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Online since: October 2015
Authors: Béla Varga, Mirela Popescu
Harada, Effects of Mechanical Vibration on Cooling Rate and DAS of AC4C Aluminum Alloy Gravity Die Castings, Materials Transactions 50 (2009) 2604-2608
Yokoi, Effects of Mechanical Vibration on Macrostructure and Mechanical Properties of AC4C Aluminum Alloy Castings, Materials Transactions 50 (2009) 2578-2583
Chavez, Study of the Al-Si-X System by Different Cooling Rates and Heat Treatment, Materials Research 15 (2012) 763-769
Male, Silicon morphology modification in the eutectic Al–Si alloy using mechanical mould vibration, Materials Science and Engineering A (2005) 109-117
Burdett, Effect of low frequency vibration on macro and micro structures of LM6 alloys, Journal of Materials Science 35 (2000) 3327-3335
Yokoi, Effects of Mechanical Vibration on Macrostructure and Mechanical Properties of AC4C Aluminum Alloy Castings, Materials Transactions 50 (2009) 2578-2583
Chavez, Study of the Al-Si-X System by Different Cooling Rates and Heat Treatment, Materials Research 15 (2012) 763-769
Male, Silicon morphology modification in the eutectic Al–Si alloy using mechanical mould vibration, Materials Science and Engineering A (2005) 109-117
Burdett, Effect of low frequency vibration on macro and micro structures of LM6 alloys, Journal of Materials Science 35 (2000) 3327-3335
Online since: August 2018
Authors: Mary Donnabelle L. Balela, Nathaniel De Guzman
Balela1,b
1Sustainable Electronic Materials Group, Department of Mining, Metallurgical and Materials Engineering, University of the Philippines, 1101 Diliman, Quezon City, Philippines
antdeguzman15@gmail.com, bmlbalela1@up.edu.ph
Keywords: Silver nanowires, Transparent conducting films, Ethylene glycol, Optical transmittance, Sheet resistance
Abstract.
Introduction Due to the increasing demand in wearable devices and bendable electronics, flexible transparent conductive films (TCFs) have gained significant attention in the past decade. [1] Generally, flexible TCFs consist of substrates and flexible conductive materials.
Moreover, ITO application in flexible devices is limited by its brittleness.[3] At present, metal nanowires [4,5], graphene [6], carbon nanotubes [7], and conductive polymers [8] are the most commonly used conductive materials in flexible TCFs.
Singh, Silver nanowires: A promising transparent conducting electrode material for optoelectronic and electronic applications, Reviews in Advanced Sciences and Engineering, 2 (2013) 1–22,
Balela, Formation of silver nanowires in ethylene glycol for transparent conducting electrodes, Advanced Materials, Structures and Mechanical Engineering. 75 , (2016) 351-354
Introduction Due to the increasing demand in wearable devices and bendable electronics, flexible transparent conductive films (TCFs) have gained significant attention in the past decade. [1] Generally, flexible TCFs consist of substrates and flexible conductive materials.
Moreover, ITO application in flexible devices is limited by its brittleness.[3] At present, metal nanowires [4,5], graphene [6], carbon nanotubes [7], and conductive polymers [8] are the most commonly used conductive materials in flexible TCFs.
Singh, Silver nanowires: A promising transparent conducting electrode material for optoelectronic and electronic applications, Reviews in Advanced Sciences and Engineering, 2 (2013) 1–22,
Balela, Formation of silver nanowires in ethylene glycol for transparent conducting electrodes, Advanced Materials, Structures and Mechanical Engineering. 75 , (2016) 351-354
Online since: May 2013
Authors: Bin Zhang, Qing Liang Zeng, Xian Peng Li, Xing Hua Wang, Zhe Cui
For indirect drying technology, the drying materials and drying medium does not directly contact.
Heat passed to the wet material through the heat transfer solid[3].
For direct drying technology, the material and high temperature drying medium contacted directly.
Heat passed to the wet material by the way of convection,conduction and radiation.
References [1] Liu Yueping: Shanxi Coking Coal Science & Technology Vol.7 (2008), p.41-43 [2] Sun Yinhui,Wet Hongwu: Clean Coal Technology Vol.15 (2009), p.26-28 [3] Meng Tianjun,Zhao Jinkuang,Jia Junlin: Journal of Green Science and Technology Vol.3(2012), p.180-181 [4] Li Hongqin: Coal Technology Vol.22(2003), p.180-180 [5] Jia Guanglin: coal processing and comprehensive utilization Vol.4(1996), p.58-61
Heat passed to the wet material through the heat transfer solid[3].
For direct drying technology, the material and high temperature drying medium contacted directly.
Heat passed to the wet material by the way of convection,conduction and radiation.
References [1] Liu Yueping: Shanxi Coking Coal Science & Technology Vol.7 (2008), p.41-43 [2] Sun Yinhui,Wet Hongwu: Clean Coal Technology Vol.15 (2009), p.26-28 [3] Meng Tianjun,Zhao Jinkuang,Jia Junlin: Journal of Green Science and Technology Vol.3(2012), p.180-181 [4] Li Hongqin: Coal Technology Vol.22(2003), p.180-180 [5] Jia Guanglin: coal processing and comprehensive utilization Vol.4(1996), p.58-61
Online since: June 2014
Authors: Bin Ma, Gui Feng Li, Qian Li, Hong Zhang, Ping Juan Zhao, Hui Wang, Li Gang Deng
Materials and methods
Reagents.
Materials.
Plant material.
Plant material was collected on December 18, 2008 in Weifang City, China.
Min: Chinese Journal of Biochemical Pharmaceutics Vol. 4 (2000), p. 211 (In Chinese)
Materials.
Plant material.
Plant material was collected on December 18, 2008 in Weifang City, China.
Min: Chinese Journal of Biochemical Pharmaceutics Vol. 4 (2000), p. 211 (In Chinese)
Online since: September 2014
Authors: Yuttanant Boonyongmaneerat, Luangvaranunt Tachai, Pongsakorn Jantaratana, Thanakrit Chotibhawaris
Finally, a domain pattern may also influence the coercivity of soft magnetic materials [21].
Lee: NanoStructured Materials Vol. 11 (1999), p. 259 [7] B.
Cullity: Introduction to magnetic materials, A John Wiley & Sons (2009) [12] J.B.
Kodama: Magnetism and Magnetic Materials Vol. 200 (1999), p. 459 [14] S.
Xu: Materials Characterization Vol. 48 (2002), p. 153 [22] T.
Lee: NanoStructured Materials Vol. 11 (1999), p. 259 [7] B.
Cullity: Introduction to magnetic materials, A John Wiley & Sons (2009) [12] J.B.
Kodama: Magnetism and Magnetic Materials Vol. 200 (1999), p. 459 [14] S.
Xu: Materials Characterization Vol. 48 (2002), p. 153 [22] T.
Online since: September 2017
Authors: Tibor Krenický, Štefánia Olejárová
When processing materials using the milling technology, regenerative fluctuations of vibrations are the decisive factors, which limit productivity.
Jančík, Evaluation of Vibration Parameters under Machining, Key Engineering Materials 663 (2016) 228-234
Maščenik, Abrasive granularity impact on water jet technology head vibrations during cutting steel, Applied Mechanics and Materials 389 (2013) 304-309
Adamčík, Vibration of worm gear boxes, Applied Mechanics and Materials 308 (2013) 45-49
Journal of Production Engineering 17/2 (2014) 21-25
Jančík, Evaluation of Vibration Parameters under Machining, Key Engineering Materials 663 (2016) 228-234
Maščenik, Abrasive granularity impact on water jet technology head vibrations during cutting steel, Applied Mechanics and Materials 389 (2013) 304-309
Adamčík, Vibration of worm gear boxes, Applied Mechanics and Materials 308 (2013) 45-49
Journal of Production Engineering 17/2 (2014) 21-25
Online since: June 2013
Authors: Xue Feng Xu, Ji Ju Guan, Guo Wei Ma, Zhong Ya Li, Yi Shen Huang
With butyl stearate (BS) as the core material and melamine-formaldehyde resin (MF) as the wall material, BS-MF resin microcapsules were synthesized under in situ polymerization method.
MF resin is a material commonly used in industry.
Acknowledgement The paper was supported by National Nature Science Foundation of China No. 51075366 and Natural Science Foundation of Zhejiang province No.Y1100935 and The Foundation of the Office of Education in Zhejiang Province No.Y201018486.
Materials Review, 2009, 23(5): 42-44
Journal of Nanjing Normal University(Engineering and Technology Edition) , 2005:5(2), 54-57
MF resin is a material commonly used in industry.
Acknowledgement The paper was supported by National Nature Science Foundation of China No. 51075366 and Natural Science Foundation of Zhejiang province No.Y1100935 and The Foundation of the Office of Education in Zhejiang Province No.Y201018486.
Materials Review, 2009, 23(5): 42-44
Journal of Nanjing Normal University(Engineering and Technology Edition) , 2005:5(2), 54-57
Online since: January 2012
Authors: I. Othman, A. M. Saman, M. A. Ali, A.R. Omar, Halim Isa
Workers arrange the metal stamped parts in standing position and awkward working posture
In the handwork section, workers used a hand held grinder to remove excessive materials on the product surface.
Acknowledgment The authors would like to acknowledge the Ministry of Higher Education of Malaysia, the Universiti Teknikal Malaysia Melaka, the Ministry of Science, Technology and Innovation (MOSTI) of Malaysia for funding this research under e-Science Research Grant, the Faculty of Mechanical Engineering of Universiti Teknologi MARA and Research Management Institute (RMI) of Universiti Teknologi MARA for providing facilities and assistance in conducting this study.
Regulapati, "Comparing dynamic and stationary standing postures in an assembly task," International Journal of Industrial Ergonomics, vol. 39, pp. 649-654, 2009
Rosati, "Chronic venous disorders and occupation," American Journal of Industrial Medicine, vol. 36, pp. 653-665, 1999
Laurig, "Electromyographical indication of muscular fatigue in occupational field studies," International Journal of Industrial Ergonomics, vol. 25, pp. 645-660, 2000
Acknowledgment The authors would like to acknowledge the Ministry of Higher Education of Malaysia, the Universiti Teknikal Malaysia Melaka, the Ministry of Science, Technology and Innovation (MOSTI) of Malaysia for funding this research under e-Science Research Grant, the Faculty of Mechanical Engineering of Universiti Teknologi MARA and Research Management Institute (RMI) of Universiti Teknologi MARA for providing facilities and assistance in conducting this study.
Regulapati, "Comparing dynamic and stationary standing postures in an assembly task," International Journal of Industrial Ergonomics, vol. 39, pp. 649-654, 2009
Rosati, "Chronic venous disorders and occupation," American Journal of Industrial Medicine, vol. 36, pp. 653-665, 1999
Laurig, "Electromyographical indication of muscular fatigue in occupational field studies," International Journal of Industrial Ergonomics, vol. 25, pp. 645-660, 2000
Online since: August 2012
Authors: Qun Yi Liu, Hai Bo Zhang
Usually, a failure criterion is assumed to be a fixed, limiting stress condition that corresponds to ultimate failure of the material.
It is not meaningful to speak of a “dilation angle” for a material when its confining stress is low or tensile, because the mode of failure is typically by axial splitting, not shearing.
One element in slope is chosen, The material parameters D, GSI and σci are varied to analyze their effect to Fp, shown in Fig.2.
Advanced Materials Research, 243-249(2011) 3315-3318
International Journal of Rock Mechanics and Mining Sciences, 36(1999) 777-809
It is not meaningful to speak of a “dilation angle” for a material when its confining stress is low or tensile, because the mode of failure is typically by axial splitting, not shearing.
One element in slope is chosen, The material parameters D, GSI and σci are varied to analyze their effect to Fp, shown in Fig.2.
Advanced Materials Research, 243-249(2011) 3315-3318
International Journal of Rock Mechanics and Mining Sciences, 36(1999) 777-809
Online since: January 2012
Authors: Yi Shan, Lu Yang Shan
Both tensile and compressive stress magnitude of each case is under the material strength F1t (F1c) in Table 1.
All the values are within the range of correspondent material strength.
Acknowledgements This work was financially supported by the China Natural Science Foundation (50808161), and Zhejiang Natural Science Foundation (Y1110366).
Journal of Composite for Construction, ASCE, pp.73-87, 2002
Mechanics of Composite Materials.
All the values are within the range of correspondent material strength.
Acknowledgements This work was financially supported by the China Natural Science Foundation (50808161), and Zhejiang Natural Science Foundation (Y1110366).
Journal of Composite for Construction, ASCE, pp.73-87, 2002
Mechanics of Composite Materials.