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Online since: January 2007
Authors: Zoltán Gácsi, Tadeusz Pieczonka, Andrea Makszimus, C. Hakan Gür
Doorbar: Materials Science and Technology.
Journal of Science and Technology of Particle Materials.
Materials Science Forum.
Materials Science, Testing and Informatics II, Ed.
Gür: Materials Science and Engineering A361 (2003), p. 29 [9] C.H.
Journal of Science and Technology of Particle Materials.
Materials Science Forum.
Materials Science, Testing and Informatics II, Ed.
Gür: Materials Science and Engineering A361 (2003), p. 29 [9] C.H.
Online since: June 2012
Authors: Yun Gang Li, Jian Xin Gao, Ying Tian, Yang Jiao
Therefore, it is widely used in high voltage switch electric electricity contacts, ion electrode materials, air tightness electronic packaging materials and special use military materials (such as the rocket nozzles, the plane throat line), etc.
Sol-gel method.Sol-gel method is a wet chemical method for preparation of materials.
Tungsten copper composite materials preparation and application progress [J].
Materials heat treatment technology, 2008, 37(10): 89-92 [4] Dae G K, Kang W L, Sung T O, Young D K.
Materials Letter, 2004, (58): 1199- 1203
Sol-gel method.Sol-gel method is a wet chemical method for preparation of materials.
Tungsten copper composite materials preparation and application progress [J].
Materials heat treatment technology, 2008, 37(10): 89-92 [4] Dae G K, Kang W L, Sung T O, Young D K.
Materials Letter, 2004, (58): 1199- 1203
Online since: January 2022
Authors: Alexandra Bourdot, Chady El Hachem, Maroua Maaroufi, Kamilia Abahri
Interest about bio-based materials is increasing for most researchers and engineers in the field of civil engineering.
Hygroscopic materials often exhibit a hysteresis loop, implying that the moisture content at the same relative humidity is different whether the material is wetting or drying.
Journal of Building Engineering 40. https://doi.org/10.1016/j.jobe.2021.102321 [13] Mualem Y., 1974.
Application of Wall and Insulation Materials on Green Building: A Review.
Construction and Building Materials, 193. https://doi.org/10.1016/ j.conbuildmat.2018.10.196
Hygroscopic materials often exhibit a hysteresis loop, implying that the moisture content at the same relative humidity is different whether the material is wetting or drying.
Journal of Building Engineering 40. https://doi.org/10.1016/j.jobe.2021.102321 [13] Mualem Y., 1974.
Application of Wall and Insulation Materials on Green Building: A Review.
Construction and Building Materials, 193. https://doi.org/10.1016/ j.conbuildmat.2018.10.196
Online since: August 2009
Authors: Jian Ping Lin, Shui Sheng Chen, Dong Feng Han
Material Properties.
Asnafi: Journal of Materials Processing Technology Vol. 96(1) (1999), p. 198 [4] P.
Leu: International Journal of Mechanical Sciences Vol. 38 (8) (1996), p. 917 [6] M.J.
Finn: International Journal of Plasticity Vol.16 (6) (2000), p. 701 [7] D.Y.
Hu: Journal of Materials Processing Technology Vol. 189(1) (2007), p. 262 [8] S.K.
Asnafi: Journal of Materials Processing Technology Vol. 96(1) (1999), p. 198 [4] P.
Leu: International Journal of Mechanical Sciences Vol. 38 (8) (1996), p. 917 [6] M.J.
Finn: International Journal of Plasticity Vol.16 (6) (2000), p. 701 [7] D.Y.
Hu: Journal of Materials Processing Technology Vol. 189(1) (2007), p. 262 [8] S.K.
Online since: July 2012
Authors: Claus Peter Fritzen, H. Jung, Miguel Angel Torres-Arredondo
Smart Materials and Structures, 2011. 20(4): pp. 45017-45026
Smart Materials and Structures, 2003. 12(3): pp. 804-814
Mignogna, Connection machine simulation of ultrasonic wave propagation in materials III: The three-dimensional case.
AIAA Journal, 2008. 46(3): pp. 591-600
IOP Conference Series: Materials Science and Engineering, 2010. 10(1): pp. 012065
Smart Materials and Structures, 2003. 12(3): pp. 804-814
Mignogna, Connection machine simulation of ultrasonic wave propagation in materials III: The three-dimensional case.
AIAA Journal, 2008. 46(3): pp. 591-600
IOP Conference Series: Materials Science and Engineering, 2010. 10(1): pp. 012065
Online since: July 2011
Authors: Shi Lin Yan, Chun Xia Li
Minimum Reinforcement Ratio of Concrete Beams
Reinforced with FRP Bars
Chunxia Li 1, a, SHilin Yan 1,b
1 School of Science, Wuhan University of Technology, Wuhan, Hubei province, PRC
adingli95@126.com, byanshl@whut.edu.cn
Keywords: Minimum Reinforcement Ratio, FRP Bars, cracking moment, FRP rupture
Abstract.
It is noticed that the minimum reinforcement ration is associated with the material properties, and proportional to the ratio of tensile strength of the concrete to design tensile strength of FRP bars.
Conclusion The minimum reinforcement ration is associated with the material properties, and proportional to the ratio of tensile strength of the concrete to design tensile strength of FRP bars.
Acknowledgment This research is supported by National Science foundation of PRC (51073125).
Journal of Wuhan university of technology, Vol. 30, pp.53-57 (2008) (in Chinese)
It is noticed that the minimum reinforcement ration is associated with the material properties, and proportional to the ratio of tensile strength of the concrete to design tensile strength of FRP bars.
Conclusion The minimum reinforcement ration is associated with the material properties, and proportional to the ratio of tensile strength of the concrete to design tensile strength of FRP bars.
Acknowledgment This research is supported by National Science foundation of PRC (51073125).
Journal of Wuhan university of technology, Vol. 30, pp.53-57 (2008) (in Chinese)
Online since: October 2012
Authors: Xiao Liu, Long Mei Wang
[4] Caixia Shi, Guoguang Cheng, Zhanjun Li, Pei Zhao: Journal of Iron and Steel Research, International, Vol.15 (2008), p.57
[6] G M Sim, J C Ahn, S C Hong: Materials Science and Engineering A, Vol. 396 (2005) p. 159
[7] N Fujita, O K hmura, A Yamamoto: Materials Science and Engineering A, Vol. 351 (2003) p. 272
[6] G M Sim, J C Ahn, S C Hong: Materials Science and Engineering A, Vol. 396 (2005) p. 159
[7] N Fujita, O K hmura, A Yamamoto: Materials Science and Engineering A, Vol. 351 (2003) p. 272
Online since: September 2014
Authors: Qiu Hua Shen, Xiao Jie Wang, Yun Zhe Ji
With the rapid development of modern industry and science technology, the demand for surfactants is increasing.
Materials and methods 3.1 Experimental device Foam separation apparatus is shown in Figure 1; the foam separation column is made by plexiglass, 1200 mm high, with inner diameter of 50 mm, and outer diameter of 60 mm.
Fig. 1 Schematic diagram of experimental Apparatus 1 Air pump 2 Humidifer 3 Buffer 4 Rotameter 5 Outlet 6 Distributor 7 Foam fractionation tower 8 Foam collector 3.2 Materials CTAB, analytical reagent, Tianjin Institute of Fine Chemicals Division; 752 UV-Vis spectrophotometer, Shanghai Precision & Scientific Instrument Co., Ltd.; LZB-3 rotameter, Shenyang North Star Flow Meter Factory; AC0-318 electromagnetic air compressor machines, Guangdong Haley Group Co., Ltd. 3.3 Experimental Methods Put CTAB wastewater into foam separation column by a peristaltic pump continuously, adjust the flow rate in the column to maintain a certain duration; using the wastewater pump, ventilate air into the solution, adjust the flow by rotor meter, and bubbles are generated by the gas distributor the bottom.
Shi: Journal of East China University of Science and Technology.
Materials and methods 3.1 Experimental device Foam separation apparatus is shown in Figure 1; the foam separation column is made by plexiglass, 1200 mm high, with inner diameter of 50 mm, and outer diameter of 60 mm.
Fig. 1 Schematic diagram of experimental Apparatus 1 Air pump 2 Humidifer 3 Buffer 4 Rotameter 5 Outlet 6 Distributor 7 Foam fractionation tower 8 Foam collector 3.2 Materials CTAB, analytical reagent, Tianjin Institute of Fine Chemicals Division; 752 UV-Vis spectrophotometer, Shanghai Precision & Scientific Instrument Co., Ltd.; LZB-3 rotameter, Shenyang North Star Flow Meter Factory; AC0-318 electromagnetic air compressor machines, Guangdong Haley Group Co., Ltd. 3.3 Experimental Methods Put CTAB wastewater into foam separation column by a peristaltic pump continuously, adjust the flow rate in the column to maintain a certain duration; using the wastewater pump, ventilate air into the solution, adjust the flow by rotor meter, and bubbles are generated by the gas distributor the bottom.
Shi: Journal of East China University of Science and Technology.
Online since: September 2013
Authors: Ting Ting Huang, Quan Hua Fan, Xiao Ping Zhang, Qing Hua Zhang, Yang Xu, Zhang Xue Yu, Hai Xing Liu
Introduction
Metal-organic polymeric frameworks containing metal ions and organic bridging ligands have developed in recent years due to their particular beauty and intriguing architectural diversity and crystal packing motifs along with potential applications as functional materials [1, 2].
16) O(6)-Mn(1)-Mn(1)#1 134.37(17) O(1)#2-Mn(1)-Mn(1)#1 100.17(12) O(1)-Mn(1)-Mn(1)#1 100.17(12) C(1)-O(1)-Mn(1) 117.0(3) Mn(1)#1-O(5)-Mn(1) 100.9(2) Mn(1)#1-O(5)-H(5A) 111.6 Mn(1)-O(5)-H(5A) 111.6 Mn(1)-O(6)-H(6C) 125.3 C(2)#2-N(1)-C(2) 123.1(6) C(2)#2-N(1)-Mn(1) 118.3(3) C(2)-N(1)-Mn(1) 118.3(3) O(2)-C(1)-O(1) 126.2(6) O(2)-C(1)-C(2) 118.9(6) O(1)-C(1)-C(2) 114.9(5) N(1)-C(2)-C(3) 119.6(5) N(1)-C(2)-C(1) 111.2(5) C(3)-C(2)-C(1) 129.2(5) _____________________________________________________________ Acknowledgments This study were supported by the Natural Science
ZR2010BL025), Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University).
[6] Chauhan Jayprakash S, Pandya Ajit V, International Journal of Engineering Science Invention, 2(2013), 36-43 [7].
16) O(6)-Mn(1)-Mn(1)#1 134.37(17) O(1)#2-Mn(1)-Mn(1)#1 100.17(12) O(1)-Mn(1)-Mn(1)#1 100.17(12) C(1)-O(1)-Mn(1) 117.0(3) Mn(1)#1-O(5)-Mn(1) 100.9(2) Mn(1)#1-O(5)-H(5A) 111.6 Mn(1)-O(5)-H(5A) 111.6 Mn(1)-O(6)-H(6C) 125.3 C(2)#2-N(1)-C(2) 123.1(6) C(2)#2-N(1)-Mn(1) 118.3(3) C(2)-N(1)-Mn(1) 118.3(3) O(2)-C(1)-O(1) 126.2(6) O(2)-C(1)-C(2) 118.9(6) O(1)-C(1)-C(2) 114.9(5) N(1)-C(2)-C(3) 119.6(5) N(1)-C(2)-C(1) 111.2(5) C(3)-C(2)-C(1) 129.2(5) _____________________________________________________________ Acknowledgments This study were supported by the Natural Science
ZR2010BL025), Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University).
[6] Chauhan Jayprakash S, Pandya Ajit V, International Journal of Engineering Science Invention, 2(2013), 36-43 [7].
Online since: September 2014
Authors: Wei Lin Zhao, Jian Rong Wang, Zong Jun Geng, Li Long Dong
The Effect of Inner Cylinder on Cyclone Preheater Using Fluent Software
Lilong Donga, Weilin Zhaob, Jianrong WangC, Zongjun Gengd
School of Materials Science and Engineering, University of Jinan, Jinan 250022, China
adlilong@163.com, bmse_zhaowl@ujn.edu.cn, cmse_wangjr@ujn.edu.cn, dmse_gzj@126.com
Keywords: Fluent Software, Inner cylinder, Cyclone Preheater, Separation efficiency, Pressure loss
Abstract.
Yu: Chemical Engineering Science Vol. 73 (2012), p. 123-139
Zhao: Advanced Materials Research Vol. 201 (2011), p. 263-266
Ozalp: International Journal of Heat and Fluid Flow Vol. 40 (2013) 198-209
Yu: Chemical Engineering Science Vol. 73 (2012), p. 123-139
Zhao: Advanced Materials Research Vol. 201 (2011), p. 263-266
Ozalp: International Journal of Heat and Fluid Flow Vol. 40 (2013) 198-209