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Online since: December 2014
Authors: Yi Sheng Zhang, Chao Wang, Bin Zhu, Yi Lin Wang
Journal of Materials Processing Technology. 2010, 210(15): 2103-2118
SCIENCE CHINA Technological Sciences. 2012, 55(7): 1852-1857
[3] Wang, C., Zhu, B., Zhang, Y., Hot-Stamping Process Simulation and Optimize Research for Collision Beam of Automobile Door, in Advanced Materials Research. 2011, p. 3-8
Metallurgical and Materials Transactions B. 1998, 29(3): 661-672
Journal of Materials Processing Technology. 2006, 174(1–3): 399-406.
SCIENCE CHINA Technological Sciences. 2012, 55(7): 1852-1857
[3] Wang, C., Zhu, B., Zhang, Y., Hot-Stamping Process Simulation and Optimize Research for Collision Beam of Automobile Door, in Advanced Materials Research. 2011, p. 3-8
Metallurgical and Materials Transactions B. 1998, 29(3): 661-672
Journal of Materials Processing Technology. 2006, 174(1–3): 399-406.
Online since: December 2009
Authors: Tatsuki Ohji, Yoshitake Masuda, Xiu Lan Hu, Kazumi Kato
Koumoto, Advanced Materials
14 (2002), p.418
Whang, Materials Chemistry and Physics 82 (2003), p.705
Feng, Applied Surface Science (2006)
Whang, Journal of Crystal Growth 268 (2004), p.242
Cherns, Applied Physics a-Materials Science & Processing 79 (2004), p.1169
Whang, Materials Chemistry and Physics 82 (2003), p.705
Feng, Applied Surface Science (2006)
Whang, Journal of Crystal Growth 268 (2004), p.242
Cherns, Applied Physics a-Materials Science & Processing 79 (2004), p.1169
Online since: April 2015
Authors: Ching Wen Lou, Wen Hao Hsing, Chien Teng Hsieh, Jia Horng Lin, Ya Lan Hsing
The Study of Health and Insulation Composite Recycling Far Infrared Fiber Laminated Non-woven
Ching Wen Lou1, Ya Lan Hsing2,Wen Hao Hsing3,b*, Chien Teng Hsieh4
and Jia Horng Lin2,5,6,a*
1Institute of Biomedical Engineering and Materials Science, Central Taiwan University of Science and Technology, Taichung 40601, Taiwan, R.O.C.
2Laboratory of Fiber Application and Manufacturing, Department of Fiber and Composite Materials, Feng Chia University, Taichung City 40724, Taiwan, R.O.C.
3The Department of Textile Engineering, Chinese Culture University, Taipei 11114, Taiwan, R.O.C
4Department of Fashion Design and Merchandising, Shih Chien University Kaohsiung Campus, Kaohsiung 845, Taiwan, R.O.C
5School of Chinese Medicine, China Medical University, Taichung 40402, Taiwan, R.O.C
6Department of Fashion Design, Asia University, Taichung 41354, Taiwan, R.O.C
ajhlin@fcu.edu.tw, bhsing@staff.pccu.edu.tw
*Corresponding author
Keywords: Far-infrared, Non-woven, Heat preservation.
Experimental Materials Low melting temperature polyethylene terephthalate fiber (LPET), 4 denier fiber fineness, 51 mm length, skin melting temperature 110oC.Recycling far infrared polyethylene terephthalate fiber (RFPET), 6 denier fiber fineness, 64 mm length, far infrared powder concentration 1.5 %, FROM True Young Co., Ltd Experimental Methods The material of the non-woven are Recycling far infrared polyethylene terephthalate fiber and the low melting temperature polyethylene terephthalate fiber, fiber mixing ratio is 80/20 wt%,use opener to let fixed fiber mixed and uniformed, than go through carding machine into the fiber net,expensesvertical stack of cotton molding machine laying up and needle punching, changing the number of layer.The study do the hot pressing at last to make the non-woven steady.
Acknowledgement The authors would especially like to thank Ministry of Science and Technology of Taiwan, for financially supporting this research under Contract MOST 103-2221-E-035-027.
Yang, The Basic Character and Physiological Mechanisms by Far-Infrared Rays,Jianqiao Journal.7 (2000) 60-62
Hsing, A Study on the Stability of FIR Reflection Index of the Different Powder, Journal of the Hwa Gang Textile, 17 (2010) 3.
Experimental Materials Low melting temperature polyethylene terephthalate fiber (LPET), 4 denier fiber fineness, 51 mm length, skin melting temperature 110oC.Recycling far infrared polyethylene terephthalate fiber (RFPET), 6 denier fiber fineness, 64 mm length, far infrared powder concentration 1.5 %, FROM True Young Co., Ltd Experimental Methods The material of the non-woven are Recycling far infrared polyethylene terephthalate fiber and the low melting temperature polyethylene terephthalate fiber, fiber mixing ratio is 80/20 wt%,use opener to let fixed fiber mixed and uniformed, than go through carding machine into the fiber net,expensesvertical stack of cotton molding machine laying up and needle punching, changing the number of layer.The study do the hot pressing at last to make the non-woven steady.
Acknowledgement The authors would especially like to thank Ministry of Science and Technology of Taiwan, for financially supporting this research under Contract MOST 103-2221-E-035-027.
Yang, The Basic Character and Physiological Mechanisms by Far-Infrared Rays,Jianqiao Journal.7 (2000) 60-62
Hsing, A Study on the Stability of FIR Reflection Index of the Different Powder, Journal of the Hwa Gang Textile, 17 (2010) 3.
Online since: March 2011
Authors: Khalil Khalili, S. Ehsan Eftekhari Shahri, Parviz Kahhal, M. Soheil Khalili
Journal of Materials Processing Technology, 98, 25-3, (2000)
Altan in: Prediction of forming limit and parameters in the tube hydroforming process, Journal of Materials Processing Technology, 42, 123-138, (2002)
Werkhoven in: An adaptive simulation approach designed for tube hydroforming processes, Journal of Materials Processing Technology, 159, 303–310, (2005)
Wang in: Control and use of wrinkles in tube hydroforming, Journal of Materials Processing Technology, 182, 6–11, (2007)
Altan, Tube hydroforming, state-of-the-art and future trends, Journal of Materials Processing Technology, 98, 2000, 25-33
Altan in: Prediction of forming limit and parameters in the tube hydroforming process, Journal of Materials Processing Technology, 42, 123-138, (2002)
Werkhoven in: An adaptive simulation approach designed for tube hydroforming processes, Journal of Materials Processing Technology, 159, 303–310, (2005)
Wang in: Control and use of wrinkles in tube hydroforming, Journal of Materials Processing Technology, 182, 6–11, (2007)
Altan, Tube hydroforming, state-of-the-art and future trends, Journal of Materials Processing Technology, 98, 2000, 25-33
Online since: August 2013
Authors: Kuo Hung Tseng, Yu Sheng Lin
Dynamic Properties to Evaluate Moisture Sensitivity of Asphalt Mixtures
Kuo-Hung Tseng 1, a and Yu-Sheng Lin2,b
1 Department of Construction Engineering, National Kaohsiung First University of Science and Technology, Taiwan 811
2 Department of Construction Engineering, National Kaohsiung First University of Science and Technology, Taiwan 811
abob@nkfust.edu.tw, bu9912825@nkfust.edu.tw
Keywords:Dynamic Modulus, Relaxation Modulus, Moisture Sensitivity.
Materials Used.
The is related to energy dissipation of material under the load and can characterize material viscoelasticity.
Masad, Surface free energy to identify moisture sensitivity of materials for asphalt mixes, Transportation Research Record: Journal of the Transportation Research Board, No.2126, TRB, National Research Council, Washington D.C., (2007), 37-45
Kim, Air void model for the dynamic modulus, fatigue cracking, and rutting of asphalt concrete, Journal of Materials in Civil Engineering, ASCE,Vol.19, No.10, October 1, (2007), 874-883
Materials Used.
The is related to energy dissipation of material under the load and can characterize material viscoelasticity.
Masad, Surface free energy to identify moisture sensitivity of materials for asphalt mixes, Transportation Research Record: Journal of the Transportation Research Board, No.2126, TRB, National Research Council, Washington D.C., (2007), 37-45
Kim, Air void model for the dynamic modulus, fatigue cracking, and rutting of asphalt concrete, Journal of Materials in Civil Engineering, ASCE,Vol.19, No.10, October 1, (2007), 874-883
Online since: June 2021
Authors: Nguyen Thanh Liem, Nguyen Pham Duy Linh, Nguyen Huy Tung, Bach Trong Phuc
The adhesion ability of two materials is based on the adsorption or the interactions between the molecules.
Experiment Materials.
Bakhshandeh, An investigation of dynamic mechanical, thermal and electrical properties of housing materials for outdoor polymeric insulators, The European Polymer Journal, vol. 40 (11), 2495–2503, 2004
Strathmann, EPDM as a selective membrane material in pervaporation, Journal of Membrane Science, vol. 188 (2), pp. 235–249, 2001
Journal of Adhesion Science and Technology, Vol. 23, 913 – 930, 2009
Experiment Materials.
Bakhshandeh, An investigation of dynamic mechanical, thermal and electrical properties of housing materials for outdoor polymeric insulators, The European Polymer Journal, vol. 40 (11), 2495–2503, 2004
Strathmann, EPDM as a selective membrane material in pervaporation, Journal of Membrane Science, vol. 188 (2), pp. 235–249, 2001
Journal of Adhesion Science and Technology, Vol. 23, 913 – 930, 2009
Online since: August 2017
Authors: Péter Tamás, Béla Illés
Illés: Planning and controlling of material flow systems.
Kemsley: Productivity improvement using simulation modelling and lean tools, International Journal of Engineering Sciences & Research Technology, ISSN: 2277-9655, 2016
Rajenthirakumar: Lean Tools and Techniques Implementation in a Manufacturing Industry, Journal of Applied Sciences Research November 2015
Davim: Gamification in Engineering Education and Professional Training, International Journal of Mechanical Engineering Education, Vol. 43(2), pp. 118-131, 2015.
Ito: Integration of e-learning and simulation to user training programme of SMED, International Journal of Internet Manufacturing and Services, Vol.. 3(2) 2013.
Kemsley: Productivity improvement using simulation modelling and lean tools, International Journal of Engineering Sciences & Research Technology, ISSN: 2277-9655, 2016
Rajenthirakumar: Lean Tools and Techniques Implementation in a Manufacturing Industry, Journal of Applied Sciences Research November 2015
Davim: Gamification in Engineering Education and Professional Training, International Journal of Mechanical Engineering Education, Vol. 43(2), pp. 118-131, 2015.
Ito: Integration of e-learning and simulation to user training programme of SMED, International Journal of Internet Manufacturing and Services, Vol.. 3(2) 2013.
Online since: February 2021
Authors: Sofina Tamam, Muhammad Syafiq Aiman Abd Rahman, Noor Farah Nazirah Norsamsuddin, Nurul Hafizah Muhamad Tajuddin, S.M. Shahrul Nizan Shikh Zahari
The experiments were repeated using the same PVP-materials with different temperatures such as room temperature, 50oC, 80oC and 90oC.
This study demonstrated a significant finding in oil recovery application using PVP-iron magnetic nanocomposites materials.
However, these materials are water soluble that may contaminate the water.
Novel hydrophobic vaterite particles for oil removal and recovery, Journal of Materials Chemistry A, 2(11), pp. 3808-3818, 2015
[4] Valeh S., Elbay, B., Elnara K. & Fail S., Polymer nanocomposites for enhanced oil recovery, Materials today proceeding., S.
This study demonstrated a significant finding in oil recovery application using PVP-iron magnetic nanocomposites materials.
However, these materials are water soluble that may contaminate the water.
Novel hydrophobic vaterite particles for oil removal and recovery, Journal of Materials Chemistry A, 2(11), pp. 3808-3818, 2015
[4] Valeh S., Elbay, B., Elnara K. & Fail S., Polymer nanocomposites for enhanced oil recovery, Materials today proceeding., S.
Online since: August 2017
Authors: Jian Ping Deng, You Ping Wu, Xi De Xu, Jie Liu
The desirable toughness, low toxicity and the promoting effect of cell proliferation made the present hydrogels good candidates for tissue regeneration materials.
1.
Experimental section 2.1 Materials N-isopropylacrylamide (NIPAM) was obtained from Aladdin (China).
All materials’ suspension dilutions were tested for six averages.
Toda, Influence of the molecular-weight distribution of gelatin on emulsion stability, Journal of Colloid and Interface Science, 243 (2001) 476-482
Lobo, Effect of gelatin on rupture and coalescence, Journal of Colloid and Interface Science, 254 (2002) 165-174
Experimental section 2.1 Materials N-isopropylacrylamide (NIPAM) was obtained from Aladdin (China).
All materials’ suspension dilutions were tested for six averages.
Toda, Influence of the molecular-weight distribution of gelatin on emulsion stability, Journal of Colloid and Interface Science, 243 (2001) 476-482
Lobo, Effect of gelatin on rupture and coalescence, Journal of Colloid and Interface Science, 254 (2002) 165-174
Online since: November 2012
Authors: István Kocserha, László A. Gömze, Robert Geber
Mineral materials were prepared on the following methods in all cases.
It can be concluded that the tested fillers are free of contaminants, pure materials.
Therefore, the use of these materials in asphalt mixtures is specifically recommended.
Chen: Rheological properties of asphalt-mineral filler mastics; Journal of Materials, Concrete Structures and Pavements, Vol. 36.
Gömze: Characterization of mineral materials as asphalt fillers; Materials Science Forum, Vol. 659. pp 471-476. (2010) [15] R.
It can be concluded that the tested fillers are free of contaminants, pure materials.
Therefore, the use of these materials in asphalt mixtures is specifically recommended.
Chen: Rheological properties of asphalt-mineral filler mastics; Journal of Materials, Concrete Structures and Pavements, Vol. 36.
Gömze: Characterization of mineral materials as asphalt fillers; Materials Science Forum, Vol. 659. pp 471-476. (2010) [15] R.