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Online since: March 2015
Authors: Yue Chun Zhao, Biao Fan, Ming Hua Li, Chang Jian Xie, Qing Qing Sun, Yong Qi Ye
Materials and methods
Bacterial strains and materials.
Journal of Environmental Science & Health Part A (1995) 30, 99-107
Journal of hazardous materials (2010) 175(1), 284-292
Journal of Nanjing University (Natural Sciences) (1999) 31, 598-601
Journal of Environment Science (1999) 21, 89-95
Journal of Environmental Science & Health Part A (1995) 30, 99-107
Journal of hazardous materials (2010) 175(1), 284-292
Journal of Nanjing University (Natural Sciences) (1999) 31, 598-601
Journal of Environment Science (1999) 21, 89-95
Online since: November 2012
Authors: Ya Feng Ma, Yu Qi Wang, Lan Zheng, Jia Jing Jiang, Tie Gao
Based on the high turbidity feature of mine water, Glutinous Rice Starch(St)- Acrylamide(AM) graft polymer cationic flocculant was synthesised by copolymerization with St and AM as materials, ammonium persulfate and sodium hydrogen sulfite as the initiator, 2.3-glycigyl trimethyl ammonium chloride were used as cationic agent.
Starch modified flocculant becomes more and more popular for its selective, abundance in raw materials, low prices and non-toxic.
Experiment Instrument. main instruments were listed in table 1 Table 1 Main Instruments Instruments Type Manufacturer Electric mixer JB90-D Model factory of Shanghai Water bath SSY-H Instrument factory of Shanghai Electronic balance FAl004 Fine instrument factory of Shanghai Spectrophotometer 721 Technology company of Shanghai Drum wind drying machine DHG-9030A Instrument plant of Hongshan Spin chip vacuum pump TW-1A Instruments company of Shanghai Magnetic blender HJ-6 Experiment equipment company of Shanghai Nitrogen cylinder City saled Materials. main materials were listed in table 2 Table 2 Main Materials Materials Standard Manufacturer Glutinous Rice Starch Industrial grade City saled Acrylamide Analytically pure Chemical reagent company of Tianjin Ammonium persulfate Analytically pure Chemical reagent manufacturing company of Tianjin Sodium hydrogen sulfite Analytically pure Limited liability company of Tianjin Ethylalcohol Analytically pure Integrated management
Forum Vol. 29-31(2006), p. 5 [3] Hua Wu: submitted to Journal of Natural Sciences (1998) [4] Wenyao Yao, Shu Ming: submitted to Journal of Petrochemical (2001) [5] Ling Guo.
Zhihao Jin: submitted to Journal of Shanxi Normal University(2003) [6] Yin Hua, Peng Hui, Huixuan Liu: submitted to Journal of Environmental Science and Technology(2000) [7] With this plant, Shufen Zhang, Jinzong Yang: submitted to Journal of Applied Chemistry(2001) [8]Chouyyok W, Panpranot J, Thanachayanant C, et al.
Starch modified flocculant becomes more and more popular for its selective, abundance in raw materials, low prices and non-toxic.
Experiment Instrument. main instruments were listed in table 1 Table 1 Main Instruments Instruments Type Manufacturer Electric mixer JB90-D Model factory of Shanghai Water bath SSY-H Instrument factory of Shanghai Electronic balance FAl004 Fine instrument factory of Shanghai Spectrophotometer 721 Technology company of Shanghai Drum wind drying machine DHG-9030A Instrument plant of Hongshan Spin chip vacuum pump TW-1A Instruments company of Shanghai Magnetic blender HJ-6 Experiment equipment company of Shanghai Nitrogen cylinder City saled Materials. main materials were listed in table 2 Table 2 Main Materials Materials Standard Manufacturer Glutinous Rice Starch Industrial grade City saled Acrylamide Analytically pure Chemical reagent company of Tianjin Ammonium persulfate Analytically pure Chemical reagent manufacturing company of Tianjin Sodium hydrogen sulfite Analytically pure Limited liability company of Tianjin Ethylalcohol Analytically pure Integrated management
Forum Vol. 29-31(2006), p. 5 [3] Hua Wu: submitted to Journal of Natural Sciences (1998) [4] Wenyao Yao, Shu Ming: submitted to Journal of Petrochemical (2001) [5] Ling Guo.
Zhihao Jin: submitted to Journal of Shanxi Normal University(2003) [6] Yin Hua, Peng Hui, Huixuan Liu: submitted to Journal of Environmental Science and Technology(2000) [7] With this plant, Shufen Zhang, Jinzong Yang: submitted to Journal of Applied Chemistry(2001) [8]Chouyyok W, Panpranot J, Thanachayanant C, et al.
Online since: August 2016
Authors: Yi Feng Zheng, Yong Jun Su, De Liang Zhang, Xun Yao
Ranganath: Journal of Materials Science, 32 (1997), pp. 1-16
Chen: Materials Science and Engineering A, 487 (2008), pp. 137-143
Zhang: Materials Science and Engineering A, 311 (2001), pp. 142-150
Vilar: Journal of Materials Processing Technology, 211 (2011), pp. 597-601
Kang: Materials Science and Engineering A, 333(2002), pp. 343-350
Chen: Materials Science and Engineering A, 487 (2008), pp. 137-143
Zhang: Materials Science and Engineering A, 311 (2001), pp. 142-150
Vilar: Journal of Materials Processing Technology, 211 (2011), pp. 597-601
Kang: Materials Science and Engineering A, 333(2002), pp. 343-350
Online since: July 2011
Authors: Qiang Li, Ge Wang, Yu Ying Zhu, Zhi Gang Chao, Dong Dong Hu, Xing Hua Wang
Journal of Magnetism and Magnetic Materials Vol. 26 (1982) P. 112-114
Inoue: Journal of Optoelectronics and Advanced Materials.
Materials Science and Engineering: A.
Journal of Materials Processing Technology.
Materials Science and Engineering: A.
Inoue: Journal of Optoelectronics and Advanced Materials.
Materials Science and Engineering: A.
Journal of Materials Processing Technology.
Materials Science and Engineering: A.
Online since: August 2019
Authors: Aris Doyan, Susilawati Susilawati, Muhammad Taufik, Wahyudi Wahyudi, Eryn Ryantin Gunawan, Annisa Fitriani, Nazarudin Nazarudin
One of the materials currently drawing attention to the microwave absorbent material is Barium M-hexaferrite (BaFe12O19) or better known as BaM.
[5] Ratnawulan, Characterization of Natural Iron Ore as a Magnetite Raw Material on Dry Ink, Journal of Science and Mathematics 6 (1) (2013)
[10] Sholihah, F.R., Zainuri, M., Effect of Holding Time Calcination on the Magnetic Properties of Barium M-hexaferrite (BaFe12-xZnxO19) with Ion Doping Zn, ITS Science and Art Journal 1 (1) (2012) 25-29
Sahlam, Synthesis and Characterization Materials M-Barium Hexaferrite Doping Ions Co-Mn Nano Particle, IOP Conf.
Series: Materials Science and Engineering 196 (2017) 012016
[5] Ratnawulan, Characterization of Natural Iron Ore as a Magnetite Raw Material on Dry Ink, Journal of Science and Mathematics 6 (1) (2013)
[10] Sholihah, F.R., Zainuri, M., Effect of Holding Time Calcination on the Magnetic Properties of Barium M-hexaferrite (BaFe12-xZnxO19) with Ion Doping Zn, ITS Science and Art Journal 1 (1) (2012) 25-29
Sahlam, Synthesis and Characterization Materials M-Barium Hexaferrite Doping Ions Co-Mn Nano Particle, IOP Conf.
Series: Materials Science and Engineering 196 (2017) 012016
Online since: August 2021
Authors: Renata Burkhanova, Igor Stefanenko, Natalya Evstafyeva, Talgat Akchurin
Technical Sciences. 44 (3) (2017) 146-155
Stefanenko, Modified heat-resistant concrete using slag aggregates, IOP Conference Series: Materials Science and Engineering. 962 (2020) 9. https://iopscience.iop.org/article/10.1088/1757-899X/962/2/022015/pdf
Zhao, Mechanical properties and microstructure analysis of fly ash geopolymeric recycled concrete, Journal of Hazardous Materials. 237 (2012) 20-29
Ghorpade Vaishali, Strength and workability characteristics of fly ash based glass fibre reinforced high-performance concrete, International Journal of Engineering Science and Technology. 3 (8) (2011) 6266-6277
Akchurin, Modification of concrete with polymer additives based on secondary resources, Material Science Forum. 974 (2020) 277-282
Stefanenko, Modified heat-resistant concrete using slag aggregates, IOP Conference Series: Materials Science and Engineering. 962 (2020) 9. https://iopscience.iop.org/article/10.1088/1757-899X/962/2/022015/pdf
Zhao, Mechanical properties and microstructure analysis of fly ash geopolymeric recycled concrete, Journal of Hazardous Materials. 237 (2012) 20-29
Ghorpade Vaishali, Strength and workability characteristics of fly ash based glass fibre reinforced high-performance concrete, International Journal of Engineering Science and Technology. 3 (8) (2011) 6266-6277
Akchurin, Modification of concrete with polymer additives based on secondary resources, Material Science Forum. 974 (2020) 277-282
Online since: October 2009
Authors: Costas P. Providakis
Simultaneous edge debonding monitoring and repair of
dynamically loaded concrete structures strengthened with smart
composite materials
C P Providakis
Department of Applied Science, Technical University of Crete
GR-73100 Chania, Greece
email: cpprov@mred.tuc.gr
Keywords: PZT, Repair, Concrete, Health Monitoring, Electromechanical admittance
Abstract.
The present work considers the possibility of simultaneous health monitoring and active repair of the edge debonding in dynamically loaded smart concrete structures strengthened with fiber reinforced plastic (FRP) composite materials.
In the present study, lead zirconate titanates (PZT), classified as piezoelectric materials are used as surfacemounted PZT admittance calculating sensor (labeled in Figure 1 as ACS) for the measure of the E/M admittance and PZT actuator (labeled in Figure 1 as PZTA) for the activation and the subsequent creation of appropriate forces to restore any observed debonding.
Providakis: Electro-mechanical admittance-based damage detection using extreme value statistics, Key Engineering Materials Journal 385-387, (2008), pp. 561-564 [5] MATLAB, The Mathworks Inc.
Voutetaki: PZT control of edge debonding in dynamically loaded concrete structures strengthened with composite materials in Proceedings of COMPDYN2009: ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering edited by M.
The present work considers the possibility of simultaneous health monitoring and active repair of the edge debonding in dynamically loaded smart concrete structures strengthened with fiber reinforced plastic (FRP) composite materials.
In the present study, lead zirconate titanates (PZT), classified as piezoelectric materials are used as surfacemounted PZT admittance calculating sensor (labeled in Figure 1 as ACS) for the measure of the E/M admittance and PZT actuator (labeled in Figure 1 as PZTA) for the activation and the subsequent creation of appropriate forces to restore any observed debonding.
Providakis: Electro-mechanical admittance-based damage detection using extreme value statistics, Key Engineering Materials Journal 385-387, (2008), pp. 561-564 [5] MATLAB, The Mathworks Inc.
Voutetaki: PZT control of edge debonding in dynamically loaded concrete structures strengthened with composite materials in Proceedings of COMPDYN2009: ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering edited by M.
Online since: September 2016
Authors: Hong Zhong Huang, Shun Peng Zhu, Peng Yue, Cheng Lin Zhang, Qiang Lei
In addition, other materials are also used for model validation as show in Fig1.
Benguediab, Fatigue life prediction under variable loading based on a new damage model, Materials & Design, 2011, 32 (1): 183-191
An equivalent stress process for fatigue life estimation under multiaxial loadings based a new non-linear damage model, Materials Science and Engineering: A, 2012, 538(15): 20-27
Fatigue & Fracture of Engineering Materials & Structures, 2011
Journal of the Aerospace Science, 1959, 26(7): 431-442
Benguediab, Fatigue life prediction under variable loading based on a new damage model, Materials & Design, 2011, 32 (1): 183-191
An equivalent stress process for fatigue life estimation under multiaxial loadings based a new non-linear damage model, Materials Science and Engineering: A, 2012, 538(15): 20-27
Fatigue & Fracture of Engineering Materials & Structures, 2011
Journal of the Aerospace Science, 1959, 26(7): 431-442