0 license
Takahashi, Low temperature oxidation of fully dense and porous MoSi2, Materials Science and Engineering A261 (1999) 292–299.
Powder metallurgy was widely used to fabricate the sintered materials.
Journal of Refractory Metals and Hard Materials 41 (2013) 103-109
Kessel, Challenges and Opportunities for Spark Plasma Sintering: A Key Technology for a New Generation of Materials, in Burcu Ertuğ (Ed.), Sintering Applications, InTech, Chapters published February 06, 2013 under CC BY 3.0 license
Takahashi, Low temperature oxidation of fully dense and porous MoSi2, Materials Science and Engineering A261 (1999) 292–299.