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Online since: November 2015
Authors: R. Pramod, G.B. Veeresh Kumar
Properties of Matrix and reinforcement materials.
Increase in hardness results in wear improvement and resistance for seizure of materials [25].
Liang Y N, Ma Z Y, Li S Z, Li S and Bi J, Effect of particle size on wear behaviour of SiC particulate-reinforced aluminum alloy composites, Journal of Materials Science Letters, 14, (1995), 114- 116
Ramesh J N, Prakash A S, Shiva Shankare Gowda and Sonnappa Appaiah, Comparison of the Mechanical Properties of AL6061/Albite and AL6061/Graphite Metal Matrix Composites, Journal of Minerals & Materials Characterization & Engineering (USA), Vol. 8, No.2, (2009), pp 93-106, [14].
C S Ramesh, R Keshavamurthy, BH Channabasappa, Abrar Ahmed, Microstructure and mechanical properties of Ni–P coated Si3N4 reinforced Al6061 composites Materials Science and Engineering A 502 (2008) 99–106
Increase in hardness results in wear improvement and resistance for seizure of materials [25].
Liang Y N, Ma Z Y, Li S Z, Li S and Bi J, Effect of particle size on wear behaviour of SiC particulate-reinforced aluminum alloy composites, Journal of Materials Science Letters, 14, (1995), 114- 116
Ramesh J N, Prakash A S, Shiva Shankare Gowda and Sonnappa Appaiah, Comparison of the Mechanical Properties of AL6061/Albite and AL6061/Graphite Metal Matrix Composites, Journal of Minerals & Materials Characterization & Engineering (USA), Vol. 8, No.2, (2009), pp 93-106, [14].
C S Ramesh, R Keshavamurthy, BH Channabasappa, Abrar Ahmed, Microstructure and mechanical properties of Ni–P coated Si3N4 reinforced Al6061 composites Materials Science and Engineering A 502 (2008) 99–106
Online since: March 2008
Authors: Alexander M. Korsunsky, A.M. Venter, E.C. Oliver, Willem J.J. Vorster, M.W. van der Watt
Burnett, Materials Science and Technology, Vol. 1, (1985) p. 863-871
Beck, Materials Science and Technology, Vol. 1, (1985) p. 805-814
Sjostrom, Materials Science and Technology, Vol. 1, (1985) p. 823-829
Wang, Materials Science and Technology, Vol. 1, (1985) p. 845-850
Singh, Materials Science and Technology, Vol. 20, (2004) p. 1134-1142
Beck, Materials Science and Technology, Vol. 1, (1985) p. 805-814
Sjostrom, Materials Science and Technology, Vol. 1, (1985) p. 823-829
Wang, Materials Science and Technology, Vol. 1, (1985) p. 845-850
Singh, Materials Science and Technology, Vol. 20, (2004) p. 1134-1142
Online since: November 2013
Authors: Ahmad Reza Bahramian, Alireza Sharif, Alireza Hajizadeh
Nanostructured organic materials have received considerable attention over the past decade.
Because of this nano-porosity and structure, these materials have very low fracture energy and could including them as brittle materials.
Because of this nano-porosity and structure, these materials have very low fracture energy and could including them as brittle materials and for a large-scale application of these nanostructure materials, we should solve this problem.
This method is well adapted to the characterization this nanostructure materials.
Ramaswamy, Reactive Compatibilization of a Nitrile Rubber / Phenolic Resin Blend: Effect on Adhesive and Composite Properties, Journal of Applied Polymer Science, 69 ( 1998), 1187–2101 [8] J.P.
Because of this nano-porosity and structure, these materials have very low fracture energy and could including them as brittle materials.
Because of this nano-porosity and structure, these materials have very low fracture energy and could including them as brittle materials and for a large-scale application of these nanostructure materials, we should solve this problem.
This method is well adapted to the characterization this nanostructure materials.
Ramaswamy, Reactive Compatibilization of a Nitrile Rubber / Phenolic Resin Blend: Effect on Adhesive and Composite Properties, Journal of Applied Polymer Science, 69 ( 1998), 1187–2101 [8] J.P.
Online since: December 2013
Authors: Ding Gui Luo, Ren Zhang, Hong Guo Zhang
References
[1] Lili Li, Lingling Chi, Jianyong Yu: submitted to Journal of Shanghai Textile Science & Technology. 2010, (09): 37-38.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
Online since: November 2013
Authors: Mohd Zainizan Sahdan, Kah Yoong Chan, Sharul Ashikin Kamaruddin, Hashim Saim, Siti Nooraya Mohd Tawil, Nafarizal Nayan
Znaidi, Sol–gel-deposited ZnO thin films: A review,Materials Science and Engineering B 174 (2010) 18–30
Caglar, Preparation and characterization of ZnO thin filmsdeposited by sol-gel spin coating method, Journal of Optoelectronics and Advanced Materials, Vol. 10, No. 10, October 2008, p. 2578 – 2583
Searson, Influence of solvent on the growth of ZnO nanoparticles, Journal of Colloid and Interface Science 263 (2003) 454–460
Long, Influence of solvents on the growth of zinc oxide nanoparticles fabricated by microwave irradiation, VNU Journal of Science, Mathematics - Physics 25 (2009) 71-76 [11] J.
Wei, Solvent-induced growth of ZnO particles at low temperature, Materials Letters 62 (2008) 2814–2816
Caglar, Preparation and characterization of ZnO thin filmsdeposited by sol-gel spin coating method, Journal of Optoelectronics and Advanced Materials, Vol. 10, No. 10, October 2008, p. 2578 – 2583
Searson, Influence of solvent on the growth of ZnO nanoparticles, Journal of Colloid and Interface Science 263 (2003) 454–460
Long, Influence of solvents on the growth of zinc oxide nanoparticles fabricated by microwave irradiation, VNU Journal of Science, Mathematics - Physics 25 (2009) 71-76 [11] J.
Wei, Solvent-induced growth of ZnO particles at low temperature, Materials Letters 62 (2008) 2814–2816
Online since: May 2014
Authors: Chun Wang, Yi Feng Zhang
Material and methods
Materials.The main raw material of the plant bowl-seeding tray include rice straw, solid adhesives and other special substances, the seedling tray was made up of straw powder, fertilizer nutrient soil, biological glue and clay.
Preparation Methods of Seedling-Growing Tray Sample. 1 Four kinds of raw materials were weighed by electronic balance according to the needs of the trial design; 2 Raw materials were put in the blender and stired fully, until raw materials are mixed uniformity; 3 A sample of mixed materials was weighed and put in the self-made mold, WES hydraulic universal testing machine was used to press the sample into small round cakes(Fig. 4) with 85mm diameter and 3mm thicknes; 4 Small round cakes were removed from the mold, the sample of bowl seedling tray is completed.
Mill Valley, CA: University Science press
Journal of World Pulp Paper 3: 23-25.
CA: Science Press.
Preparation Methods of Seedling-Growing Tray Sample. 1 Four kinds of raw materials were weighed by electronic balance according to the needs of the trial design; 2 Raw materials were put in the blender and stired fully, until raw materials are mixed uniformity; 3 A sample of mixed materials was weighed and put in the self-made mold, WES hydraulic universal testing machine was used to press the sample into small round cakes(Fig. 4) with 85mm diameter and 3mm thicknes; 4 Small round cakes were removed from the mold, the sample of bowl seedling tray is completed.
Mill Valley, CA: University Science press
Journal of World Pulp Paper 3: 23-25.
CA: Science Press.
Online since: March 2021
Authors: Nur Izyan Wan Azelee, Aizi Nor Mazila Ramli, Rohaida Che Man, Aimi Wahidah Aminan, Sharifah Zafierah Syed Badrulzaman
Materials and Methods
Procurement of feathers.
Cleaning Method by Keratinase Enzyme for Improving Quality Edible Bird Nest, Journal of Life Science Biomedicine. 4 (2014) 416-420
Keratins extracted from Merino wool and Brown Alpaca fibres: Thermal, mechanical and biological properties of PLLA based biocomposites, Materials Science and Engineering C. 47 (2015) 394–406
Fabrication and characterization of chicken feather keratin/polysaccharides blended polymer coated nonwoven dressing materials for wound healing applications, Materials Science & Engineering. 92 (2017) 1-7
Characterization of dehydrated keratin protein extracted from chicken feather, Materials Science and Engineering. 702 (2019) 1-8
Cleaning Method by Keratinase Enzyme for Improving Quality Edible Bird Nest, Journal of Life Science Biomedicine. 4 (2014) 416-420
Keratins extracted from Merino wool and Brown Alpaca fibres: Thermal, mechanical and biological properties of PLLA based biocomposites, Materials Science and Engineering C. 47 (2015) 394–406
Fabrication and characterization of chicken feather keratin/polysaccharides blended polymer coated nonwoven dressing materials for wound healing applications, Materials Science & Engineering. 92 (2017) 1-7
Characterization of dehydrated keratin protein extracted from chicken feather, Materials Science and Engineering. 702 (2019) 1-8
Online since: January 2025
Authors: Harsh Tiwari, Farzan Shahid, Mayank Panwar, Vijay Gautam
LS Dyna allows for precise modeling of the dynamic behavior of various materials under crash conditions, providing valuable insights into how different designs and materials enhance vehicle safety.
Shows the material properties of the materials used.
The Comparative Specific Internal Energies of all the three materials is depicted in table 4.
Continual advancements in materials science, coupled with innovations in vehicle design and safety technology, will drive the next generation of electric vehicle safety enhancements.
International Journal of Crashworthiness
Shows the material properties of the materials used.
The Comparative Specific Internal Energies of all the three materials is depicted in table 4.
Continual advancements in materials science, coupled with innovations in vehicle design and safety technology, will drive the next generation of electric vehicle safety enhancements.
International Journal of Crashworthiness
Online since: June 2014
Authors: Zhi Jian Peng, Lin Feng Lan, Lei Wang, Jun Biao Peng, Ju Sheng Ma, Hong Long Ning
China
3 Department of Materials Science and Engineering School, Tsinghua University, Beijing 10084, P.
Tsao, Microstructural characterization and mechanical properties of microplasma oxidized TiO2/Ti joints soldered using Sn3.5Ag4Ti(Ce) active filler; Journal of Materials Science, Materials in Electronics. 25 (2014) 233-243
Lin, Effect of Brazing Conditions on Microstructure and Mechanical Properties of Al2O3/Ti–6Al–4V Alloy Joints Reinforced by TiB Whiskers, Journal of Materials Science & Technology. 29 (2013) 961-970
Cui, Research of alumina and brazing filler metal interface, Materials Science Forum. 423-425 (2003) 495-500
Lin, Study of the Ti/Al2O3 interface, Journal of Materials Science. 30 (1995) 339-346
Tsao, Microstructural characterization and mechanical properties of microplasma oxidized TiO2/Ti joints soldered using Sn3.5Ag4Ti(Ce) active filler; Journal of Materials Science, Materials in Electronics. 25 (2014) 233-243
Lin, Effect of Brazing Conditions on Microstructure and Mechanical Properties of Al2O3/Ti–6Al–4V Alloy Joints Reinforced by TiB Whiskers, Journal of Materials Science & Technology. 29 (2013) 961-970
Cui, Research of alumina and brazing filler metal interface, Materials Science Forum. 423-425 (2003) 495-500
Lin, Study of the Ti/Al2O3 interface, Journal of Materials Science. 30 (1995) 339-346
Online since: August 2014
Authors: Yong Xiang Huang, Yu Chun Jiang, Yuan Song Zhang
Carbon nanotube(CNT) is a new type of nanoscale materials, which has excellent adsorption and mechanical properties.
Carbon nanotube which found by the Japanese scientist LiJima in 1991, is a new type of nanoscale materials [3].
Experimental Materials Raw materials: silk fiber (Southwest University, Chongqing, China), carbon nanotube (Shenzhen nano harbour Corporation Ltd).
[2] Han Zhang, Jun Magoshi, Mary Beckers, et al: Journal of Applied Polymer Science.
[8] Yudong Xin, Xiaodong Liu: Journal of donghua university of science and technology.
Carbon nanotube which found by the Japanese scientist LiJima in 1991, is a new type of nanoscale materials [3].
Experimental Materials Raw materials: silk fiber (Southwest University, Chongqing, China), carbon nanotube (Shenzhen nano harbour Corporation Ltd).
[2] Han Zhang, Jun Magoshi, Mary Beckers, et al: Journal of Applied Polymer Science.
[8] Yudong Xin, Xiaodong Liu: Journal of donghua university of science and technology.