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Online since: October 2020
Authors: Ping Xiao, Feng Tao, Da Shu, Si Chao Dai, Wu Dong Si, Ji Chao Sun
Journal of Materials Research, 2009, 24 (11): 3397-3406
Journal of Materials Processing Tech, 2002, 122 (1): 63-68
Materials & Design, 2017, 116 176-187
Journal of Materials Processing Tech, 2009, 209 (2): 930-936
Journal of Materials Processing Tech, 2006, 174 (1): 223-232
Journal of Materials Processing Tech, 2002, 122 (1): 63-68
Materials & Design, 2017, 116 176-187
Journal of Materials Processing Tech, 2009, 209 (2): 930-936
Journal of Materials Processing Tech, 2006, 174 (1): 223-232
Online since: May 2011
Authors: Liang Wu, Yue Gui, Hai Wei, Hua Shu Yang
There are many factors, such as climate, flood, material, geology, structure, management, to influence dam safety.
Science press, China (2009)
International Journal for Numerical Methods in Engineering, Vol. 82(10) (2010), p. 26-46
Journal of Engineering Mechanics, 1989, Vol. 115(7) (1989), p. 1577~1582
Journal of Structural Engineering, Vol. 111(8) (1985), p. 1703~1721.
Science press, China (2009)
International Journal for Numerical Methods in Engineering, Vol. 82(10) (2010), p. 26-46
Journal of Engineering Mechanics, 1989, Vol. 115(7) (1989), p. 1577~1582
Journal of Structural Engineering, Vol. 111(8) (1985), p. 1703~1721.
Online since: December 2012
Authors: Zainal Arifin Ahmad, Mohamad Johari bin Abu, Julie Juliewatty Mohamed
Introduction
Heterogeneous combustion synthesis, known as self-propagating high-temperature synthesis (SHS), is an inexpensive technique to fabricate a large variety of advanced materials.
The grain size and morphology of element powders can be manipulated by estimating the arcing parameters, such as sintering time, porosity of green compact and particle size distributions of raw materials.
Materials and Methodology Titanium (~40 µm, 99% purity), silicon (~3 µm, 99% purity) and graphite (~2 µm, 99.9% purity) powders from sigma-Aldrich Inc. were used as the starting reactant of mixture.
Gotman: Journal of the European Ceramic Society Vol. 23 (2003), p. 47–53
Hashimoto: Materials Research Innovations Vol. 7 (2002), p. 225–230
The grain size and morphology of element powders can be manipulated by estimating the arcing parameters, such as sintering time, porosity of green compact and particle size distributions of raw materials.
Materials and Methodology Titanium (~40 µm, 99% purity), silicon (~3 µm, 99% purity) and graphite (~2 µm, 99.9% purity) powders from sigma-Aldrich Inc. were used as the starting reactant of mixture.
Gotman: Journal of the European Ceramic Society Vol. 23 (2003), p. 47–53
Hashimoto: Materials Research Innovations Vol. 7 (2002), p. 225–230
Online since: September 2014
Authors: Yan Wei Li
In this paper, melamine (C 3 H 6 N 6) is modified by ionic liquid 1 - butyl - 3 –methylimidazolium hexafluorophosphate ([BMIM] PF 6) and studied of modified melamine foam retardant effect of rigid polyurethane foam.
1 Experimental
1.1 Main raw materials
[BPy]PF6 (China Academy of Sciences Lanzhou Institute of Chemical Physics Centre for green chemistry); Polyisocyanate (black material), Shenyang Metro insulation plant; Polyether (including polyether polyols, water, catalysts, surfactants and other additives, etc., white material), Shenyang Metro insulation plant.
1.2 Main instruments
JF-3 oxygen index determinator: NanJing Jiangning District Analytical Instrument Factory
CZF-3 horizontal and vertical burning determinator: NanJing Jiangning District of Nanjing Analytical Instrument Factory;
HCT-1 integrated thermal analyzer: Beijing Hengjiu Scientific Instrument;
1.3 Sample Preparation
1.3.1 Preparation of melamine modified by ionic liquid [9]
A certain ionic liquid [BMIM
Next, a certain mass percentage modified melamine (relative to white materials) were weighed accurately and added to the white materials, Then poured black material into the white materials, and mix evenly.
N 2atmosphere, temperature range: 22 ~ 800℃, heating rate: 20 ℃/ min. 2 Results and discussion 2.1the effect of quantity of melamine on the oxygen index of rigid polyurethane foam Oxygen Index is an indicator for combustibility of polymer, and oxygen index method is a quantitative experimental method to measure the flame retardant properties of polymer materials.
Acknowledgements The corresponding author of this paper is Li yanwei Literature References [1]Shu ying Wu,Yun sheng Ding,Xiao min Zhang,Hai ou Tang,Long Chen,Bo xuan Li: Journal of Solid StateChemistry,Vol.181(2008),p. 2171-2177 [2]M.D.
Brzozowski, Andrzej Kolbrecki: Polymer Degradation and Stability, Vol.93(2008),p.2071-2071 [7]ZHAO Zhi-an,Lu Guang-bin, Lu Jian: Journal of hefei university of technology(social sciences) ,Vol.16(2002), p.143-146 [8] OU Yu.xiang , ZHAO Yi , HAN Ting.jie , ZHONG Li:plastic.Vol.38(2009), p.35-37 [9]Fangzhi Zhang, Hong Zhang, Zhixing Su: Applied Surface Science,Vol.253(2007),p.7393-7397
Next, a certain mass percentage modified melamine (relative to white materials) were weighed accurately and added to the white materials, Then poured black material into the white materials, and mix evenly.
N 2atmosphere, temperature range: 22 ~ 800℃, heating rate: 20 ℃/ min. 2 Results and discussion 2.1the effect of quantity of melamine on the oxygen index of rigid polyurethane foam Oxygen Index is an indicator for combustibility of polymer, and oxygen index method is a quantitative experimental method to measure the flame retardant properties of polymer materials.
Acknowledgements The corresponding author of this paper is Li yanwei Literature References [1]Shu ying Wu,Yun sheng Ding,Xiao min Zhang,Hai ou Tang,Long Chen,Bo xuan Li: Journal of Solid StateChemistry,Vol.181(2008),p. 2171-2177 [2]M.D.
Brzozowski, Andrzej Kolbrecki: Polymer Degradation and Stability, Vol.93(2008),p.2071-2071 [7]ZHAO Zhi-an,Lu Guang-bin, Lu Jian: Journal of hefei university of technology(social sciences) ,Vol.16(2002), p.143-146 [8] OU Yu.xiang , ZHAO Yi , HAN Ting.jie , ZHONG Li:plastic.Vol.38(2009), p.35-37 [9]Fangzhi Zhang, Hong Zhang, Zhixing Su: Applied Surface Science,Vol.253(2007),p.7393-7397
Online since: September 2013
Authors: Yan Fang Niu, Wei Llin Zhao, Yu Ying Gong
Preparation and Thermophysical Properties of SiO2 Nanofluids
YanFang Niu 1, a, WeiLlin Zhao1, b* , YuYing Gong 1, c
1School of Materials Science and Engineering, University of Jinan, Jinan 250022, China
a15275315039@139.com, bmse_zhaowl@ujn.edu.cn, cgongyyjiayou@163.com
Keywords: SiO2 nanofluids; Preparation; Thermophysical properties
Abstract.
Ding: Powder Technology Vol. 239 (2013), p. 72-77 [5] Jie Li, Clement Kleinstreuer:International: Journal of Heat and Fluid Flow Vol. 29 (2008), p. 1221
[6] Baojie Zhu, Weilin Zhao, Dongdong Li and Jinkai Li: Advanced Materials Research Vol. 306-307 (2011), p. 1178-1181 [7] R.
Kim: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 433-438 [10] Weerapun Duangthongsuk, Somchai Wongwises: Experimental Thermal and Fluid Science Vol. 33 (2009), p. 706 [11] John Philip, P.D.
Shima: Advances in Colloid and Interface Science Vol. 183-184 (2012), p. 30-45.
Ding: Powder Technology Vol. 239 (2013), p. 72-77 [5] Jie Li, Clement Kleinstreuer:International: Journal of Heat and Fluid Flow Vol. 29 (2008), p. 1221
[6] Baojie Zhu, Weilin Zhao, Dongdong Li and Jinkai Li: Advanced Materials Research Vol. 306-307 (2011), p. 1178-1181 [7] R.
Kim: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 433-438 [10] Weerapun Duangthongsuk, Somchai Wongwises: Experimental Thermal and Fluid Science Vol. 33 (2009), p. 706 [11] John Philip, P.D.
Shima: Advances in Colloid and Interface Science Vol. 183-184 (2012), p. 30-45.
Online since: December 2011
Authors: Jun Chen, Wen Wen Zhang, Xiao Ming Chen, Shi Ping Liu, Hua Zheng, Hong Zhang, Lian Song Yu, Ying Feng
Many types of materials are involved in the drying process.
Generally they can be divided into the following types according to the water absorption features of the materials [11]: non-hygroscopic pore material, absorbent pore material, strict absorbent material and colloidal material.
The microwave drying, if applied under a vacuum environment, can not only avoid the oxidation of the dried materials [15], but also can reduce the external pressure of the materials and increased the mass transfer driving force.
Journal of Northeast Forestry University, Vol.32(2004)No.6, p. 58-63
Journal of Beijing Forestry University, Vol.24(2004)No.6, p. 98-101
Generally they can be divided into the following types according to the water absorption features of the materials [11]: non-hygroscopic pore material, absorbent pore material, strict absorbent material and colloidal material.
The microwave drying, if applied under a vacuum environment, can not only avoid the oxidation of the dried materials [15], but also can reduce the external pressure of the materials and increased the mass transfer driving force.
Journal of Northeast Forestry University, Vol.32(2004)No.6, p. 58-63
Journal of Beijing Forestry University, Vol.24(2004)No.6, p. 98-101
Online since: December 2011
Authors: Shu Yan Wu, Ze Sheng Ji, Li Hua Wen, Hong Bo Li
In the previous research, the recycled materials exhibited excellent mechanical properties.
To improve the mechanical properties of recycled materials fabricated by solid-state process, recycled materials were extruded repeately in this work, and the effect of extruding times on distribution of oxides and mechanical properties of recycled material was investigated.
Khraisheh: Advanced Engineering Materials.
[6] Hiroyuki Watanabe, Koji Moriwaki, Toshiji Mukai: Journal of Materials Science Vol. 36 (2002), p. 5007 [7] Masaru.Nakanishi, M.Mabuchi,Kohei K: J Jpn Soc Powder Metall Vol. 42 (1995), p. 373 [8] Lee Doo-Myun, Lee Joon-Seo, Lee Chi-Hwan: J Jpn Inst Light Met Vol. 45 (1995), p. 391-396(In Japanese)
China Vol. 12 (2002), p. 882 [11] Masaru.Nakanishi, M.Mabuchi, N.Saito,M: Journal of materials science letters Vol. 17 (1998), p. 2003 [12] Yasumasa.Chino, Lee Jae-Seol, Yusuke Nakaura, Koichi Ohori, Mamoru Mabuchi: Mater.Trans Vol. 46 (2005), p. 2592 [13] CHINO Y, TETSUJI H, MAMORU M: Materials Science and Engineering A Vol. 435-436 (2006), p. 275 [14] Yasumasa Chino,Tetsuji Hoshika, Mamoru Mabuchi: Materials Transactions Vol. 47 (2006), p. 1040
To improve the mechanical properties of recycled materials fabricated by solid-state process, recycled materials were extruded repeately in this work, and the effect of extruding times on distribution of oxides and mechanical properties of recycled material was investigated.
Khraisheh: Advanced Engineering Materials.
[6] Hiroyuki Watanabe, Koji Moriwaki, Toshiji Mukai: Journal of Materials Science Vol. 36 (2002), p. 5007 [7] Masaru.Nakanishi, M.Mabuchi,Kohei K: J Jpn Soc Powder Metall Vol. 42 (1995), p. 373 [8] Lee Doo-Myun, Lee Joon-Seo, Lee Chi-Hwan: J Jpn Inst Light Met Vol. 45 (1995), p. 391-396(In Japanese)
China Vol. 12 (2002), p. 882 [11] Masaru.Nakanishi, M.Mabuchi, N.Saito,M: Journal of materials science letters Vol. 17 (1998), p. 2003 [12] Yasumasa.Chino, Lee Jae-Seol, Yusuke Nakaura, Koichi Ohori, Mamoru Mabuchi: Mater.Trans Vol. 46 (2005), p. 2592 [13] CHINO Y, TETSUJI H, MAMORU M: Materials Science and Engineering A Vol. 435-436 (2006), p. 275 [14] Yasumasa Chino,Tetsuji Hoshika, Mamoru Mabuchi: Materials Transactions Vol. 47 (2006), p. 1040
Online since: June 2014
Authors: Boonrat Lohwongwatana, Sineenart Thumsoontorn, Surasak Kuimalee, Budsabong Kuntalue, Suphakit Pintasiri
Its hardness is ranked among the highest values for other engineering composite materials.
The two materials are also known for small thermal coefficient of expansion mismatch.
Microstructure of Al2O3-TiC composite materials (60 nm thin film sample) Fig 3.
Materials Research, 2012. 15(6): p. 4
Materials Science and Technology, 2001. 17(10): p. 366
The two materials are also known for small thermal coefficient of expansion mismatch.
Microstructure of Al2O3-TiC composite materials (60 nm thin film sample) Fig 3.
Materials Research, 2012. 15(6): p. 4
Materials Science and Technology, 2001. 17(10): p. 366
Online since: July 2014
Authors: V. Krishnaraj, R. Prakash, G.S. Tarun, G.Denesh Kumar, M. Vijayagopal
Carbon fiber reinforced plastics (CFRP) are used as structural materials in automotive and aerospace industries because of its superior properties like high strength to weight ratio and high stiffness to weight ratio.
R.Teti [1] presented his work on conventional machining of different composite materials with various issues on tool wear.
In this paper cutting temperature and tool wear were taken as the important factors influencing the surface quality of the edge trimmed CFRP materials.
Teti: Machining of composite materials
Miranda, Machining optimisation in carbon fiber reinforced composite materials, Journal of Materials Processing Technology Vol.92 – 93 (1999) pp. 135 – 140
R.Teti [1] presented his work on conventional machining of different composite materials with various issues on tool wear.
In this paper cutting temperature and tool wear were taken as the important factors influencing the surface quality of the edge trimmed CFRP materials.
Teti: Machining of composite materials
Miranda, Machining optimisation in carbon fiber reinforced composite materials, Journal of Materials Processing Technology Vol.92 – 93 (1999) pp. 135 – 140
Online since: December 2015
Authors: Joydeep Dutta, Muhammad Najam Khan, Mayuree Jaisai
Journal of Colloid and Interface Science, 2004. 275(1): p. 177-182
Science and Technology of Advanced Materials, 2009. 10(1): p. 013001
Science and Technology of Advanced Materials, 2010. 11(5)
Materials Research Bulletin, 2014. 49(0): p. 645-650
Materials Science in Semiconductor Processing, 2015. 36(0): p. 124-133
Science and Technology of Advanced Materials, 2009. 10(1): p. 013001
Science and Technology of Advanced Materials, 2010. 11(5)
Materials Research Bulletin, 2014. 49(0): p. 645-650
Materials Science in Semiconductor Processing, 2015. 36(0): p. 124-133