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Online since: December 2009
Authors: Ehsan Mahdavi, Mahmoud Mosavi Mashhadi
After piling up in materials, the molecular form is reconstructed and causes
increased stress [1].
To some extent, materials science, and in-depth experimental mechanical studies of microstructure, reveal the processes and mechanisms of diffusion with regard to degradation and embrittlement and fracture, but not completely [25, 26].
Bohmert, Influence of hydrogen on toughness of irradiated reactor pressure vessel steels, Journal of Nuclear Materials, 2006, 359, 114-21 [5] A.
Anzai, Modeling of hydrogen distribution at a crack tip, Materials Science and Engineering, 1996, 206, 1-13 [8] J.
Louthan, Hydrogen embrittlement of metals: a primer for the failure analyst materials science and technology, Savannah River National Laboratory, Aiken, South Carolina 29808 [27] U.
To some extent, materials science, and in-depth experimental mechanical studies of microstructure, reveal the processes and mechanisms of diffusion with regard to degradation and embrittlement and fracture, but not completely [25, 26].
Bohmert, Influence of hydrogen on toughness of irradiated reactor pressure vessel steels, Journal of Nuclear Materials, 2006, 359, 114-21 [5] A.
Anzai, Modeling of hydrogen distribution at a crack tip, Materials Science and Engineering, 1996, 206, 1-13 [8] J.
Louthan, Hydrogen embrittlement of metals: a primer for the failure analyst materials science and technology, Savannah River National Laboratory, Aiken, South Carolina 29808 [27] U.
Online since: June 2013
Authors: Yuan Ming Wang, Lan Ming Zhao, Yong Ming Zhang, Heng Ze Zhao
Table 1 shows the thermodynamic parameter of this material.
Width effect on upward flame spread, Fire Safety Journal, 2009, 44 (7) :962-967
Kuwait Journal of Science & Engineering, 2009, 36(2):183-200
Fire Safety Journal, 2012, 51,120-125
Fire Science, 2000,9(1):8-12.
Width effect on upward flame spread, Fire Safety Journal, 2009, 44 (7) :962-967
Kuwait Journal of Science & Engineering, 2009, 36(2):183-200
Fire Safety Journal, 2012, 51,120-125
Fire Science, 2000,9(1):8-12.
Online since: December 2012
Authors: Jun Cheng, Ya Dong Gong, Zhi Zheng Wu, Xu Qiang Yan, Wei Sheng Zheng
This paper presents a micro-grinding experiment on soda-lime glass to study the surface quality effective factors during micro grinding on hard brittle materials.
Asma Perveen[8] focus on poly crystalline diamond (PCD) tool and its behavior in micro-grinding process of brittle materials.
Journal of Materials Processing Technology 209 (2009) 4698–4703 [3] J.C.
Micro grinding tool for manufacture of complex structures in brittle materials Original Research Article.
Journal of Materials Processing Technology.Volume: 212 Issue: 3 (2012-03) Page: 580-593 [9] Grinding Technology Theory and Applications of Machining with Abrasives.
Asma Perveen[8] focus on poly crystalline diamond (PCD) tool and its behavior in micro-grinding process of brittle materials.
Journal of Materials Processing Technology 209 (2009) 4698–4703 [3] J.C.
Micro grinding tool for manufacture of complex structures in brittle materials Original Research Article.
Journal of Materials Processing Technology.Volume: 212 Issue: 3 (2012-03) Page: 580-593 [9] Grinding Technology Theory and Applications of Machining with Abrasives.
Online since: June 2021
Authors: Yu Zhang, Xiao Chen Zhang, Yan Chun Li, Mei Hui Song, Jin Hua Cao, Yan Li
Heat capacity characterizes the heat storage capacity of materials.
Materials, 2018, 11(4): 600
Materials Science & Engineering A, 2016, 654: 124-130
Materials Science & Engineering A, 2018, 713: 269-277
Materials Science & Engineering A, 2015, 642: 1-6
Materials, 2018, 11(4): 600
Materials Science & Engineering A, 2016, 654: 124-130
Materials Science & Engineering A, 2018, 713: 269-277
Materials Science & Engineering A, 2015, 642: 1-6
Online since: March 2017
Authors: Adrian Alexandru Şerbănoiu, Costel Cadere, Catalina Mihaela Helepciuc, Marinela Barbuta
The wastes are investigated as materials for obtaining new concretes with different applications.
A lot of types of wastes resulted as by-products, such as silica fume [1,2,3], fly ash [4,5,6], ground granulated blast furnace [7,8] , slag [9] or resulted from natural rocks (quarry wastes) [10,11] are used in building material industry for obtaining new materials or for improving the characteristics of the existing ones.
Materials The polymer concrete was obtained with epoxy resin type Ropoxid, a Romanian product which in combination with hardener type Romamid was the binder of the aggregates.
Bucur-Agroecology, Chapter 3, Wastes in Building Materials Industry, INTECH, Croatia, ISBN 978-953-51-2130-5 (2015) 81-99
Venkata Reddy, Mix Design of High Performance Concrete Using Silica Fume and Superplasticizer, International Journal of Innovative Research in Science, Engineering and Technology 3(3) (2014) 10735–10743
A lot of types of wastes resulted as by-products, such as silica fume [1,2,3], fly ash [4,5,6], ground granulated blast furnace [7,8] , slag [9] or resulted from natural rocks (quarry wastes) [10,11] are used in building material industry for obtaining new materials or for improving the characteristics of the existing ones.
Materials The polymer concrete was obtained with epoxy resin type Ropoxid, a Romanian product which in combination with hardener type Romamid was the binder of the aggregates.
Bucur-Agroecology, Chapter 3, Wastes in Building Materials Industry, INTECH, Croatia, ISBN 978-953-51-2130-5 (2015) 81-99
Venkata Reddy, Mix Design of High Performance Concrete Using Silica Fume and Superplasticizer, International Journal of Innovative Research in Science, Engineering and Technology 3(3) (2014) 10735–10743
Online since: October 2010
Authors: Lalgudi Venkataraman Ramanathan, Olandir Vercino Correa, Nelson B. Lima, C.A. Cunha, A.G.F. Padial
INTRODUCTION
In most engineering fields there is increasing demand for materials with enhanced physical properties.
MATERIALS AND METHODS Cr3C2-X(Ni20Cr) powders were milled in a high energy mill (ZOZ).
Nanostructured Materials. 1998; 10: 1271-1283. 4.
Nanostructured coatings, Materials Science and Engineering. 2002; A336: 274-319. 5.
Effect of high energy milling parameters on nanostructured Cr3C2-Ni20Cr powder characteristics, Materials Science Forum – Vols. 591-593 (2008) pp 282-288. 6.
MATERIALS AND METHODS Cr3C2-X(Ni20Cr) powders were milled in a high energy mill (ZOZ).
Nanostructured Materials. 1998; 10: 1271-1283. 4.
Nanostructured coatings, Materials Science and Engineering. 2002; A336: 274-319. 5.
Effect of high energy milling parameters on nanostructured Cr3C2-Ni20Cr powder characteristics, Materials Science Forum – Vols. 591-593 (2008) pp 282-288. 6.
Online since: September 2013
Authors: Ying Juan Li, Li Chun Liu, Bin Yang, Wu Di Zhang, Fang Yin, Ling Xu, Xing Ling Zhao, Jing Liu, Yu Bao Chen, Shi Qing Liu
Materials and Methods
Materials.
The rate of rabbit dung is a little higher than the carbon abundance materials such as corncob and the wheat straw.
Chinese Journal of Rabbit Farming.
African Journal of Science and Technology.
Journal of Agricultural Mechanization Research.
The rate of rabbit dung is a little higher than the carbon abundance materials such as corncob and the wheat straw.
Chinese Journal of Rabbit Farming.
African Journal of Science and Technology.
Journal of Agricultural Mechanization Research.
Online since: October 2010
Authors: Hong Xin Wang, Zheng Xiang Xue, Mei Hong Wei, Min Li, Deng-Long Chen
Compared with the control, the extract fluid of materials culturing the NIH-3T3 cells was not apparently different.
The basic characteristic for tissue engineering materials is cell compatibility.
Development on biomedical polymer materials of blood compatibility.
J Hulunbeier College 1998;6(2): 56-8 [3] Chen BL.Study on the cell compatibility of tissue engineering materials (I)-cell compatibility materials.
Journal of Fujian Normal University (Natural Science Edition), 2007;23(5):80-84 [23] Lee MH, Lee HW, Park JH,et,al..
The basic characteristic for tissue engineering materials is cell compatibility.
Development on biomedical polymer materials of blood compatibility.
J Hulunbeier College 1998;6(2): 56-8 [3] Chen BL.Study on the cell compatibility of tissue engineering materials (I)-cell compatibility materials.
Journal of Fujian Normal University (Natural Science Edition), 2007;23(5):80-84 [23] Lee MH, Lee HW, Park JH,et,al..
Online since: January 2025
Authors: Yusuf Şahin
Blue, “ The importance of carbon fiber to polymer additive manufacturing,” Journal of Materials Research, 29 (17) (2014) 1893–1898. https://doi.org/10.1557/jmr.2014.212
Hatakeyama, “Crystallization of carbon fiber reinforced polypropylene,” Journal of Materials Science, 25 (7) (1990) 3380-3384
Series: Materials Science and Engineering, 402 (2018) 012136. https://doi.org/10.1088/1757-899X/402/1/012136
Series: Materials Science and Engineering, 1118 (2021) 012035. https:// doi.org/10.1088/1757-899X/1118/1/012035
Warrior, “Fiber alignment in directed carbon fiber preforms – A feasibility study,” Journal of Composite Materials, 43 (1) (2009) 57-74
Hatakeyama, “Crystallization of carbon fiber reinforced polypropylene,” Journal of Materials Science, 25 (7) (1990) 3380-3384
Series: Materials Science and Engineering, 402 (2018) 012136. https://doi.org/10.1088/1757-899X/402/1/012136
Series: Materials Science and Engineering, 1118 (2021) 012035. https:// doi.org/10.1088/1757-899X/1118/1/012035
Warrior, “Fiber alignment in directed carbon fiber preforms – A feasibility study,” Journal of Composite Materials, 43 (1) (2009) 57-74
Online since: May 2011
Authors: Bao Yu Wang, Zheng Huan Hu, Ning Zhang
You et.al: Materials Science Forum Vols.475-479(2005), p. 3003-3006
Zhuang et.al: Journal of Materials Processing Technology Vol. 70(1997), p. 252-257
Zhen et.al: Materials Science Forum Vols. 546-549(2007), p. 1297-1300
Du et.al: Materials Science and Engineering A.
Du: Journal of Materials Processing Technology Vol. 172(2006), p. 202-207
Zhuang et.al: Journal of Materials Processing Technology Vol. 70(1997), p. 252-257
Zhen et.al: Materials Science Forum Vols. 546-549(2007), p. 1297-1300
Du et.al: Materials Science and Engineering A.
Du: Journal of Materials Processing Technology Vol. 172(2006), p. 202-207