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Online since: October 2014
Authors: Jian Zheng Qiao
Materials and Methods
Test Materials
Pinus massoniana, born 10 years, diameter class is 20cm, 6 trees, by collecting in Hunan Zhuzhou city leading forest region.
Journal of fujian forestry science and technology, 2004, 31 (1): 109
Proceedings of the sixth China functional materials and applications of academic (9) [C]. 2007. 3501-3503
Journal of fujian forestry science and technology, 1990, (1): 11-17
Journal of forestry science and technology development, 2004, 19 (2): 39-40
Journal of fujian forestry science and technology, 2004, 31 (1): 109
Proceedings of the sixth China functional materials and applications of academic (9) [C]. 2007. 3501-3503
Journal of fujian forestry science and technology, 1990, (1): 11-17
Journal of forestry science and technology development, 2004, 19 (2): 39-40
Online since: January 2013
Authors: Xin Qian, Yang Fu Jin, Fang Qin Yang
Simulation and Experiment
Model and materials parameters.
Materials Parameters and condition are shown in Table 1.
(2) Thermal conductivity of materials doesn’t change with temperature.
:Polymer Materials Science and Engineering, 2000, Vol. 16(4): p. 17-20.In Chinese
[2] X W Zhao,L Ye.: Journal of Applied polymer Science, 2009, Vol. 111(2): p. 759-767
Materials Parameters and condition are shown in Table 1.
(2) Thermal conductivity of materials doesn’t change with temperature.
:Polymer Materials Science and Engineering, 2000, Vol. 16(4): p. 17-20.In Chinese
[2] X W Zhao,L Ye.: Journal of Applied polymer Science, 2009, Vol. 111(2): p. 759-767
Online since: November 2013
Authors: Grzegorz Chruścielski, Leszek Korusiewicz
Vierrege: Material Science and Engineering A, Vol. 280 (2000). p. 37-49
Vasudevan: Materials Science and Engineering A, Vol. 281 (2000), p. 292-304
Cochrane: Materials Science and Technology Vol. 18 (2002), p. 1445-1452
Starink: : Materials Science and Technology Vol. 17, (2001), p. 1324-1328
Ferguson: Materials Science and Engineering Vol. 74 (1985), p. 133-138
Vasudevan: Materials Science and Engineering A, Vol. 281 (2000), p. 292-304
Cochrane: Materials Science and Technology Vol. 18 (2002), p. 1445-1452
Starink: : Materials Science and Technology Vol. 17, (2001), p. 1324-1328
Ferguson: Materials Science and Engineering Vol. 74 (1985), p. 133-138
Online since: December 2013
Authors: Zheng Wang, Hai Bo Yu, Li Xin Shi, Li Feng Ding
Experimental method
1.1 Materials
This study used grape skins from.
Journal of food science, 2006, 27 (12) : 213-216 [2] Zhang jing, Yuan Yi LiuLiJun.
Journal of food science. 2011.5.25 [3] Li Fengying.
Journal of Shanghai journal of traditional Chinese medicine. 2011.6.84-86 [6] Fan Jimin Zhao Zhi change, MuRuiNa.
Journal of chemical and biological engineering. 2010, 27 (10), 59-61
Journal of food science, 2006, 27 (12) : 213-216 [2] Zhang jing, Yuan Yi LiuLiJun.
Journal of food science. 2011.5.25 [3] Li Fengying.
Journal of Shanghai journal of traditional Chinese medicine. 2011.6.84-86 [6] Fan Jimin Zhao Zhi change, MuRuiNa.
Journal of chemical and biological engineering. 2010, 27 (10), 59-61
Online since: April 2022
Authors: Peter Apata Olubambi, Tien Chien Jen, Lesego M. Mohlala, Nonhlanhla Precious Cele
Saraswathi, Recent Advancements in Electrode Materials for the High-performance Electrochemical Supercapacitors: A Review, International Journal of Electrochemical Science, 9 (2014) 4072-4085
Shen, Ternary oxide nanostructured materials for supercapacitors: a review, Journal of Materials Chemistry A, 3 (2015) 10158-10173
Dong, Binary metal oxide: advanced energy storage materials in supercapacitors, Journal of Materials Chemistry A, 3 (2015) 43-59
Yisong, Advanced Electrode Materials for Electrochemical Supercapacitors in: Materials Science & Engineering, McMaster University, 2015, pp. 254
Sobhani-Nasab, Preparation and characterization of MnTiO3, FeTiO3, and CoTiO3 nanoparticles and investigation various applications: a review, Journal of Materials Science: Materials in Electronics, 31 (2020) 6511-6524
Shen, Ternary oxide nanostructured materials for supercapacitors: a review, Journal of Materials Chemistry A, 3 (2015) 10158-10173
Dong, Binary metal oxide: advanced energy storage materials in supercapacitors, Journal of Materials Chemistry A, 3 (2015) 43-59
Yisong, Advanced Electrode Materials for Electrochemical Supercapacitors in: Materials Science & Engineering, McMaster University, 2015, pp. 254
Sobhani-Nasab, Preparation and characterization of MnTiO3, FeTiO3, and CoTiO3 nanoparticles and investigation various applications: a review, Journal of Materials Science: Materials in Electronics, 31 (2020) 6511-6524
Online since: April 2015
Authors: Noor Fifinatasha, Andrei Victor Sandu, Che Mohd Ruzaidi Ghazali, Hussin Kamarudin, Mohd Mustafa Al Bakri Abdullah, Mohammed Binhussain
Box 77, D/A Pejabat Pos Besar, Kangar, Perlis 01000, Malaysia
3King Abdul Aziz City Science & Technology (KACST), P.O.
Box Riyadh 11442, Kingdom of Saudi Arabia 4Gheorghe Asachi Technical University of lasi, Faculty of Materials Science and Engineering, Blvd.
Based on the performance of geopolymer sources materials, geopolymer sources materials have huge potential to be one of the main coating materials.
Table 1: Chemical composition of raw materials raw materials kaolin, white clay and silica sand from Saudi Arabia.
Journal of Thermal Analysis, 37 (1991), pp. 1633–1656
Box Riyadh 11442, Kingdom of Saudi Arabia 4Gheorghe Asachi Technical University of lasi, Faculty of Materials Science and Engineering, Blvd.
Based on the performance of geopolymer sources materials, geopolymer sources materials have huge potential to be one of the main coating materials.
Table 1: Chemical composition of raw materials raw materials kaolin, white clay and silica sand from Saudi Arabia.
Journal of Thermal Analysis, 37 (1991), pp. 1633–1656
Online since: October 2010
Authors: Shun Yao Jin, Qing Hua Yuan, Zhong Guo Huang
Hawbolt: Journal of Engineering Materials and Technology, Vol. 114 (1992) pp.116-123
Hawbolt: Journal of Materials Processing Technology, Vol. 29 (1992) pp.15-39
Wu et al: Materials Science and Technology, Vol. 14 (1998) pp.136-138
Collinson: Journal of Materials Processing Technology, Vol. 102 (2000) pp.84-89
Lin: Materials Science and Engineering, Vol.
Hawbolt: Journal of Materials Processing Technology, Vol. 29 (1992) pp.15-39
Wu et al: Materials Science and Technology, Vol. 14 (1998) pp.136-138
Collinson: Journal of Materials Processing Technology, Vol. 102 (2000) pp.84-89
Lin: Materials Science and Engineering, Vol.
Online since: June 2008
Authors: Krzysztof Jan Kurzydlowski, Małgorzata Lewandowska, Kinga Wawer
Kurzydlowski1,c
1
Warsaw University of Technology Faculty of Materials Science and Engineering, Woloska 141,
02-507 Warsaw, Poland
a
kingac@inmat.pw.edu.pl, bmalew@inmat.pw.edu.pl, ckjk@inmat.pw.edu.pl
Keywords: hydrostatic extrusion, nanostructured materials, second phase particles, grain
refinement, mechanical properties.
Materials and Methods The materials used in this study were Al-9%Si and Al-11%Si cast aluminium alloys.
References [1] Basavakumar K.G., Mukunda P.G., Chakraborty M.: Materials Characterisation 59 (2008) 283- 289 [2] Basavakumar K.G., Mukunda P.G., Chakraborty M.: International Journal of Impact Engineering 35 (2008) 199-205 [3] Garcia-Infanta J.M., Zhilyaev A.P., Cepeda-Jimenez C.M., Ruano O.A., Careno F.: Scripta Materialia 58 (2008) 138-141 [4] Ma Z.Y., Sharma S.R., Mishra R.S.: Scripta Materialia 54 (2006) 1623 [5] Venkateswarlu K., Das G., Pramanik A.K., Xu Ch., Langdon T.G.: Materials Science and Engineering A 427 (2006) 188-194 [6] Garcia-Infanta J.M., Swaminathan S., Zhilyaev A.P., Careno F., Ruano O.A., McNelley T.R.: Materials Science and Engineering A xxx(2007) xxx-xxx, article in press [7] Lewandowska M.: Solid State Phenomena 114 (2006) p. 109 [8] Lewandowska M., Pachla W., Kurzydłowski K.J.: Int.
Res. 98 (2007) p. 172-177 [9] Garbacz H., Lewandowska M., Pachla W., Kurzydłowski K.J.: Journal of Microscopy 223 (2006) p. 272-274 [10] Lewandowska M., Wawer K.: Materials Science Forum vol. 561-565 (2007) p. 869-872 [11] Wawer K., Lewandowska M., Kurzydlowski K.J.: Material Engineering 3-4 (2007), 486-490 [12] Lewandowska M., Pachla W., Kurzydłowsi K.J.: Int.
Res. 98 (2007) p. 172-177 [13] Wang G., Sun Q., Feng L., Hui L., Jing C.: Materials and Design 28 (2007) p. 1001-105 [14] Hung X., Hansen N., Tsuji N.: Science vol. 312 (2006) p. 249-251
Materials and Methods The materials used in this study were Al-9%Si and Al-11%Si cast aluminium alloys.
References [1] Basavakumar K.G., Mukunda P.G., Chakraborty M.: Materials Characterisation 59 (2008) 283- 289 [2] Basavakumar K.G., Mukunda P.G., Chakraborty M.: International Journal of Impact Engineering 35 (2008) 199-205 [3] Garcia-Infanta J.M., Zhilyaev A.P., Cepeda-Jimenez C.M., Ruano O.A., Careno F.: Scripta Materialia 58 (2008) 138-141 [4] Ma Z.Y., Sharma S.R., Mishra R.S.: Scripta Materialia 54 (2006) 1623 [5] Venkateswarlu K., Das G., Pramanik A.K., Xu Ch., Langdon T.G.: Materials Science and Engineering A 427 (2006) 188-194 [6] Garcia-Infanta J.M., Swaminathan S., Zhilyaev A.P., Careno F., Ruano O.A., McNelley T.R.: Materials Science and Engineering A xxx(2007) xxx-xxx, article in press [7] Lewandowska M.: Solid State Phenomena 114 (2006) p. 109 [8] Lewandowska M., Pachla W., Kurzydłowski K.J.: Int.
Res. 98 (2007) p. 172-177 [9] Garbacz H., Lewandowska M., Pachla W., Kurzydłowski K.J.: Journal of Microscopy 223 (2006) p. 272-274 [10] Lewandowska M., Wawer K.: Materials Science Forum vol. 561-565 (2007) p. 869-872 [11] Wawer K., Lewandowska M., Kurzydlowski K.J.: Material Engineering 3-4 (2007), 486-490 [12] Lewandowska M., Pachla W., Kurzydłowsi K.J.: Int.
Res. 98 (2007) p. 172-177 [13] Wang G., Sun Q., Feng L., Hui L., Jing C.: Materials and Design 28 (2007) p. 1001-105 [14] Hung X., Hansen N., Tsuji N.: Science vol. 312 (2006) p. 249-251
Online since: November 2005
Authors: Jung Sun Park, Soo Yong Lee
Hwang: Journal of Composite Materials Vol. 23 (1989), p. 554
[6] K.Y.
Wang: Journal of Composite Materials Vol. 28 (1994), p. 121 [8] H.T.
Pagano: Journal of Composite Materials Vol. 9 (1975), p. 91 [9] T.A.
Keates: Journal of Material Science Vol. 24 (1989), p. 1984 [11] S.R.
Springer: Journal of Composite Materials Vol. 21 (1987), p. 243
Wang: Journal of Composite Materials Vol. 28 (1994), p. 121 [8] H.T.
Pagano: Journal of Composite Materials Vol. 9 (1975), p. 91 [9] T.A.
Keates: Journal of Material Science Vol. 24 (1989), p. 1984 [11] S.R.
Springer: Journal of Composite Materials Vol. 21 (1987), p. 243
Online since: October 2007
Authors: Wen Bo Luo, Yoshihiro Tomita, Xin Tang, Rong Guo Zhao, Jiang Hua Tan
Struik: Physical aging in amorphous polymers and other materials (Elsevier, New York
1978)
Kolarik: Journal of Polymer Science: Part B: Polymer Physics Vol.41 (2003), p.736
Zhao: Key Engineering Materials Vol.340-341 (2007), p.1091
Brostow: Materials Research Innovations Vol.3 (2000), p.347
McKenna: Computational Materials Science Vol.4 (1995), p.349.
Kolarik: Journal of Polymer Science: Part B: Polymer Physics Vol.41 (2003), p.736
Zhao: Key Engineering Materials Vol.340-341 (2007), p.1091
Brostow: Materials Research Innovations Vol.3 (2000), p.347
McKenna: Computational Materials Science Vol.4 (1995), p.349.