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Online since: July 2005
Authors: Jens Gibmeier, Stefan Hartmann, Berthold Scholtes
Kokubo, Science Reports of the Tohuko Imperial University, Japan, 21 (1932), p. 256
[2] G.
Materials Research, 10 (1995) 1, p. 101 [7] S.
Materials Research, 16 (2001) 7, p. 2091 [9] J.
Scholtes, Materials Science Forum, 404-407 (2002), p. 349 [12] J.
Pharr, J. of Materials Research, 11 (1996) 3, p. 752
Materials Research, 10 (1995) 1, p. 101 [7] S.
Materials Research, 16 (2001) 7, p. 2091 [9] J.
Scholtes, Materials Science Forum, 404-407 (2002), p. 349 [12] J.
Pharr, J. of Materials Research, 11 (1996) 3, p. 752
Online since: April 2019
Authors: S. Nallusamy, Swetha Madhusudanan, Lilly Rose Amirtham
Alternative building materials using industrial and agricultural waste, Key Engineering Materials, 650 (2015) 01-12
Effect of micro silica on the strength of concrete with ordinary Portland cement, Research Journal of Engineering Science, 1(3) (2012) 1-4
Application of small scale experimental models for thermal comfort assessment of sustainable building materials, International Journal of Civil Engineering, 12(4) (2014) 01-08
Development of sustainable construction material using construction and demolition waste, Indian Journal of Engineering and Material Science, 21 (2014) 451-457
Properties of concrete incorporating silica fume and nano SiO2, Indian Journal of Science and Technology, 6(1) (2013) 45-52
Effect of micro silica on the strength of concrete with ordinary Portland cement, Research Journal of Engineering Science, 1(3) (2012) 1-4
Application of small scale experimental models for thermal comfort assessment of sustainable building materials, International Journal of Civil Engineering, 12(4) (2014) 01-08
Development of sustainable construction material using construction and demolition waste, Indian Journal of Engineering and Material Science, 21 (2014) 451-457
Properties of concrete incorporating silica fume and nano SiO2, Indian Journal of Science and Technology, 6(1) (2013) 45-52
Online since: February 2013
Authors: Chou Yong Tan, Rusnah Mustaffa, Muchtar Andanastuti, Kok Fong Lim
Zirconia [zirconium dioxide (ZrO2)] has good mechanical properties, and its ability to undergo stress-induced phase transformation rendered it as a good additive to improve the properties of brittle materials such as HA [7].
Wang, An in vivo study of a bone grafting material consisting of hydroxyapatite and reconstituted collagen, Journal of Material Science:Materials in Medicine. 19(6) (2005) p:341-345 [5] Y.T.
Bhattacharyya, Pressureless sintering of dense hydroxyapatite–zirconia composites, Journal of Material Science: Materials in Medicine. 19(6) (2008) p:2437-2444 [7] Y.M.
Callister, Materials Science and Engineering An Introduction 7th edition, John Wiley & Sons,New York,2006 [9] A.H.
Gibson, The effect of low levels of zirconia addition on the mechanical properties of hydroxyapatite, Journal of Materials Science Letters. 20(18) (2001) p:1719-1722 [12] C.Y, Chiu, H.C.
Wang, An in vivo study of a bone grafting material consisting of hydroxyapatite and reconstituted collagen, Journal of Material Science:Materials in Medicine. 19(6) (2005) p:341-345 [5] Y.T.
Bhattacharyya, Pressureless sintering of dense hydroxyapatite–zirconia composites, Journal of Material Science: Materials in Medicine. 19(6) (2008) p:2437-2444 [7] Y.M.
Callister, Materials Science and Engineering An Introduction 7th edition, John Wiley & Sons,New York,2006 [9] A.H.
Gibson, The effect of low levels of zirconia addition on the mechanical properties of hydroxyapatite, Journal of Materials Science Letters. 20(18) (2001) p:1719-1722 [12] C.Y, Chiu, H.C.
Online since: October 2010
Authors: Xiao Ming Jin, Wen Lei
Effects of Modification on Structure and Properties of Ramie Fiber/Polypropylene Composites
Wen Lei1, a and Xiao-ming Jin1,b
College of Science,Nanjing Forestry University,nanjing210037,China
aleiwen67@163.com,bleiwen@njfu.com.cn
Keywords: ramie fiber,polypropylene,composite,modification,structure,property
Abstract.
Ramie fiber and polypropylene were used as raw materials,ramie fiber/polypropylene composites were prepared by compression molding process,the effects of treating the ramie fiber with silane coupling agent and compatibilizing the composite with maleic anhydride gafted polypropylene(MAPP) on the structure, melting and mechanical properties of the composites were studied,the effects of immersion time in water on the mechanical properties of the composites were also investigated.The results show that,both the modification with coupling agent and by means of compatibilizing agent can strengthen the interfacial bonding between the fiber and matrix in the composite,and also improve its thermal stability.All the modified composites have greater strengths and moduli than the unmodified ones when immersed in water for any periods,especially the impact strength of the MAPP compatibilized composite not only increases with immersion time in water dramatically,but also is improved from that of the
different composites means the material is more difficult to melt.So,it can be concluded from the result that both CRPP and MRPP have better thermal properties than RPP.
The water uptake of a material has relationship with its structure and properties,some researches have focused on the water absorption of natural fiber/polymer composites[4-5].
References [1] C Arup: Materials Science and Engineering: Part A,491(2008),p.492 [2] C K Hong.I Hwang, N Kim, et al:Journal of Industrial and Engineering Chemistry,14(2008),p.71 [3] F Corrales,F Vilaseca,M Llop,et al:Journal of Hazardous Materials,144(2007),p.730 [4] H N Dhakal, Z Y Zhang, M O W Richardson:Composites Science and Technology,67(2007),p. 1674 [5] A Espert,F Vilaplana,S Karlsson:Composites,Part A,35(2004),p.1267 [6] A C Karmaker:Journal of Materials Science Letters,16(1997),p.462
Ramie fiber and polypropylene were used as raw materials,ramie fiber/polypropylene composites were prepared by compression molding process,the effects of treating the ramie fiber with silane coupling agent and compatibilizing the composite with maleic anhydride gafted polypropylene(MAPP) on the structure, melting and mechanical properties of the composites were studied,the effects of immersion time in water on the mechanical properties of the composites were also investigated.The results show that,both the modification with coupling agent and by means of compatibilizing agent can strengthen the interfacial bonding between the fiber and matrix in the composite,and also improve its thermal stability.All the modified composites have greater strengths and moduli than the unmodified ones when immersed in water for any periods,especially the impact strength of the MAPP compatibilized composite not only increases with immersion time in water dramatically,but also is improved from that of the
different composites means the material is more difficult to melt.So,it can be concluded from the result that both CRPP and MRPP have better thermal properties than RPP.
The water uptake of a material has relationship with its structure and properties,some researches have focused on the water absorption of natural fiber/polymer composites[4-5].
References [1] C Arup: Materials Science and Engineering: Part A,491(2008),p.492 [2] C K Hong.I Hwang, N Kim, et al:Journal of Industrial and Engineering Chemistry,14(2008),p.71 [3] F Corrales,F Vilaseca,M Llop,et al:Journal of Hazardous Materials,144(2007),p.730 [4] H N Dhakal, Z Y Zhang, M O W Richardson:Composites Science and Technology,67(2007),p. 1674 [5] A Espert,F Vilaplana,S Karlsson:Composites,Part A,35(2004),p.1267 [6] A C Karmaker:Journal of Materials Science Letters,16(1997),p.462
Online since: October 2022
Authors: R. Rekha, C. Adhinathan, S. Vinoth Kumar, M. Gokula Rajan, E. Jessinth Blesso, B. Karthik
It is appropriate for a variety of processes and materials.
Y, Artificial Neural Networks in Materials Science Application.
In Advanced Materials Research, 1037 (2014) 236–239
[13] Vinod Kumar, Vankanti, Venkateswarlu Ganta, Optimization of process parameters in drilling of GFRP composite using Taguchi method, Journal of Materials Research and Technology 2014; 3(1):35–41
[17] R Rekha, N Baskar, MRA Padmanaban, A Palanisamy Optimization of cylindrical grinding process parameters using meta-heuristic algorithms, Indian Journal of Engineering and Materials Sciences (IJEMS) 27 (2), 389-395.
Y, Artificial Neural Networks in Materials Science Application.
In Advanced Materials Research, 1037 (2014) 236–239
[13] Vinod Kumar, Vankanti, Venkateswarlu Ganta, Optimization of process parameters in drilling of GFRP composite using Taguchi method, Journal of Materials Research and Technology 2014; 3(1):35–41
[17] R Rekha, N Baskar, MRA Padmanaban, A Palanisamy Optimization of cylindrical grinding process parameters using meta-heuristic algorithms, Indian Journal of Engineering and Materials Sciences (IJEMS) 27 (2), 389-395.
Online since: January 2021
Authors: Ulrich Prahl, Thorsten Henseler, Madlen Ullmann
Materials and Experimental Procedure
Materials.
Mosler, Mechanical characterization and constitutive modeling of Mg alloy sheets, Materials Science and Engineering A 540 (2012) 174–186
Mosler, Experimental and numerical investigation of Mg alloy sheet formability, Materials Science and Engineering A 586 (2013) 204–214
Mabuchi, Stretch formability of AZ31 Mg alloy sheets at different testing temperatures, Materials Science and Engineering A 466 (2007) 90–95
Al-Samman, Texture Development in Pure Mg and Mg Alloy AZ31, Materials Science Forum 495-497 (2005) 623–632
Mosler, Mechanical characterization and constitutive modeling of Mg alloy sheets, Materials Science and Engineering A 540 (2012) 174–186
Mosler, Experimental and numerical investigation of Mg alloy sheet formability, Materials Science and Engineering A 586 (2013) 204–214
Mabuchi, Stretch formability of AZ31 Mg alloy sheets at different testing temperatures, Materials Science and Engineering A 466 (2007) 90–95
Al-Samman, Texture Development in Pure Mg and Mg Alloy AZ31, Materials Science Forum 495-497 (2005) 623–632
Online since: May 2006
Authors: Elvira Fortunato, Rodrigo Martins, António Marques, João Bela, Manuela A. Silva, Michael J. Smith, Ana Pimentel, Alexandra Gonçalves, Gonçalo Gonçalves, João Paulo Borges
Borges3
1
Materials Science Department/CENIMAT and CEMOP/UNINOVA, Campus da Caparica,
2829-516 Caparica, Portugal
2
Department of Chemistry, University of Minho, 4710-057 Braga, Portugal
3
TEKELEC, Chão de Murches P.O.
Experimental details Materials preparation Preparation of thin films.
Yianoulis, Solar Energy Materials & Solar Cells 85 (2005) 205
Yianoulis, Solar Energy Materials & Solar Cells 83 (2004) 115
Qiu, Journal of Applied Polymer Science 65 (1997) 1739.
Experimental details Materials preparation Preparation of thin films.
Yianoulis, Solar Energy Materials & Solar Cells 85 (2005) 205
Yianoulis, Solar Energy Materials & Solar Cells 83 (2004) 115
Qiu, Journal of Applied Polymer Science 65 (1997) 1739.
Online since: December 2023
Authors: Roberto Montanari, Alessandra Varone, Alessandra Fava, Annalisa Pola, Chiara de Crescenzo, Marialaura Tocci, Alessandra Palombi, Marcello Cabibbo
Springer Series in Materials Science, Springer Verlag, Berlin Heidelberg, 2007.
Materials Science & Engineering A 521-522 (2009) 102-105. http://dx.doi.org/10.1016/j.msea.2008.09.107
European Journal of Materials 3 (2023). https://doi.org/10.1080/26889277.2023.2208159
Materials Science Forum 706-709 (2012) 835-840. https://doi.org/10.4028/www.scientific.net/MSF.706-709.835
Materials Science & Engineering 442(1) (2006) 543–546. https://doi.org/ 10.1016/j.msea.2006.02.210
Materials Science & Engineering A 521-522 (2009) 102-105. http://dx.doi.org/10.1016/j.msea.2008.09.107
European Journal of Materials 3 (2023). https://doi.org/10.1080/26889277.2023.2208159
Materials Science Forum 706-709 (2012) 835-840. https://doi.org/10.4028/www.scientific.net/MSF.706-709.835
Materials Science & Engineering 442(1) (2006) 543–546. https://doi.org/ 10.1016/j.msea.2006.02.210
Online since: September 2018
Authors: Sayonara Emmanuela Santos de Jesus Lima, Edielen F. dos Santos, Maria E.B.R. Bello, Paulo N.M. dos Anjos
To replace the sulfides, new materials have emerged as the aluminates and silicates [1].
Mercier: Chemistry of Materials Vol. 17 (2005), p. 3904
Macêdo: Journal of Magnetism and Magnetic Materials Vol. 395 (2015), p. 263
Pramanik: Journal of Materials Science Vol. 16 (1997), p. 234
Pramanik: Journal of Materials Science Vol. 17 (1998), p. 559
Mercier: Chemistry of Materials Vol. 17 (2005), p. 3904
Macêdo: Journal of Magnetism and Magnetic Materials Vol. 395 (2015), p. 263
Pramanik: Journal of Materials Science Vol. 16 (1997), p. 234
Pramanik: Journal of Materials Science Vol. 17 (1998), p. 559
Online since: August 2018
Authors: Mohd Arif Anuar Mohd Salleh, Aimi Noorliyana Hashim
Suganuma, Journal of Materials Science: Materials in Electronics, Vol. 22(11) (2011), p. 1685-1693
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Yen, Journal of Electronic Materials, Vol. 35(8) (2006), p. 1621-1627 [3] E.
Liu, et al., Journal of Materials Science: Materials in Electronics, Vol. 26(9), (2015), p. 6411-6418 [5] J.
Journal of Materials Science & Technology, Vol. 31(7) (2015), p. 675-698 [9] W.
Wu, Journal of Materials Science: Materials in Electronics, Vol. 18(1-3) (2007), p. 269-281 [15] N.
Yen, Journal of Electronic Materials, Vol. 35(8) (2006), p. 1621-1627 [3] E.
Liu, et al., Journal of Materials Science: Materials in Electronics, Vol. 26(9), (2015), p. 6411-6418 [5] J.
Journal of Materials Science & Technology, Vol. 31(7) (2015), p. 675-698 [9] W.
Wu, Journal of Materials Science: Materials in Electronics, Vol. 18(1-3) (2007), p. 269-281 [15] N.