Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2014
Authors: Jian Cai, Yue Ling Long, Ying Tao Wang, Bo Zhen Zheng
The parameters of these materials come from the material experiment results.
Acknowledge This work was financially supported by the National Natural Sciences Foundation of China (51008085), Guangzhou Pearl River New Star of Science &Technology Project (Grant No.2012J2200100), State Key Lab of Subtropical Building Science, South China University of Technology (Grant No.2011ZC25 and No.2013ZC14), and China Postdoctoral Science Foundation (Grant No.2012M511810 and No.2014T70807).
Journal of Constructional Steel Research, 2006, 62(5): 472-483
Journal of Constructional Steel Research, 2012, 72: 105-118
Journal of Constructional Steel Research, 2013, 88: 1-14
Acknowledge This work was financially supported by the National Natural Sciences Foundation of China (51008085), Guangzhou Pearl River New Star of Science &Technology Project (Grant No.2012J2200100), State Key Lab of Subtropical Building Science, South China University of Technology (Grant No.2011ZC25 and No.2013ZC14), and China Postdoctoral Science Foundation (Grant No.2012M511810 and No.2014T70807).
Journal of Constructional Steel Research, 2006, 62(5): 472-483
Journal of Constructional Steel Research, 2012, 72: 105-118
Journal of Constructional Steel Research, 2013, 88: 1-14
Online since: February 2014
Authors: Yan Hua Cai
Study on Effect of Rice Flour on Isothermal Crystallization Kinetics of Biodegradable Poly(L-lactic acid)
Cai Yan-Hua1
1School of Materials and Chemical Engineering, Chongqing University of Arts and Sciences, Yongchuan, Chongqing-402160, P.R.
Introduction Poly(L-lactic acid)(PLLA) is one of the most promising bio-based materials both science research and technology development field, and has been gaining more and more interest in recent years[1-2].
PLLA and MF are green materials, thus, it is very necessary to blend PLLA and MF to control the considerable environmental problems, what is more, the blend of PLLA and MF may develop more multi-functional biodegradable polymer composites.
Experimental Section 2.1 Materials PLLA (Mw=1.95×105) was purchased from Nature Works LLC, USA.
Sinha Ray, J Therm Anal Calorim, 113(2013), 703 [7] Jian-Feng Zhang and Xiuzhi Sun, Journal of Applied Polymer Science, 94(2004), 1697 [8] Tsutomu Ohkita and Seung-Hwan Lee, Journal of Applied Polymer Science, 100(2006), 3009 [9] Jie Cai, Miao Liu, Li Wang, Kunhua Yao, Sha Li and Hanguo Xiong, Carbohydrate Polymers, 86(2011), 941 [10] Li Chen, Xueyu Qiu, Mingxiao Deng, Zhongkui Hong, Rui Luo, Xuesi Chen and Xiabin Jing, Polymer, 46(2005), 5723
Introduction Poly(L-lactic acid)(PLLA) is one of the most promising bio-based materials both science research and technology development field, and has been gaining more and more interest in recent years[1-2].
PLLA and MF are green materials, thus, it is very necessary to blend PLLA and MF to control the considerable environmental problems, what is more, the blend of PLLA and MF may develop more multi-functional biodegradable polymer composites.
Experimental Section 2.1 Materials PLLA (Mw=1.95×105) was purchased from Nature Works LLC, USA.
Sinha Ray, J Therm Anal Calorim, 113(2013), 703 [7] Jian-Feng Zhang and Xiuzhi Sun, Journal of Applied Polymer Science, 94(2004), 1697 [8] Tsutomu Ohkita and Seung-Hwan Lee, Journal of Applied Polymer Science, 100(2006), 3009 [9] Jie Cai, Miao Liu, Li Wang, Kunhua Yao, Sha Li and Hanguo Xiong, Carbohydrate Polymers, 86(2011), 941 [10] Li Chen, Xueyu Qiu, Mingxiao Deng, Zhongkui Hong, Rui Luo, Xuesi Chen and Xiabin Jing, Polymer, 46(2005), 5723
Online since: May 2011
Authors: Bo Chen, Xian Yong Wei, Peng Li, Gui Zhen Gong, Xiao Ming Yue, Zhi Min Zong, You Quan Dou, Fang Wu Wang, Chao Hui Feng, Jian Shi Zhou
Using solvents extraction separation system of self-designed make superior coal tar pitches for carbon materials.
The superior chirpy coal tar pitches for carbon materials acquired.
Through mild way to get superior precursor of carbon materials is the develop direction of low carbon energy sources.
Comparing the traditional technology this process save more time and materials.
New Carbon Materials.Vol.4(2003), p.281-285 [2] L.S.Zhang, International Journal of Hydrogen Energy.
The superior chirpy coal tar pitches for carbon materials acquired.
Through mild way to get superior precursor of carbon materials is the develop direction of low carbon energy sources.
Comparing the traditional technology this process save more time and materials.
New Carbon Materials.Vol.4(2003), p.281-285 [2] L.S.Zhang, International Journal of Hydrogen Energy.
Online since: September 2011
Authors: Neda Khatami, Shamsoddin Mirdamadi, Hekmat Razavizadeh
The Boron Effect on Mechanical Properties of Aged 2024 Aluminum Alloy
N.khatami 1,a, Sh.mirdamadi 2,b, H.Razavizadeh 3,c
1-Ms student, Department of Metallurgical and Materials Engineering, Iran university of Sience and tecnology,Tehran- Iran
2-Proffesor, Department of Metallurgical and Materials Engineering, Iran university of Sience and Tecnology,Tehran- Iran
3-Proffesor , Department of Metallurgical and Materials Engineering, Iran university of Sience and tecnology,Tehran- Iran
ankh.nedakhatami@yahoo.com b- mirdamadi@iust.ac.ir c- hekmatr@yahoo.com
Keywords: 2024 Aluminum Alloy; Precipitation Hardening; Tensile Strength; Aging Process; Al- B Alloy
Abstract—2024 Aluminum Alloy is widely used in aeronautical applications.
Experimental Practical operations are carried out according to the following steps: Raw Materials: As per table No.1, the raw materials are pure 2024 Aluminum Alloy and B2O3 used for alloying.
[6] F.Sarioglu, F.O Orhaner, "Effect of prolonged heating at 130ºC on fatigue crack propagation of 2024 Al alloy in three orientations", Materials Science and Engineering A248 (1998) 115-119
[10] Yucel Birol, "Production of Al- B alloy by heating Al/KBF4 powder blends", Journal of alloys and Compounds 481 (2009) 195-198
[11] Xiaoming Wang, "The formation of AlB2 in an Al-B master alloy, Journal of Alloys and Compopounds 403(2005) 283-287,2005
Experimental Practical operations are carried out according to the following steps: Raw Materials: As per table No.1, the raw materials are pure 2024 Aluminum Alloy and B2O3 used for alloying.
[6] F.Sarioglu, F.O Orhaner, "Effect of prolonged heating at 130ºC on fatigue crack propagation of 2024 Al alloy in three orientations", Materials Science and Engineering A248 (1998) 115-119
[10] Yucel Birol, "Production of Al- B alloy by heating Al/KBF4 powder blends", Journal of alloys and Compounds 481 (2009) 195-198
[11] Xiaoming Wang, "The formation of AlB2 in an Al-B master alloy, Journal of Alloys and Compopounds 403(2005) 283-287,2005
Online since: December 2012
Authors: Gui Jie Liu, Xin Wang, Min Chen, Ying Long Li, Jian Jun Zhang
Acknowledgment
This project is supported by the National Natural Science Foundation of China (51175485).
References [1] Cheung MMS, Li W, Probabilistic Fatigue and Fracture Analysis of Steel Bridges, Journal of Structural Safety. 23 (2003) 245-262
[3] Xu Jinquan, Guo Fengming, Mechanism of Fatigue Damage Evolution and the Evolution Law, Journal of Mechanical Engineering. 46 (2010) 2
[4] Vang Jun, Damage Mechanics Theory and Application, Beijing Science publisher, 1997
[7] Rosa GLa, Risitano A, Thermographic Methodology for Rapid Determination of the Fatigue Limit of Materials and Mechanical Components, International Journal of Fatigue. 22 (2002) 65-73
References [1] Cheung MMS, Li W, Probabilistic Fatigue and Fracture Analysis of Steel Bridges, Journal of Structural Safety. 23 (2003) 245-262
[3] Xu Jinquan, Guo Fengming, Mechanism of Fatigue Damage Evolution and the Evolution Law, Journal of Mechanical Engineering. 46 (2010) 2
[4] Vang Jun, Damage Mechanics Theory and Application, Beijing Science publisher, 1997
[7] Rosa GLa, Risitano A, Thermographic Methodology for Rapid Determination of the Fatigue Limit of Materials and Mechanical Components, International Journal of Fatigue. 22 (2002) 65-73
Online since: February 2022
Authors: Yuriy Velyaev, Dmitry Maiorov
In catalytic and sorption processes, the porous structure of materials plays a large role [9], so studies aimed at improving their structural-surface characteristics, such as specific surface (SBET) and pore volume (VBJH), are relevant.
Supercritical drying is a promising method for obtaining materials with a developed specific surface area.
Harris, Nanotechnology innovations for the construction industry, Progress in Materials Science. 58(7) (2013) 1056-1102
Antina, Preparation and surface properties of mesoporous silica particles modified with poly(N-vinyl-2-pyrrolidone) as a potential adsorbent for bilirubin removal, Materials Chemistry and Physics. 147(3) (2014) 673-683
Zaharov, Sulfuric Acid Methods of Complex Processing of Nepheline-Containing Raw Materials, KNC RAN, Apatity, 2017
Supercritical drying is a promising method for obtaining materials with a developed specific surface area.
Harris, Nanotechnology innovations for the construction industry, Progress in Materials Science. 58(7) (2013) 1056-1102
Antina, Preparation and surface properties of mesoporous silica particles modified with poly(N-vinyl-2-pyrrolidone) as a potential adsorbent for bilirubin removal, Materials Chemistry and Physics. 147(3) (2014) 673-683
Zaharov, Sulfuric Acid Methods of Complex Processing of Nepheline-Containing Raw Materials, KNC RAN, Apatity, 2017
Online since: March 2015
Authors: Rui Ping Zhang, Jian Dong Ding, Yong Jun Shen, Shuo Han, Qi Hui Xu, Guo Qing Jiang
Lang thought degradation of the organic materials in the electrohydraulic system was attributed to zero-order reaction based on the physical function and the plasma effect based on first-order reaction.
Locke, Decomposition of phenol by hybrid gas/liquid electrical discharge reactors with zeolite catalysts, Journal of Hazardous Materials 125 (2005) 190–200
Li, The Experimental Study on Decolorization of Dye Wastewater with Pulse Corona Discharge, Journal of Environmental Science 17(1996) 13-16
Roglic, B.M, Decolorization of reactive textile dyes using water falling film dielectric barrier discharge, Journal of Hazardous Materials 192 (2011) 763–771
Zhang, Degradation of aqueous biological dye orange G by using glow discharge plasma, Journal of Wenzhou University (Natural Sciences) 30 (2009) 40-45
Locke, Decomposition of phenol by hybrid gas/liquid electrical discharge reactors with zeolite catalysts, Journal of Hazardous Materials 125 (2005) 190–200
Li, The Experimental Study on Decolorization of Dye Wastewater with Pulse Corona Discharge, Journal of Environmental Science 17(1996) 13-16
Roglic, B.M, Decolorization of reactive textile dyes using water falling film dielectric barrier discharge, Journal of Hazardous Materials 192 (2011) 763–771
Zhang, Degradation of aqueous biological dye orange G by using glow discharge plasma, Journal of Wenzhou University (Natural Sciences) 30 (2009) 40-45
Online since: April 2014
Authors: Yu Cheng Wu, Ming Hua Jiao, Xin Min Huang, Man Gu
Journal of Materials Science 47 (2012) 7782-7788
Materials Science and Engineering 83 (1986) 115-121
Journal of Nuelear Materials 299 (2000) 91-100
Journal of Nuclear Materials 279 (2000) 31-45
Materials Science and Technology 27 (2011) 966-969
Materials Science and Engineering 83 (1986) 115-121
Journal of Nuelear Materials 299 (2000) 91-100
Journal of Nuclear Materials 279 (2000) 31-45
Materials Science and Technology 27 (2011) 966-969
Online since: June 2020
Authors: Erna Astuti, Zahrul Mufrodi, Gita Indah Budiarti
The materials used as heterogeneous catalyst is a precious metal such as platinum Rhodium and Palladium.
Prasetya, International Journal of Chemical, Molecular, Nuclear, Material and Metallurgical Engineering, Vol. 9, no. 8, (2015) p 947 [8] E.
Prasetya, Key Engineering Materials, vol. 718 (2017) p 95-99 [9] E.
Prasetya, ARPN Journal of Engineering and Applied Science, Vol. 11, no. 8 (2016) p 5203 [10] E.
Budiman, ARPN Journal of Engineering and Applied Science, Vol. 11, no 8 (2016) p 5194 [14] A.
Prasetya, International Journal of Chemical, Molecular, Nuclear, Material and Metallurgical Engineering, Vol. 9, no. 8, (2015) p 947 [8] E.
Prasetya, Key Engineering Materials, vol. 718 (2017) p 95-99 [9] E.
Prasetya, ARPN Journal of Engineering and Applied Science, Vol. 11, no. 8 (2016) p 5203 [10] E.
Budiman, ARPN Journal of Engineering and Applied Science, Vol. 11, no 8 (2016) p 5194 [14] A.