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Online since: March 2025
Authors: Kumar T. Udhaya, M. Jayadurgalakshmi
This population growth also necessitates a significant increase in production of bricks and other construction materials.
Research suggests that waste plastics can be repurposed as construction materials.
This work provides a comprehensive overview of research efforts to convert plastic garbage into construction materials.
Materials and Methods Used 2.1 Raw Materials In manufacturing process, several raw waste materials are used as follows.
[2] Karma Tempa, Nimesh Chettri, Gautam Thapa, Phurba, Cheki Gyeltshen, Dawa Norbu, Dikshika Gurung, Ugyen Wangchuk, (2022), “An experimental study and sustainability assessment of plastic waste as a binding material for producing economical cement-less paver blocks”, Engineering Science and Technology, an International Journal, Elsevier, pp 1-14
Research suggests that waste plastics can be repurposed as construction materials.
This work provides a comprehensive overview of research efforts to convert plastic garbage into construction materials.
Materials and Methods Used 2.1 Raw Materials In manufacturing process, several raw waste materials are used as follows.
[2] Karma Tempa, Nimesh Chettri, Gautam Thapa, Phurba, Cheki Gyeltshen, Dawa Norbu, Dikshika Gurung, Ugyen Wangchuk, (2022), “An experimental study and sustainability assessment of plastic waste as a binding material for producing economical cement-less paver blocks”, Engineering Science and Technology, an International Journal, Elsevier, pp 1-14
Online since: October 2012
Authors: Guang Sheng Zeng, Cheng Xu
Materials and Methods
Materials.
The coupling agent LDPE-g-MAH was bought from Korida polymer materials Ltd.
Gotama: Journal of Thermoplastic Composite Materials, Vol. 21 (2008) No.3, pp. 195-208
Simonsen: Journal of Applied Polymer Science, Vol. 91 (2004) No.6, pp. 3667-3772
Okamoto: Journal of Wood Science, Vol. 54 (2008) No.1, pp. 54-61
The coupling agent LDPE-g-MAH was bought from Korida polymer materials Ltd.
Gotama: Journal of Thermoplastic Composite Materials, Vol. 21 (2008) No.3, pp. 195-208
Simonsen: Journal of Applied Polymer Science, Vol. 91 (2004) No.6, pp. 3667-3772
Okamoto: Journal of Wood Science, Vol. 54 (2008) No.1, pp. 54-61
Online since: September 2011
Authors: Ji Huan He, Yang Shuai Liu
Soft Compressible Porous Mat for “Flying” Vehicles: Model and Numerical Analysis
Yangshuai Liu1, Jihuan He2, a
1College of Science, Donghua University, 2999 North Ren-Min Road, Shanghai 201620, China
2National Engineering Laboratory of Modern Silk, College of Textile and Clothing Engineering,
Soochow University, P.O.
For example, utilizing the carrying capacity of the air in the porous media, the gas-lubricated journal bearing has been devised to optimize the traditional oil bearing by its neatness, cheaper raw material, better capacity and other advantages [1-4].
In this paper, we propose a new thought of utilizing the aerodynamics to decrease the fuel consumption of the vehicles which run on the high way or overhead road laying with the specific tracks made of porous materials.
Hwang: Journal of Physics D: Applied Physics Vol. 27(1994), p. 634
Yu: Textile Research Journal Vol. 4(2007), p. 205.
For example, utilizing the carrying capacity of the air in the porous media, the gas-lubricated journal bearing has been devised to optimize the traditional oil bearing by its neatness, cheaper raw material, better capacity and other advantages [1-4].
In this paper, we propose a new thought of utilizing the aerodynamics to decrease the fuel consumption of the vehicles which run on the high way or overhead road laying with the specific tracks made of porous materials.
Hwang: Journal of Physics D: Applied Physics Vol. 27(1994), p. 634
Yu: Textile Research Journal Vol. 4(2007), p. 205.
Online since: March 2017
Authors: Ao Xia, Hui Jun Ren, G.Q. Tan, Chi Xu, Cheng Cheng Zhao, Wei Yang
The bamboo-like FeVO4 nanocrystallines were synthesized by a two-step method of the microwave hydrothermal-calcination, using Fe(NO3)3·9H2O and NH4VO3 as raw materials.
As a new member of the vanadate photocatalytic materials family, FeVO4 has been found to have the catalytic capacity of oxidizing hydrocarbon [15].
Conclusions Using Fe(NO3)3·9H2O and NH4VO3 as raw materials, the bamboo-like triclinic FeVO4 nanocrystal is synthesized with microwave hydrothermal-calcination method.
Nano-photocatalytic Materials: Possibilities and Challenges [J].
Materials Research Bulletin, 46(10) (2011) 1654-1658
As a new member of the vanadate photocatalytic materials family, FeVO4 has been found to have the catalytic capacity of oxidizing hydrocarbon [15].
Conclusions Using Fe(NO3)3·9H2O and NH4VO3 as raw materials, the bamboo-like triclinic FeVO4 nanocrystal is synthesized with microwave hydrothermal-calcination method.
Nano-photocatalytic Materials: Possibilities and Challenges [J].
Materials Research Bulletin, 46(10) (2011) 1654-1658
Online since: October 2010
Authors: Daniela Herman, Tomasz Okupski, Wiesław Walkowiak
The crystallisation mechanism of glass-ceramic materials from a CMAS group Al0.37B0.34Fe0.01Mg0.02Zn0.29Ca0.05Si0.78O3 was tested under non-isothermal conditions by the DTA method.
By proper selection of chemical composition to obtain specified crystalline phases it was possible to deign materials for specific applications, e.g. body stubs in microelectronics, biomaterials, composite fillers, bonding materials, high-duty and hard materials resistant to wear [1,2].
Glass-ceramic materials from a CMAS group, with the main phase in the form of diopside, respecting their high wear resistance were also used to reinforce among others alumina composites, and also they constituted an important group of materials such as binders for porous abrasive composites [6].
Krzos: Influence of vitrified bond structure on radial wear of cBN grinding wheel, Journal of Materials Processing Technology, 209 (2009), 5377-5386
Choi: Controlled nucleation and crystallization in Fe2O3-CaO-SiO2 glass, Journal of Materials Science 32 (1997) 431-436
By proper selection of chemical composition to obtain specified crystalline phases it was possible to deign materials for specific applications, e.g. body stubs in microelectronics, biomaterials, composite fillers, bonding materials, high-duty and hard materials resistant to wear [1,2].
Glass-ceramic materials from a CMAS group, with the main phase in the form of diopside, respecting their high wear resistance were also used to reinforce among others alumina composites, and also they constituted an important group of materials such as binders for porous abrasive composites [6].
Krzos: Influence of vitrified bond structure on radial wear of cBN grinding wheel, Journal of Materials Processing Technology, 209 (2009), 5377-5386
Choi: Controlled nucleation and crystallization in Fe2O3-CaO-SiO2 glass, Journal of Materials Science 32 (1997) 431-436
Online since: April 2014
Preface
The 3rd International Conference on Materials and Applications for Sensors and
Transducers, Prague, Czech Republic, hosted about 320 oral and poster papers and more
than 200 participants.
Emphasizing in hybrid sensors and smart specialization devices produced by inexpensive methods, without excluding of course micro-nano technology, from all kinds of solid state, liquid and gaseous materials, as well as in particular transducer applications (design and development, as well as use of sensing data) III.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Emphasizing in hybrid sensors and smart specialization devices produced by inexpensive methods, without excluding of course micro-nano technology, from all kinds of solid state, liquid and gaseous materials, as well as in particular transducer applications (design and development, as well as use of sensing data) III.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Online since: January 2005
Authors: Jian Sheng Wu, Lan Ting Zhang, Fang Zhang, Jin Xing Yu
Materials Science and
Engineering, 1992, A155: 165
[5] J.
Journal of Nuclear Materials, 1964, 12(2): 208 [9] C.
Journal of Material Research, 1992, 7(10): 2747 [10] T.
Journal of Material Research, 1993, 8(1): 214 [11] K.
Materials Science and Engineering, 1999, A261: 292
Journal of Nuclear Materials, 1964, 12(2): 208 [9] C.
Journal of Material Research, 1992, 7(10): 2747 [10] T.
Journal of Material Research, 1993, 8(1): 214 [11] K.
Materials Science and Engineering, 1999, A261: 292
Online since: November 2013
Authors: Jian Hong Yi, Guo You Gan, Xin Xin He, Jing Hong Du, Yi Chun Liu, Ji Kang Yan, Jia Ming Zhang, Mao Yan Fan
Microwave Sintering and Electric Properties of
ZnO Varistor Ceramics
He Xinxina, Gan Guoyoub, Yan Jikang, Du Jinghong, Zhang Jiaming,
Liu Yichun, Yi Jianhong and Fan Maoyan
Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, P R China
Key Laboratory of Advanced Materials of Yunnan Province, Kunming 650093, P R China
Key Laboratory of Advanced Materials of Precious-Nonferrous Metals, Ministry of Education of P R China, Kunming 650093, P R China
ahexinxin.qingci@hotmail.com, bganguoyou@sina.com (corresponding author)
Key words: microwave sintering, ZnO, doping, varistor
Abstract.
The present work has been supported by the Science Research Foundation of Kunming University of Science and Technology under Grant No.2010-08.The authors would like to acknowledge Key Laboratory of Advanced Materials of Yunnan Province and Key Laboratory of Advance Materials of Precious-Nonferrous Metals, Education Ministry of China for providing the facilities required for the present investigation.
Journal of Alloys and Compounds. 407 (2010) 304-307
Journal of Functional Materials. 28 (1997) 392-395
Materials Science and Engineering B. 170 (2010) 15-21
The present work has been supported by the Science Research Foundation of Kunming University of Science and Technology under Grant No.2010-08.The authors would like to acknowledge Key Laboratory of Advanced Materials of Yunnan Province and Key Laboratory of Advance Materials of Precious-Nonferrous Metals, Education Ministry of China for providing the facilities required for the present investigation.
Journal of Alloys and Compounds. 407 (2010) 304-307
Journal of Functional Materials. 28 (1997) 392-395
Materials Science and Engineering B. 170 (2010) 15-21
Online since: August 2010
Authors: Zhang Jian, Xu Ma, Zhi Long Feng, Ji Shun Song, Jing Yun Ma
Three-dimensioned extrusion simulation and analysis of bending
aluminum-alloy tube based on Deform software
Zhilong Feng1,a, Jishun Song
1,b
, Xu Ma
1,c, Jingyun Ma1,, Jian Zhang1
1
School of Materials science and Engineering,Tianjin University of Technology,Tianjin
300384, China
a
fengzhilong_1234@163.com,b lgjs@163.com,
cmaxumax@sina.com
Key Words: extrusion; bending; velocity field control; FEM; a comparative analysis
Abstract: In this paper three numerical models , eccentric extrusion method to prepare bending
tube ,concentric partial material extrusion method to prepare bending tube, differential velocity
extrusion method to prepare bending tube , are built and simulated .
Mechanical Science and Technology, 2004, 23 (12):1509-1513 [2] Muller, Klaus B.
International Journal of Machine Tools and Manufacture, v 46, n 11 SPEC.
International Journal of Machine Tools & Manufacture 46 (2006) 1238-1242
JOURNAL OF MATERIALS SCIENCE 40 (2005) 2007 - 2011
Mechanical Science and Technology, 2004, 23 (12):1509-1513 [2] Muller, Klaus B.
International Journal of Machine Tools and Manufacture, v 46, n 11 SPEC.
International Journal of Machine Tools & Manufacture 46 (2006) 1238-1242
JOURNAL OF MATERIALS SCIENCE 40 (2005) 2007 - 2011
Online since: June 2010
Authors: Zhong Zhu Gu, Jian Can Yang, Xiao Li Xi, Jin Jin Xu, Zuo-Ren Nie
Experiments
Preparation Lanthanum nitrate, Cerium nitrate and Yttrium nitrate were adopted as the starting
materials.
Fig .2 Metallography of the material SEM analysis Fig.3 is the fracture morphology of the cathode materials.
Welding Journal. 1951, 30(9): 529-531 [8] Hinata Teruhiko, Yasuda Katsuhiko, Igawa Makoto, Onzawa Tadao.
Metallurgical Transactions A (Physical Metallurgy and Materials Science). 1990, 21A(12):3221-3236 [10] Yamamoto Hideyuki (DAIHEN Co Ltd), Harada Shoji, Yamamoto Yasuo, Ueyama Tomoyuki.
Study on Preparation and Emission Properties of nano- composite W-La2O3 material, Applied Surface Science, 2005, 251(1-4), 134-138
Fig .2 Metallography of the material SEM analysis Fig.3 is the fracture morphology of the cathode materials.
Welding Journal. 1951, 30(9): 529-531 [8] Hinata Teruhiko, Yasuda Katsuhiko, Igawa Makoto, Onzawa Tadao.
Metallurgical Transactions A (Physical Metallurgy and Materials Science). 1990, 21A(12):3221-3236 [10] Yamamoto Hideyuki (DAIHEN Co Ltd), Harada Shoji, Yamamoto Yasuo, Ueyama Tomoyuki.
Study on Preparation and Emission Properties of nano- composite W-La2O3 material, Applied Surface Science, 2005, 251(1-4), 134-138