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Online since: September 2016
Authors: P. Sangaravadivel, N. Natarajan, V. Krishnaraj
[7] S C.Sharma, B M.Girish, Rathnakar Kamathm, B M Satish, An Evaluation of the Sliding Wear behaviour of SiC Particles Reinforced Copper Alloy Composite materials, Journal of Material Processing Technology, 2001, Vol 118, No 1-3, pp. 65-68
[8] M N Safonova, P P Tarasov, A S Syromyatnikova, and A A Fedotov, Effect of Nano dispersed diamond additions on properties of composite materials based on bronze, Material Science and Heat Treatment, 2013, No .5, pp 229-231
[9] N G Baranov, Structure and Tribological Characteristics of Copper-Tungsten Disulfide Powder Composite Material Institute of Material Science Problems, Academy of Sciences of the Ukrainian SSR, Kiev.
[14] J Hashim, L Looney, M S J Hashmi, Metal matrix composites: production by the stir casting method, Journal of Materials Processing Technology, 1999, No. 92-93.
[16] R S Rana, R Purohit, A K Sharma, S Rana, Optimization of Wear Performance of Aa 5083/10 Wt. % SiCp Composites Using Taguchi Method, Procedia Materials Science, 2014, Vol 6, pp 503-511
[8] M N Safonova, P P Tarasov, A S Syromyatnikova, and A A Fedotov, Effect of Nano dispersed diamond additions on properties of composite materials based on bronze, Material Science and Heat Treatment, 2013, No .5, pp 229-231
[9] N G Baranov, Structure and Tribological Characteristics of Copper-Tungsten Disulfide Powder Composite Material Institute of Material Science Problems, Academy of Sciences of the Ukrainian SSR, Kiev.
[14] J Hashim, L Looney, M S J Hashmi, Metal matrix composites: production by the stir casting method, Journal of Materials Processing Technology, 1999, No. 92-93.
[16] R S Rana, R Purohit, A K Sharma, S Rana, Optimization of Wear Performance of Aa 5083/10 Wt. % SiCp Composites Using Taguchi Method, Procedia Materials Science, 2014, Vol 6, pp 503-511
Online since: September 2017
Authors: Zhi Yuan Yu, Wei Cao, Xin Mei Wang, Zhu Feng Yue
Materials Science and Engineering: A. 527(16) (2010) 4458-4465
Materials Science and Technology. 25(2) (2009) 205-212
Journal of nuclear materials. 395(1) (2009) 120-130
Materials Science & Engineering A. 279(1–2) (2000) 160-165
Materials Science & Engineering A. 272(2) (1999) 398-409
Materials Science and Technology. 25(2) (2009) 205-212
Journal of nuclear materials. 395(1) (2009) 120-130
Materials Science & Engineering A. 279(1–2) (2000) 160-165
Materials Science & Engineering A. 272(2) (1999) 398-409
Online since: March 2015
Authors: Jian Ping Wang, Fa Qin Dong, Qiong Fang Li, Xin He, Wei Zhang, Li Jun Yang, Wen Jing Zhang
Materials and methods
All solutions used in these experiments were prepared from AR analytical reagent grade and ultrapure water.
Preparation of albite Albite (GBW 03134), was purchased in national building materials testing center.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (41130746), Doctoral Fund of Southwest University of Science and Technology (11ZX7105), National Natural Science Foundation of China (41472309) and Postgraduate Innovation Fund Project by Southwest University of Science and Technology (14ycx076).
Journal of Colloid and Interface Science, Vol. 290(2) (2005), p. 481-488 [9] R.
International Journal of Mineral Processing, Vol. 86(1-4) (2008), p. 68-74 [12] Shengping Liu.
Preparation of albite Albite (GBW 03134), was purchased in national building materials testing center.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (41130746), Doctoral Fund of Southwest University of Science and Technology (11ZX7105), National Natural Science Foundation of China (41472309) and Postgraduate Innovation Fund Project by Southwest University of Science and Technology (14ycx076).
Journal of Colloid and Interface Science, Vol. 290(2) (2005), p. 481-488 [9] R.
International Journal of Mineral Processing, Vol. 86(1-4) (2008), p. 68-74 [12] Shengping Liu.
Online since: February 2017
Authors: Elena Felicia Beznea, Ionel Chirica, Ionel Iacob
Introduction
Composite materials are becoming more and more used for all kinds of purposes and one important aspect that needs to be better understood is their fatigue behavior.
The composite materials have a more complex behavior under fatigue loading.
International Journal of Fatigue 29 (2007), 158-167
Miner, Cumulative damage in fatigue, Journal of Applied.
Szekrenyes, Analysis of classical and first-order shear deformable cracked orthotropic plates, Journal of Composite Materials 48, 12, 1441, 2014
The composite materials have a more complex behavior under fatigue loading.
International Journal of Fatigue 29 (2007), 158-167
Miner, Cumulative damage in fatigue, Journal of Applied.
Szekrenyes, Analysis of classical and first-order shear deformable cracked orthotropic plates, Journal of Composite Materials 48, 12, 1441, 2014
Online since: January 2012
Authors: Leszek Adam Dobrzański, Aleksandra Drygała
Laser technology is one of the most versatile techniques used in a variety of materials processing for wide range of materials.
Dutkiewicz: Texturization of multicrystalline silicon by wet chemical etching for silicon solar cells, Journal of Materials Science, Vol.40, No 6, (2004), p. 1459 - 1463
Chibani: Characterization of texture surface for solar cells, Journal of Applied Science, Vol. 10 (3) (2010), p. 231 - 234
Zięba: Laser surface treatment of multicrystalline silicon for enhancing optical properties, Journal of Materials Processing Technology, 201 (2008), p. 291 - 296
Drygała: Laser processing of multicrystalline silicon for texturization of solar cells, Journal of Materials Processing Technology, 191 (2007), p. 228 - 231
Dutkiewicz: Texturization of multicrystalline silicon by wet chemical etching for silicon solar cells, Journal of Materials Science, Vol.40, No 6, (2004), p. 1459 - 1463
Chibani: Characterization of texture surface for solar cells, Journal of Applied Science, Vol. 10 (3) (2010), p. 231 - 234
Zięba: Laser surface treatment of multicrystalline silicon for enhancing optical properties, Journal of Materials Processing Technology, 201 (2008), p. 291 - 296
Drygała: Laser processing of multicrystalline silicon for texturization of solar cells, Journal of Materials Processing Technology, 191 (2007), p. 228 - 231
Online since: August 2018
Authors: Yuan Hua Lin, M.H. Xu, Ming Rui Tang, Yong Yun Gang, Li Na Qiao
Xu1 and Yuan-Hua Lin1,b*
1State Key Laboratory of New Ceramics and Fine Processing, School of Materials Science and Engineering, Tsinghua University, Beijing 100084, P.R.China
2The Experimental High School Attached to Beijing Normal University, Beijing 100032, P.R.
[2] Zhao, Y.; Burda, C., Development of plasmonic semiconductor nanomaterials with copper chalcogenides for a future with sustainable energy materials.
Energy & Environmental Science. 5 (2) (2012) 5564-5576
Nature materials. 12 (6) (2013) 512-517
Applied Surface Science. 257 (20) (2011) 8732-8736
[2] Zhao, Y.; Burda, C., Development of plasmonic semiconductor nanomaterials with copper chalcogenides for a future with sustainable energy materials.
Energy & Environmental Science. 5 (2) (2012) 5564-5576
Nature materials. 12 (6) (2013) 512-517
Applied Surface Science. 257 (20) (2011) 8732-8736
Online since: April 2024
Authors: Amogh Sambare, Mahendra Shirsat, Ramkisan Pawar
Journal of Hazardous Materials 419 (2021): 126414–126414.
Journal of Hazardous Materials 419 (2021): 126414–126414.
Journal of Electronic Materials 46, no. 4 (2017): 2476–82. https://doi.org/10.1007/S11664-017-5316-0
Computational Materials Science 95 (2014): 181–86. https://doi.org/10.1016/J.COMMATSCI.2014.07.042
Journal of Electronic Materials, 46(7), 4140–4146, (2017). https://doi.org/10.1007/S11664-017-5352-9
Journal of Hazardous Materials 419 (2021): 126414–126414.
Journal of Electronic Materials 46, no. 4 (2017): 2476–82. https://doi.org/10.1007/S11664-017-5316-0
Computational Materials Science 95 (2014): 181–86. https://doi.org/10.1016/J.COMMATSCI.2014.07.042
Journal of Electronic Materials, 46(7), 4140–4146, (2017). https://doi.org/10.1007/S11664-017-5352-9
Online since: September 2017
Authors: Aminu Ishaka, Maznah Ismail, Mustapha Umar Imam, Rozi Mahmud, Ismaila Muhammad Sani, Zuki Abu Bakar Zakaria
Materials and Methods
Materials
Rice bran was obtained from the Bernas milling factory at Kuala Selangor, Selangor Malaysia.
Journal of animal science, 2005. 83(11): 2509-2518
Journal of pharmaceutical sciences, 1990. 79(7): 592-594
Brazilian Journal of Pharmaceutical Sciences. 2009. 45(4) : 759-766
Journal of Materials Chemistry B, 2013. 1(23): 2985-2992
Journal of animal science, 2005. 83(11): 2509-2518
Journal of pharmaceutical sciences, 1990. 79(7): 592-594
Brazilian Journal of Pharmaceutical Sciences. 2009. 45(4) : 759-766
Journal of Materials Chemistry B, 2013. 1(23): 2985-2992
Online since: September 2013
Authors: Rachmat Andika, Muhammad Hikam
Recent Development in Ferroelectric Smart Materials.
Journal Material Letters 56, 933-940, (2002)
Journal of Material Science: Materials In Electronics 13, (2002)
Journal Material Science Engenering, (2012)
Journal Material Letters 82, 205-207, (2012)
Journal Material Letters 56, 933-940, (2002)
Journal of Material Science: Materials In Electronics 13, (2002)
Journal Material Science Engenering, (2012)
Journal Material Letters 82, 205-207, (2012)
Online since: February 2014
Authors: You Guo Li
Yarn material is modeled as Kelvin element.
The yarn material model as the Kelvin is considered.
Journal of Sound and Vibration. 2007, 299(1-2): 348-354
Journal of Sound and Vibration. 2005, 284(3-5): 879-891
Journal of Sound &Vibration. 1997, 203(5): 815-832
The yarn material model as the Kelvin is considered.
Journal of Sound and Vibration. 2007, 299(1-2): 348-354
Journal of Sound and Vibration. 2005, 284(3-5): 879-891
Journal of Sound &Vibration. 1997, 203(5): 815-832