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Online since: February 2013
Authors: Gang Bing Song, Nai Zhi Zhao, Shi Yan, Qiu Jing Wang
Acknowledgements
This work was financially supported in part by the Natural Science Foundation of China (51278373), and the Natural Science Foundation of Liaoning Province (201202180), as well as the Science Foundation of Liaoning Education Department (L2012214).
Mal: Journal of Intelligent Material Systems and Structures Vol.18 (2007), p.91
Boller: International Journal of Systems Science Vol. 31-11(2000), p.1333
[3] V.Giurgiutiu: Journal of Intelligent Material Systems and Structures Vol. 16(2005), p.291
Kaczmarek: Journal of Composite Materials, Vol.37-3 (2003), p.987.
Mal: Journal of Intelligent Material Systems and Structures Vol.18 (2007), p.91
Boller: International Journal of Systems Science Vol. 31-11(2000), p.1333
[3] V.Giurgiutiu: Journal of Intelligent Material Systems and Structures Vol. 16(2005), p.291
Kaczmarek: Journal of Composite Materials, Vol.37-3 (2003), p.987.
Online since: August 2014
Authors: Alena Očkajová, Ján Stebila, L'uboš Krišták, Rastislav Igaz, Dušan Brozman, Roman Réh, Petra Šiagiová
LCA should take into account not only consumption of raw materials, building materials and energy during construction and in the phase of usage, but also reflect on building materials transport, recycle ability and waste treatment in the next steps of life cycle.
Huminidity of all the used materials at the moment of moulding was 10±1%.
The data was provided by producers of similar materials.
Manriquez: Wood and fiber science Vol. 37(2005), p. 140-148 [11] B.
Lyons: Materials for Architects and Builders (Elsevier Ltd, 2007)
Huminidity of all the used materials at the moment of moulding was 10±1%.
The data was provided by producers of similar materials.
Manriquez: Wood and fiber science Vol. 37(2005), p. 140-148 [11] B.
Lyons: Materials for Architects and Builders (Elsevier Ltd, 2007)
Online since: April 2014
Authors: Lin Yang, Ya Ling Han, Li Qiang Deng, Yang Han
The study of iron/ceramic composite materials made by Liquid metal flow manufacturing cast, Journal of Hot Working Process.12 (2000) 34-37
Microstructure and mechanical properties of Fe-Cr-C eutectic composites, Materials Science and Engineering: A. 347(2003),214-222
The effect of inter-critical heat treatment temperature on the tensile properties and work hardening behavior ferrite-marten site dual phase steel sheets, Journal of Materials Science and Engineering,A518(2009),1-6
An investigation of the abrasive wear behavior of ductile cast iron, Journal of Materials Processing Technology, 116(2001), 176-181
Materials science and technology ,7(1999),93-97
Microstructure and mechanical properties of Fe-Cr-C eutectic composites, Materials Science and Engineering: A. 347(2003),214-222
The effect of inter-critical heat treatment temperature on the tensile properties and work hardening behavior ferrite-marten site dual phase steel sheets, Journal of Materials Science and Engineering,A518(2009),1-6
An investigation of the abrasive wear behavior of ductile cast iron, Journal of Materials Processing Technology, 116(2001), 176-181
Materials science and technology ,7(1999),93-97
Online since: December 2012
Authors: Pisutti Dararutana, Narin Sirikulrat, Sawet Intarasiri, Teerasak Kamwanna, Krit Won-In, Somchai Tancharakorn, Christoph A. Hauzenberger
Due to the complex nature of materials and objects, extremely sensitive, spatially resolved, multi-elemental and versatile analytical instruments were needed.
It can be concluded that these techniques in combination are powerful for the investigation of heterogeneous glassy materials.
Quantitative analysis of major, minor and trace elements of archaeological materials is crucial to answer questions associated with manufacturing technology, raw materials, origin, restoration and protective conservation.
Won-in, et al.: Journal of Radioanalytical and Nuclear Chemistry, in press
Carmona: Journal of Cultural Heritage Vol. 10 (2009), p. 439.
It can be concluded that these techniques in combination are powerful for the investigation of heterogeneous glassy materials.
Quantitative analysis of major, minor and trace elements of archaeological materials is crucial to answer questions associated with manufacturing technology, raw materials, origin, restoration and protective conservation.
Won-in, et al.: Journal of Radioanalytical and Nuclear Chemistry, in press
Carmona: Journal of Cultural Heritage Vol. 10 (2009), p. 439.
Online since: February 2019
Authors: Denis A. Rogozhnikov, Oleg A. Dizer, Stanislav S. Naboichenko
It must be mentioned that each of these methods has advantages and disadvantages, and each technology is selected for specific raw materials.
Materials and Methods Investigation of materials The raw material being investigated was a persistent gold-sulphide flotation concentrate of the Uderey’s deposit with the size of 100% -0.074 mm.
Summary Based on the results of the analytical studies of the chemical and phase compositions of the materials studied.
Acknowledgements Results has been obtained under support of the Russian Science Foundation under grant № 18-19-00186.
Journal of Siberian Federal University, Chemistry, 11 (2018) 110-121
Materials and Methods Investigation of materials The raw material being investigated was a persistent gold-sulphide flotation concentrate of the Uderey’s deposit with the size of 100% -0.074 mm.
Summary Based on the results of the analytical studies of the chemical and phase compositions of the materials studied.
Acknowledgements Results has been obtained under support of the Russian Science Foundation under grant № 18-19-00186.
Journal of Siberian Federal University, Chemistry, 11 (2018) 110-121
Online since: October 2010
Authors: David A. Schiraldi, Saeed Alhassan, Matthew D. Gawryla
Clay Aerogel Composite Materials
David A.
Simple Process for Polymer/Clay Aerogel Material Formation Preparation and Properties of Low Density, Lamellar Materials The simple process illustrated in Figure 1 results in segregation and pinning of all organic and inorganic materials other than water between growing ice crystal fronts.
Of special interest is the use of renewable polymers as the load-bearing materials in polymer/clay aerogels.
Schiraldi “Novel Absorbent Materials Created Via Ice Templating”, Macromolec.
Schiraldi,“Themal Conductivity of a Clay-Based Aerogel”, International Journal of Heat and Mass Transfer, Vol. 52. p. 665-9 (2009).
Simple Process for Polymer/Clay Aerogel Material Formation Preparation and Properties of Low Density, Lamellar Materials The simple process illustrated in Figure 1 results in segregation and pinning of all organic and inorganic materials other than water between growing ice crystal fronts.
Of special interest is the use of renewable polymers as the load-bearing materials in polymer/clay aerogels.
Schiraldi “Novel Absorbent Materials Created Via Ice Templating”, Macromolec.
Schiraldi,“Themal Conductivity of a Clay-Based Aerogel”, International Journal of Heat and Mass Transfer, Vol. 52. p. 665-9 (2009).
Online since: June 2019
Authors: Merdaci Slimane, Adda Hadj Mostefa
A variety of tests have been performed to determine the actual characteristics and advantages of fibrous materials.
Quasi brittle materials like concrete have low tensile strength and strain capacity.
[2] Bayasi Z, Soroushian P., (1992) Effect of steel fiber rein forcement on fresh mix properties of concrete, Technical Paper, ACI Materials Journal, vol 89(4), 369–374
[9] Sorooshian P, and Bayasi Z. , (1991)Fiber type effects on the performance of steel fiber reinforced concrete, ACI Materials Journal, Technicl Paper, vol 88(2), 53–60
[40] HADJ MOSTEFA Adda, MERDACI Slimane, (2019) “Study of Concrete Reinforced by Plastic Fibers Based on Local Materials.”, International Journal of Engineering Research in Africa (IJERA); Vol.42, pp 100-108.
Quasi brittle materials like concrete have low tensile strength and strain capacity.
[2] Bayasi Z, Soroushian P., (1992) Effect of steel fiber rein forcement on fresh mix properties of concrete, Technical Paper, ACI Materials Journal, vol 89(4), 369–374
[9] Sorooshian P, and Bayasi Z. , (1991)Fiber type effects on the performance of steel fiber reinforced concrete, ACI Materials Journal, Technicl Paper, vol 88(2), 53–60
[40] HADJ MOSTEFA Adda, MERDACI Slimane, (2019) “Study of Concrete Reinforced by Plastic Fibers Based on Local Materials.”, International Journal of Engineering Research in Africa (IJERA); Vol.42, pp 100-108.
Online since: May 2013
Authors: Amin Chegenizadeh, Hamid Nikraz
Silty clay was used as sub grade material.
Materials which are used to make fibers for reinforcement may be obtained from paper, metal, nylon, polyester and other materials having widely varied physical properties.
MATERIAL Composite materials consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibers, Journal of Applied Clay Science 38, 23-32
[5] Chegenizadeh, A. and Prof.Hamid Nikraz ,”Composite Soil: Fibre Inclusion and Strength”, Journal of Advanced Materials Research,1646, 2011, Journal in press [6] Chegenizadeh, A. and Hamid Nikraz ,Interaction of soil and short fibre, , ASTM digital library,2011,In press [7] Chegenizadeh, A. and Hamid Nikraz, Composite Clayey Sand and Short Fibre, Advanced Materials Research Journal, In press [8] Freitag, D.R. (1986) Soil randomly reinforced with fibers, Journal of Geotechnical Engineering ASCE 112 (8), pp. 823–826
Materials which are used to make fibers for reinforcement may be obtained from paper, metal, nylon, polyester and other materials having widely varied physical properties.
MATERIAL Composite materials consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibers, Journal of Applied Clay Science 38, 23-32
[5] Chegenizadeh, A. and Prof.Hamid Nikraz ,”Composite Soil: Fibre Inclusion and Strength”, Journal of Advanced Materials Research,1646, 2011, Journal in press [6] Chegenizadeh, A. and Hamid Nikraz ,Interaction of soil and short fibre, , ASTM digital library,2011,In press [7] Chegenizadeh, A. and Hamid Nikraz, Composite Clayey Sand and Short Fibre, Advanced Materials Research Journal, In press [8] Freitag, D.R. (1986) Soil randomly reinforced with fibers, Journal of Geotechnical Engineering ASCE 112 (8), pp. 823–826
Online since: May 2020
Authors: A.A. Okhlopkova, A.P. Vasilev, T.S. Struchkova
It has been established that in the friction process of polymer composite materials, secondary structures are formed on the friction surface of the material, which protects the material from abrasion.
Joshi, Performance properties and applications of polytetrafluoroethylene (PTFE)—a review, Advanced Composites and Hybrid Materials. 1 (2018) 247–268
Ekiz, Sliding friction and wear behaviour of polytetrafluoroethylene and its composites under dry conditions, Materials & Design. 25 (2004) 239–245
Grakovich, Surface modification of carbon fiber by fluoropolymer in a low-temperature plasma, Inorganic Materials: Applied Research. 6 (2015) 219–224
Li, Interface enhancement between polytetrafluoroethylene and glass fibers modified with a titanate coupler, Journal of Applied Polymer Science. 134 (2017)
Joshi, Performance properties and applications of polytetrafluoroethylene (PTFE)—a review, Advanced Composites and Hybrid Materials. 1 (2018) 247–268
Ekiz, Sliding friction and wear behaviour of polytetrafluoroethylene and its composites under dry conditions, Materials & Design. 25 (2004) 239–245
Grakovich, Surface modification of carbon fiber by fluoropolymer in a low-temperature plasma, Inorganic Materials: Applied Research. 6 (2015) 219–224
Li, Interface enhancement between polytetrafluoroethylene and glass fibers modified with a titanate coupler, Journal of Applied Polymer Science. 134 (2017)
Online since: October 2015
Authors: Thomas Heitz, Anghel Chiru, Lucian Eugen Rad
New Concept Manufacturing Steering Column Console in Composite Materials
RAD Lucian Eugen1,a*, HEITZ Thomas2,b and CHIRU Anghel3,c
1 Transilvania University of Brasov, Material Science Department, 29 Eroilor Blvd., 500036 Brasov, Romania
2 ThyssenKrupp Presta AG, Eschen, Liechtenstein
alucian.rad@unitbv.ro, bthomas.heitz@thyssenkrupp.com, cachiru@unitbv.ro
Keywords: composite materials, space winding process, carbon fiber
Abstract.
All the formulas (1-9) characterize the physic-mechanical properties of composite materials.
Weight bracket obtained, using composite materials, is lower by 48% compared to steel bracket.
Paunescu, Composite materials, MatrixRom, Bucharest, 2011
Li, New composites, Journal of Composites Technology and Research 3 (1997) 174-183.
All the formulas (1-9) characterize the physic-mechanical properties of composite materials.
Weight bracket obtained, using composite materials, is lower by 48% compared to steel bracket.
Paunescu, Composite materials, MatrixRom, Bucharest, 2011
Li, New composites, Journal of Composites Technology and Research 3 (1997) 174-183.