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Online since: June 2023
Authors: Farid Triawan, Kushendarsyah Saptaji, I. Ifat, Iwan Setiawan, Amelia Nuraisyah Quinsi Jemy
These materials are usually used in the manufacture of basic moulds using a micro-milling process.
Sen, Matrix elasticity regulates mesenchymal stem cell chemotaxis, Journal of Cell Science, 131 (2018) 1–13
Wu, The application of micro-milling technology in the processing of micro-strip antenna, International Journal of Materials and Product Technology, 51 (2015) 44–59
Choong et al., The global rise of 3D printing during the COVID-19 pandemic, Nature Reviews Materials, 5 (2020) 637–639
Bandyopadhyay, Bone tissue engineering using 3D printing, Materials Today, 16 (2013) 496–504
Sen, Matrix elasticity regulates mesenchymal stem cell chemotaxis, Journal of Cell Science, 131 (2018) 1–13
Wu, The application of micro-milling technology in the processing of micro-strip antenna, International Journal of Materials and Product Technology, 51 (2015) 44–59
Choong et al., The global rise of 3D printing during the COVID-19 pandemic, Nature Reviews Materials, 5 (2020) 637–639
Bandyopadhyay, Bone tissue engineering using 3D printing, Materials Today, 16 (2013) 496–504
Online since: August 2013
Authors: Cui Hua Li, Bin Bin Yang, Jun Hui Zhou
Advanced Energy Materials, 2012, 2(7): 860-872
[3] Li J, Daniel C, Wood D.
Materials processing for lithium-ion batteries.
Energy & Environmental Science, 2012, 5(7): 7854-7854 [5] Goodenough JB, Kim Y.
Chemistry of Materials, 2010, 22(3): 587-603 [6] Etacheri V, Marom R, Elazari R, et al.
Journal of Power Sources, 2013, 226(210-218
Materials processing for lithium-ion batteries.
Energy & Environmental Science, 2012, 5(7): 7854-7854 [5] Goodenough JB, Kim Y.
Chemistry of Materials, 2010, 22(3): 587-603 [6] Etacheri V, Marom R, Elazari R, et al.
Journal of Power Sources, 2013, 226(210-218
Online since: September 2019
Authors: Ye Gu, Cai Qi Zhao, Yong Yang, Wei Ran Zhao
Progress in Research Work of Light Materials, J.
Journal of Southeast University (Natural Science). 2014, 44(3): 626-630
Journal of Materials Processing Technology. 2014, 214(1):81-86
Construction & Building Materials. 1999, 13(3):109-116
Journal of Space Science. 2002(10), 142-148
Journal of Southeast University (Natural Science). 2014, 44(3): 626-630
Journal of Materials Processing Technology. 2014, 214(1):81-86
Construction & Building Materials. 1999, 13(3):109-116
Journal of Space Science. 2002(10), 142-148
Influences on Asphalt Pavement Performance of Graded Broken Stone Sub-Base Based on Cross-Anisotropy
Online since: May 2011
Authors: Jin Chao Yue, Li Min Duan, Xiang Fei Niu
Graded broken stone materials show cross-anisotropic behavior, but now most pavement structure analysis are based on assuming pavement structure to be isotropic layered system.
A large quantity of these materials goes into the construction of pavements.
A Uzan type model, which relates the resilient modulus to bulk and deviator stresses was found that it can properly characterize the stress dependency of granular materials.
Journal of Chongqing Jianzhu University,2007,29(1):65-69.
Journal of Taiyuan University of Science & Technology,2007,28(4):296-299.
A large quantity of these materials goes into the construction of pavements.
A Uzan type model, which relates the resilient modulus to bulk and deviator stresses was found that it can properly characterize the stress dependency of granular materials.
Journal of Chongqing Jianzhu University,2007,29(1):65-69.
Journal of Taiyuan University of Science & Technology,2007,28(4):296-299.
Online since: March 2012
Authors: Cheng Tao Yang, Jing Wan, Yang Gao
Lee, et al:Progress in Materials Science, Vol. 48(4) (2003), p.1–97
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Online since: September 2013
Authors: Abdul Razak Daud, Muhammad Azmi Abd Hamid, Dewi Suriyani Che Halin, Ibrahim Abu Talib, Haroon Haiza
Hamid2,e
1Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, (UniMAP), 02600 Jalan Kangar-Arau, Perlis, Malaysia
2School of Applied Physics, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia
a dewisuriyani@unimap.edu.my (corresponding author), bhaizaharoon@unimap.edu.my, cibatal@ukm.my, dard@ukm.my, eazmi@ukm.my
Keywords: Current transport, Mechanism, Cuprous oxide, Photoelectrochemical cell
Abstract.
Journal Applied.
Solar Energy Materials & Solar Cells 73 (2002) 67
Journal Material Science: Material Electron 17 (2006) 519
Solar Energy Materials & Solar Cells 93 (2009) 153.
Journal Applied.
Solar Energy Materials & Solar Cells 73 (2002) 67
Journal Material Science: Material Electron 17 (2006) 519
Solar Energy Materials & Solar Cells 93 (2009) 153.
Online since: January 2014
Authors: Chun Hua Zhao, Xue Kun Zhang
Golden Empress, are studied by extrusion experiments using SANS universal material testing machine.
Materials, Measurement and Methods This experiment is based on SANS universal material testing machine [7], consists with a test platform, console, sensor, loading and computer with installing bundled software.
A multi-function device-elasticity-material turning disc friction seeding apparatus [J].
Journal of Inner Mongolia Agricultural Univesity2005,26(4):67-69.
Journal of Anhui agricultural sciences,2008, 36(16): 6722-6724(in Chinese) [7] Cheng Yulai, Sun Xuwang.
Materials, Measurement and Methods This experiment is based on SANS universal material testing machine [7], consists with a test platform, console, sensor, loading and computer with installing bundled software.
A multi-function device-elasticity-material turning disc friction seeding apparatus [J].
Journal of Inner Mongolia Agricultural Univesity2005,26(4):67-69.
Journal of Anhui agricultural sciences,2008, 36(16): 6722-6724(in Chinese) [7] Cheng Yulai, Sun Xuwang.
Online since: January 2012
Authors: Yong Xiang Fu, Chuan Sheng Wang, Rui Qin Wang, Yuan Wang
Study on Curing Process of Resin Nanocomposites
Chuansheng Wang1a, Ruiqin Wang1b, Yuan Wang1c and Yongxiang Fu1d
1Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology
College of Electromechanical Engineering, Qingdao University of Science & Technology, Qingdao, 266061, Shandong, China
awcsmta@qust.edu.cn, bKing.3-3@163.com, cwangkatze@126.com
Key words: resin nanocomposites; curing process; epoxy resin
Abstract.
In order to get an optimum performance of composite materials, it is of crucial importance to select the best curing process, on condition that resin and curing agent system is determined.
Finally we determined the best curing process range of the system. 1 Introduction This study calculates the reaction kinetics parameters combined with its curable DSC testing technology, and confirms the best curing process of the nanoSiO2 / resin composite materials synthesis, and provides the theoretical foundation for practical application, through the investigation of different resin nanocomposites prepared by different methods ( ordinary ultrasound method, the shock waves method), and combined with the preliminary results of nanometerSiO2 / epoxy resin composite material. 2 The specimen preparation Raw material: Epoxy resin(E-44)6101, Epoxy value 0.41~0.47 eq/100g; nmSiO2 (processed by silane coupling, average particle diameter30±5nm, specific surface area 160±20 m2/g) ,the product code SSl-5702; Methyl tetrahydrophthalic anhydride (MeTHPA).
Therefore, by calculating and analyzing the curing reaction kinetics parameters, we can confirme the best curing process for the nanoSiO2 /epoxy resin composite material synthesis is 110℃ with heat preservation 1hr, and 150℃ with heat preservation 2hrs.
Acknowledgement: Thanks for the supported by National Natural Science foundation of China(50375075) References [1] Y.X.Fu: Reserch on Preparation and Performance of Resin Nanocomposite by Liouid Shock Wave, Ms D Thesis.Qingdao; Qingdao University of Science & Technology (2010) [2] X.B.Chen: Hi-Tech Fiber & Application Vol.27, No.6 (2002), p. 15-20 [3] D.S.Fu ,G.M.Zhu and J.N.Han: China Adhesives Vol.12, No.3 (2003), p. 51-53 [4] X.L.Song ,H.B.Wang and X.L.Wu: Chemical Industry and Engineering Progress Vol.24, No.3(2005), p.24-27 [5] M.L.Zhang ,L.G.Ding and X.Y.Jing: Applied Science and Technology Vol.31, No.6 (2004), p. 64-66 [6] K.N.Madhusoodanan and S.Varghese: Journal of Applied Polymer Science Vol.102,No.3(2006), p.2537-2543 [7] Y.F.Lu ,M.C.Lu and J.M.Huang .et.a1: Journal of the American Chemical Society Vol.125, No.5 (2003), p. 1269-1277 [8] L.Elias ,E.FenouiIlot and J.C.Majeste: Polymer Vol.48, No.20 (2007), p. 6029-6040
In order to get an optimum performance of composite materials, it is of crucial importance to select the best curing process, on condition that resin and curing agent system is determined.
Finally we determined the best curing process range of the system. 1 Introduction This study calculates the reaction kinetics parameters combined with its curable DSC testing technology, and confirms the best curing process of the nanoSiO2 / resin composite materials synthesis, and provides the theoretical foundation for practical application, through the investigation of different resin nanocomposites prepared by different methods ( ordinary ultrasound method, the shock waves method), and combined with the preliminary results of nanometerSiO2 / epoxy resin composite material. 2 The specimen preparation Raw material: Epoxy resin(E-44)6101, Epoxy value 0.41~0.47 eq/100g; nmSiO2 (processed by silane coupling, average particle diameter30±5nm, specific surface area 160±20 m2/g) ,the product code SSl-5702; Methyl tetrahydrophthalic anhydride (MeTHPA).
Therefore, by calculating and analyzing the curing reaction kinetics parameters, we can confirme the best curing process for the nanoSiO2 /epoxy resin composite material synthesis is 110℃ with heat preservation 1hr, and 150℃ with heat preservation 2hrs.
Acknowledgement: Thanks for the supported by National Natural Science foundation of China(50375075) References [1] Y.X.Fu: Reserch on Preparation and Performance of Resin Nanocomposite by Liouid Shock Wave, Ms D Thesis.Qingdao; Qingdao University of Science & Technology (2010) [2] X.B.Chen: Hi-Tech Fiber & Application Vol.27, No.6 (2002), p. 15-20 [3] D.S.Fu ,G.M.Zhu and J.N.Han: China Adhesives Vol.12, No.3 (2003), p. 51-53 [4] X.L.Song ,H.B.Wang and X.L.Wu: Chemical Industry and Engineering Progress Vol.24, No.3(2005), p.24-27 [5] M.L.Zhang ,L.G.Ding and X.Y.Jing: Applied Science and Technology Vol.31, No.6 (2004), p. 64-66 [6] K.N.Madhusoodanan and S.Varghese: Journal of Applied Polymer Science Vol.102,No.3(2006), p.2537-2543 [7] Y.F.Lu ,M.C.Lu and J.M.Huang .et.a1: Journal of the American Chemical Society Vol.125, No.5 (2003), p. 1269-1277 [8] L.Elias ,E.FenouiIlot and J.C.Majeste: Polymer Vol.48, No.20 (2007), p. 6029-6040
Online since: October 2014
Authors: Ching Yee Yong, Kim Mey Chew, Rubita Sudirman
Sports Science.
Suen: Concept map assessment of classroom learning: Reliability, validity, and logistical practicality, Journal of research in science teaching, Vol. 36, No. 4, (1999) p. 475-492
Mahmood: Distance: A Moderator Between Walking Activity and Pattern Classification, International Journal of Advances in Applied Sciences, Vol. 1, No. 2, (2012) p. 85-90
Chew: Human Body and Body Part Movement Analysis Using Gyroscope, Accelerometer and Compass, Applied Mechanics and Materials, Vol. 284, (2013) p. 3120-3125
Chew: Human Hand Movement Analysis Using Principle Component Analysis Classifier, Applied Mechanics and Materials, Vol. 284, (2013) p. 3126-3130
Suen: Concept map assessment of classroom learning: Reliability, validity, and logistical practicality, Journal of research in science teaching, Vol. 36, No. 4, (1999) p. 475-492
Mahmood: Distance: A Moderator Between Walking Activity and Pattern Classification, International Journal of Advances in Applied Sciences, Vol. 1, No. 2, (2012) p. 85-90
Chew: Human Body and Body Part Movement Analysis Using Gyroscope, Accelerometer and Compass, Applied Mechanics and Materials, Vol. 284, (2013) p. 3120-3125
Chew: Human Hand Movement Analysis Using Principle Component Analysis Classifier, Applied Mechanics and Materials, Vol. 284, (2013) p. 3126-3130
Online since: December 2014
Authors: Zhen Hua Duan, Ju Lan Wang, Yuan Ping Zheng, Ai Guo Feng, Yu Die Wang
Materials and methods
Sample preparation.
The ratio of material to solution was fixed 1:20 according the primary experiment results.
References [1]J.S.Alakali, C.C.Ariahu, N.Nkpa: Journal of Food Processing and Preservation Vol.30 (2006), p.597 [2] M.M.Khin, W.B.Zhou, C.O.Perera: Journal of Food Engineering Vol.77 (2006), p.84 [3] D.Saputra: Drying Technology Vol.19 (2001), p.415 [4]L.J.Li,N.Jiang,D.J.Li: Food Science Vol.34 (2013), p.67 [5] T.Danila: Food Research International Vol.26 (1993), p.59 [6] N.K.Rastogi,K.Niranjan: Journal of Food Science Vol.63(1998),p.508 [7]Z.H.Duan, L.N.
A.Jesus: Aquaculture Research Vol.38 (2007), p.1074 [9]Z.H.Duan,S.Jun,S.Xu: Food Science Vol.27 (2006), p.479 [10]Z.H.Duan,M.H.Yi,J.L.Wang: Science and Technology of Food Industry Vol.28 (2007), p.65 [11]Z.H.Duan, C.Y.Cheng,Y.Hai: Advanced Materials Research Vol. 690-693 (2013), p.1318 [12]X.ZHANG, Z.H.Duan,Y.W.Feng: Advanced Materials Research Vol. 960-961 (2014), p. 193 [13]Z.H.Duan,L.Liu,J.L.Wang: Fish Science Vol.31 (2012), p.18 [14]Z.H.Duan, J.L.Wang, Y.Y.Wu: Advanced Materials Research Vol. 554-556 (2012), p. 1332 [15]Z.H.Duan: The Experiment Technology of Aquatic Product Processing.
Beijing: China Science and Technology Press,2009:88-89 [16]J.Y.Li, Z.H.Duan: Advanced Materials Research Vol. 791-793(2013),p.132 [17]N.Xiong, Q.Li, L.Liu: Science and Technology of Cereals, Oils and Foods Vol.21(2013),p.68 [18]K.L.Huo,Z.P.Song,S.J.Wu: Scientia Agricultura Sinica Vol.44(2011),p.2015
The ratio of material to solution was fixed 1:20 according the primary experiment results.
References [1]J.S.Alakali, C.C.Ariahu, N.Nkpa: Journal of Food Processing and Preservation Vol.30 (2006), p.597 [2] M.M.Khin, W.B.Zhou, C.O.Perera: Journal of Food Engineering Vol.77 (2006), p.84 [3] D.Saputra: Drying Technology Vol.19 (2001), p.415 [4]L.J.Li,N.Jiang,D.J.Li: Food Science Vol.34 (2013), p.67 [5] T.Danila: Food Research International Vol.26 (1993), p.59 [6] N.K.Rastogi,K.Niranjan: Journal of Food Science Vol.63(1998),p.508 [7]Z.H.Duan, L.N.
A.Jesus: Aquaculture Research Vol.38 (2007), p.1074 [9]Z.H.Duan,S.Jun,S.Xu: Food Science Vol.27 (2006), p.479 [10]Z.H.Duan,M.H.Yi,J.L.Wang: Science and Technology of Food Industry Vol.28 (2007), p.65 [11]Z.H.Duan, C.Y.Cheng,Y.Hai: Advanced Materials Research Vol. 690-693 (2013), p.1318 [12]X.ZHANG, Z.H.Duan,Y.W.Feng: Advanced Materials Research Vol. 960-961 (2014), p. 193 [13]Z.H.Duan,L.Liu,J.L.Wang: Fish Science Vol.31 (2012), p.18 [14]Z.H.Duan, J.L.Wang, Y.Y.Wu: Advanced Materials Research Vol. 554-556 (2012), p. 1332 [15]Z.H.Duan: The Experiment Technology of Aquatic Product Processing.
Beijing: China Science and Technology Press,2009:88-89 [16]J.Y.Li, Z.H.Duan: Advanced Materials Research Vol. 791-793(2013),p.132 [17]N.Xiong, Q.Li, L.Liu: Science and Technology of Cereals, Oils and Foods Vol.21(2013),p.68 [18]K.L.Huo,Z.P.Song,S.J.Wu: Scientia Agricultura Sinica Vol.44(2011),p.2015