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Online since: May 2024
Authors: William Haupt, Alexandre Pereira Dall'Oglio, Regis Gonçalves e Silva, Kaue Riffel
Journal of materials engineering and performance, v. 13, p. 237-240, 2004
Materials Science and Engineering: A, v. 658, p. 255-262, 2016
Materials Science and Technology, v. 9, n. 7, p. 545-554, 1993
Journal of materials engineering and performance, v. 13, p. 237-240, 2004
Materials Science and Engineering: R: Reports, v. 65, n. 4-6, p. 39-104, 2009.
Materials Science and Engineering: A, v. 658, p. 255-262, 2016
Materials Science and Technology, v. 9, n. 7, p. 545-554, 1993
Journal of materials engineering and performance, v. 13, p. 237-240, 2004
Materials Science and Engineering: R: Reports, v. 65, n. 4-6, p. 39-104, 2009.
Online since: September 2017
Authors: I.R. Kuzeev, E.V. Poyarkova
Thus, the extension of available results to the structurally heterogeneous materials and especially to the welded joints of such materials turned out to be a very difficult task.
Introduction Materials and study methodology.
Bunin, Synergetics and fractals in materials science, Moscow, (1994) [6] V.S.
Pimenov, Fractal parametrization of structures in radiation materials science.
Bunin, Introduction to the multifractal parametrization of materials structures.
Introduction Materials and study methodology.
Bunin, Synergetics and fractals in materials science, Moscow, (1994) [6] V.S.
Pimenov, Fractal parametrization of structures in radiation materials science.
Bunin, Introduction to the multifractal parametrization of materials structures.
Online since: October 2011
Authors: Wei Peng, Chun Yan Yao, Qiao Fang Zhang, Jin Sheng Wang, Zhong Hua Xu, Ming Huang Wang
According to the bonding material kinds of diamond wire saw, there are three basic categories: metallic bonding materials, organic bonding materials and resin bonding materials.
The material of core wire is high-strength polymer materials.
Journal: Materials Science Forum, Vols.471-472(2004), pp.481-484 [8] K.
Yao: Key Engineering Materials, Vol.304-305(2006), pp.71-75 [14] W.
Yilmazkaya, International Journal of Rock Mechanics and Mining Sciences, 48(2011), pp. 626-636
The material of core wire is high-strength polymer materials.
Journal: Materials Science Forum, Vols.471-472(2004), pp.481-484 [8] K.
Yao: Key Engineering Materials, Vol.304-305(2006), pp.71-75 [14] W.
Yilmazkaya, International Journal of Rock Mechanics and Mining Sciences, 48(2011), pp. 626-636
Correlation of Magnetic Barkhausen Noise with Microstructure in the In-Depth Direction of a Railhead
Online since: April 2014
Authors: Charalampos Sokos
Hristoforou for the helpful discussions and advice on the subject of magnetism, magnetic materials and miss X.Vourna for the valuable contribution.
The authors would like to thank Institute of Materials Science (IMS) of the National Center for Scientific Research "Demokritos“ for their support with experiments and theoretical questions.
Hristoforou, Non-destructive evaluation of magnetic metallic materials using Hall sensors, Journal of Materials Processing technology, 161, p. 359-362, 2005 [6] K.
Ktena, Magnetostriction and magnetostrictive materials for sensing applications, J.
Hristoforou, Investigation of magnetic, mechanical and microfailure behavior of ARMCO - type low carbon steel corroded in 3.5% NaCl - aqueous solution, Materials Science and Engineering A, MSEA-D-13-00774, accepted 2013 [14] L.
The authors would like to thank Institute of Materials Science (IMS) of the National Center for Scientific Research "Demokritos“ for their support with experiments and theoretical questions.
Hristoforou, Non-destructive evaluation of magnetic metallic materials using Hall sensors, Journal of Materials Processing technology, 161, p. 359-362, 2005 [6] K.
Ktena, Magnetostriction and magnetostrictive materials for sensing applications, J.
Hristoforou, Investigation of magnetic, mechanical and microfailure behavior of ARMCO - type low carbon steel corroded in 3.5% NaCl - aqueous solution, Materials Science and Engineering A, MSEA-D-13-00774, accepted 2013 [14] L.
Online since: December 2014
Authors: De Yi Zheng, Shun Min Hu, Gui Gui Peng
The research on the (1-x) PZT-x PMN piezoelectric materials
Guigui Peng1, a, Shunmin Hu1, b, Deyi Zheng2,3, c
1 Guizhou University, Guizhou Province, China
2Northeastern University,LiaoNing Province,China
3China Zhenhua(GROUP) Science & Technology CO.
Conclusions: In this paper, the influences of the ratio of PMN amounts on the electric properties of the PMNZT materials have been investigated.
Through adjust the ratios of the PMN amounts, the grains size of the PMNZT materials will become fine and the porosity inside the bulk material will decrease.
Lee, in: The piezoelectric properties and the stability of the resonant frequency in Mn–Cr Co-doped PSZT ceramics, Journal of Materials Science: Materials in Electronics Vol. 10-2 (1999), p. 81 [6] BOUTARFAIA A.
Journal of Functional materials [J],1996, 27(3):261
Conclusions: In this paper, the influences of the ratio of PMN amounts on the electric properties of the PMNZT materials have been investigated.
Through adjust the ratios of the PMN amounts, the grains size of the PMNZT materials will become fine and the porosity inside the bulk material will decrease.
Lee, in: The piezoelectric properties and the stability of the resonant frequency in Mn–Cr Co-doped PSZT ceramics, Journal of Materials Science: Materials in Electronics Vol. 10-2 (1999), p. 81 [6] BOUTARFAIA A.
Journal of Functional materials [J],1996, 27(3):261
Online since: October 2015
Authors: Jayantha Ananda Epaarachchi, Md. Mainul Islam, Zulzamri Salleh
Shunmugasamy: Materials Science and Engineering A Vol. 528 (2011), p.7596 - 7605
Kumar: Materials and Design Vol. 32 (2011), p.4152 - 4263
Ninan: Journal Material Science Vol. 42(14) (2007), p. 5398–5405
Dodiuk: Journal Applied Polymer Science Vol. 69(11) (1998), p.2229–2234
Froud Reed: Journal Material Science Engineering A Vol. 515 (2009), p. 19–25
Kumar: Materials and Design Vol. 32 (2011), p.4152 - 4263
Ninan: Journal Material Science Vol. 42(14) (2007), p. 5398–5405
Dodiuk: Journal Applied Polymer Science Vol. 69(11) (1998), p.2229–2234
Froud Reed: Journal Material Science Engineering A Vol. 515 (2009), p. 19–25
Online since: June 2013
Authors: Shu Kui Li, Ying Chun Wang, Zhi Yu Hu, Usman Zahid, Abdul Rehman Niazi
Acknowledgements
This work was supported in part by the National Key Laboratory of Science and Technology on Materials under Shock and Impact under funding No. 9140A13060110BQ03
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Online since: December 2012
Authors: Hector Basoalto, Paul L. Blackwell
The conventional consensus has it that the magnitude of the strain rate sensitivity observed in superplastic materials is linked with grain boundary sliding.
For materials to be superplastic i.e. to exhibit high elongations (>200%) in tension, m values of 0.5 or above are generally required.
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For materials to be superplastic i.e. to exhibit high elongations (>200%) in tension, m values of 0.5 or above are generally required.
Ti-2007 Science and Technology.
Brooks and Di Martino, I., Multi-Scale Microstructure Modelling for Nickel-Based Superalloys, Journal Materials Science and Technology, Vol. 25, 2, pp221-227 (2009)
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Online since: September 2020
Authors: Lkhagvajav Sarantuya, Galsan Sevjidsuren, Pagvajav Altantsog, Namsrai Tsogbadrakh
Li, Recent developments in the doped-Li4Ti5O12anode materials of Lithium-ion batteries fir improving the rate capability, International Journal of Electrochemical Science 8 (2013) 6449-6456
Li-ion battery materials: present and future, Materials Today 18 (5) (2015) 252-264
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Li-ion battery materials: present and future, Materials Today 18 (5) (2015) 252-264
Lee, Novel synthesis of high performance anode materials for Lithium-ion batteries (LIBs), Journal of Material Chemistry A 2 (2014) 1589
Influence of Sc3+ doping in B-site on electrochemical performance of Li4Ti5O12 anode materials for lithium-ion battery, Journal of Power Sources 250 (2014) 50-57
Baroni, Advanced Capabilities for Materials Modelling with Quantum ESPRESSO, J.
Online since: March 2015
Authors: Kang Bi Luo, Hu Ping Li, Hui Hui Qiu
Reinforcing composite materials.
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