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Online since: September 2012
Authors: Young Jae Choi, Hon Jong Choi, Seok Woo Lee, Kyung Hee Park, Yun Hyuck Hong, Kyeong Tae Kim
Ho11, Ultrasonic Assisted Grinding of Ceramics, Journal of Materials Processing Technology Vol. 62 (1996) p. 287-293
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Raslan, A Comparative Study on Ultrasonic Machining of Hard and Brittle Materials, J. of the Braz.
Shorter, Rotary ultrasonic machining of dental ceramics, International Journal of Machining and Machinability of Materials 6 (3-4) (2009) p. 270-284
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Raslan, A Comparative Study on Ultrasonic Machining of Hard and Brittle Materials, J. of the Braz.
Shorter, Rotary ultrasonic machining of dental ceramics, International Journal of Machining and Machinability of Materials 6 (3-4) (2009) p. 270-284
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Online since: July 2011
Authors: Zhi Wen Song, Jie Li, Liang Yu, Wan Xiang Chen
Deformation and fracture mechanics of engineering materials[M].John Wiley and Sons Inc, 1996
Chinese Journal of Rock Mechanics and Engineering, 2000, 19(4): 468-47l.
Introduction of equation of material state[M].
Chinese Journal of Rock Mechanics and Engineering. 2007, 26(6): 1266-1272..
Nanjing: PLA University of Science and Technology, 2006.
Chinese Journal of Rock Mechanics and Engineering, 2000, 19(4): 468-47l.
Introduction of equation of material state[M].
Chinese Journal of Rock Mechanics and Engineering. 2007, 26(6): 1266-1272..
Nanjing: PLA University of Science and Technology, 2006.
Online since: April 2013
PREFACE
The XXI International Materials Research Congress (IMRC) was held in Cancun Mexico from 12
to 17 August 2012.
It was organized by the Mexican Materials Society (MMS).
This Special Volume of Materials Science Forum is the results of the contribution of the participants to the Symposium 2D "Structural and Chemical Characterization of Metals Alloys and Compounds".
This event is intended to be a forum for the dissemination of research results on materials science which provided an excellent opportunity for materials scientists around the world to have a common platform to exchange their findings and to discuss developments and to start collaborating at the national and international level.
Finally, we would like to thank all the authors for their contributions to the journal.
It was organized by the Mexican Materials Society (MMS).
This Special Volume of Materials Science Forum is the results of the contribution of the participants to the Symposium 2D "Structural and Chemical Characterization of Metals Alloys and Compounds".
This event is intended to be a forum for the dissemination of research results on materials science which provided an excellent opportunity for materials scientists around the world to have a common platform to exchange their findings and to discuss developments and to start collaborating at the national and international level.
Finally, we would like to thank all the authors for their contributions to the journal.
Online since: October 2010
Authors: Li Zhi Gu, Qi Hong, Xiao Jun Jie, Hao Wu, Peng Lei
Chinese Academy of Sciences recently developed green plate-making technology using nano-materials based on nanotechnology.
New nano packaging materials, meeting the special functional requirements of packaging, having outstanding green performance, can be custom-made of traditional packaging materials modified by nanotechnology [13].
[3] YANG Yun-yue, WANG Hua-yong: Science and Technology of Overseas Building Materials Vol.25 (2004) No.2, p. 128-129
[15] LUO Ming-liang, PU Chun-sheng, LU Feng-ji et al: New Chemical Materials Vol.29 (2001) No.7, p. 27-28
[17] DAI Xiao-feng: Journal of Biology Vol.4 (2006), p. 61-62
New nano packaging materials, meeting the special functional requirements of packaging, having outstanding green performance, can be custom-made of traditional packaging materials modified by nanotechnology [13].
[3] YANG Yun-yue, WANG Hua-yong: Science and Technology of Overseas Building Materials Vol.25 (2004) No.2, p. 128-129
[15] LUO Ming-liang, PU Chun-sheng, LU Feng-ji et al: New Chemical Materials Vol.29 (2001) No.7, p. 27-28
[17] DAI Xiao-feng: Journal of Biology Vol.4 (2006), p. 61-62
Online since: December 2014
Authors: Cai Yin You, Xiao Dong Fan, Na Tian
Influence of Nd Doping on the Magnetic Properties of Nd2Fe14B/α-Fe Nanocomposite Magnets
Xiao-dong Fana, Na Tianb, Cai-yin Youc
School of Materials Science and Engineering, Xi’an University of Technology, Shaanxi Xi’an 710048, China
a fanxiaodong@stu.xaut.edu.cn, b tianna@xaut.edu.cn, c caiyinyou@xaut.edu.cn
Keywords: Nd2Fe14B/α-Fe nanocomposite magnets, Mechanically ball milling, Interface tuning, Maximum magnetic energy product
Abstract.
Nominal composition alloy (Nd, Pr)11.1Fe81.6Zr1.4B5.9 powders (NdFeB for short), high purity Fe and rare earth Nd powders were used as the starting materials in preparing the nanocomposite magnets.
Zhang: Journal of Magnetism and Magnetic Materials, Vol. 324 (2012) No.19, p.2953 [4] Z.Y.
Xie: Materials Science Forum, Vols 475-479 (2005), p.2165 [5] M.
Hono: Advanced Materials, Vol. 24 (2012) No.48, p.6530 [14] Z.S.
Nominal composition alloy (Nd, Pr)11.1Fe81.6Zr1.4B5.9 powders (NdFeB for short), high purity Fe and rare earth Nd powders were used as the starting materials in preparing the nanocomposite magnets.
Zhang: Journal of Magnetism and Magnetic Materials, Vol. 324 (2012) No.19, p.2953 [4] Z.Y.
Xie: Materials Science Forum, Vols 475-479 (2005), p.2165 [5] M.
Hono: Advanced Materials, Vol. 24 (2012) No.48, p.6530 [14] Z.S.
Online since: March 2013
Authors: Mei Fang Zhu, Lodrick Makokha Wangatia, Ting Zeng, Wilson Lelei Sitienei, Bin Sun
Synthesis and Solution Self-assembly Behavior of Porphyrin Tethered by Fullerene C60
Wilson Lelei Sitienei1, a, Lodrick Makokha Wangatia1, b, Ting Zeng1, c,
Bin Sun1, d *, Meifang Zhu1, e *
1State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, P.
Therefore, this novel material design may find good application in photoelectric devices. 1 Introduction In the last two decades, porphyrins are of increasing research interest in the field of organic photoelectric materials, due to their unique properties such as excellent photophysical, photochemical, electrochemical, structural, and self-assembly properties.
[6] Schuster, D.I., et al., Journal of Materials Chemistry, 2002. 12(7): p. 2041-2047
-B. et al.,, Journal of the American Chemical Society, 2003. 125(20): p. 6072-6073
[10]Adler, A.D., et al., The Journal of Organic Chemistry, 1967. 32(2): p. 476-476
Therefore, this novel material design may find good application in photoelectric devices. 1 Introduction In the last two decades, porphyrins are of increasing research interest in the field of organic photoelectric materials, due to their unique properties such as excellent photophysical, photochemical, electrochemical, structural, and self-assembly properties.
[6] Schuster, D.I., et al., Journal of Materials Chemistry, 2002. 12(7): p. 2041-2047
-B. et al.,, Journal of the American Chemical Society, 2003. 125(20): p. 6072-6073
[10]Adler, A.D., et al., The Journal of Organic Chemistry, 1967. 32(2): p. 476-476
Online since: September 2019
Authors: Anatoly P. Surzhikov, Petr Khorsov, Roman Laas
Thus, the use of the reverberation phenomenon with non-destructive testing of defects and the stress-strain state of materials is promising.
Murashov, Control of glued structures made of dissimilar materials by ultrasound reverberation, Polymer science.
Osipov, Development of an acoustoelectric method for determining the porosity of dielectric materials, Russian Journal of Nondestructive Testing 43(2) (2007) 95-99.
Koktavy, Experimental study of electromagnetic emission signals generated by crack generation in composite materials, Measurement Science & Technology 20(1) (2009) 15704
Demikhova, Development the Adjusted Mathematical Model of Responses in the Nondestructive Testing Defectiveness Method Based on the Mechanoelectrical Transformations, IOP Conference Series: Materials Science and Engineering 168 (2017), 012106.
Murashov, Control of glued structures made of dissimilar materials by ultrasound reverberation, Polymer science.
Osipov, Development of an acoustoelectric method for determining the porosity of dielectric materials, Russian Journal of Nondestructive Testing 43(2) (2007) 95-99.
Koktavy, Experimental study of electromagnetic emission signals generated by crack generation in composite materials, Measurement Science & Technology 20(1) (2009) 15704
Demikhova, Development the Adjusted Mathematical Model of Responses in the Nondestructive Testing Defectiveness Method Based on the Mechanoelectrical Transformations, IOP Conference Series: Materials Science and Engineering 168 (2017), 012106.
Online since: May 2023
Authors: Vinayak Adimule, Sheetal Batakurki, Basappa C. Yallur, I.M. Nandeesh, G. Nagalakshmi
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
Journal of Materials Research. 37 (2022) 2396-2405
Journal of Materials Research. 37 (2022) 2396–2405
Journal of Science: Advanced Materials and Devices. 5 (2020) 185-191
Journal of Inorganic and Organometallic Polymers and Materials. 32, 5 (2022) 1778-1785
Journal of Materials Research. 37 (2022) 2396-2405
Journal of Materials Research. 37 (2022) 2396–2405
Journal of Science: Advanced Materials and Devices. 5 (2020) 185-191
Journal of Inorganic and Organometallic Polymers and Materials. 32, 5 (2022) 1778-1785
Online since: February 2018
Authors: Shao Peng Wu, Gang Liu, Yong Jie Xue, Hao Chen
Experimental
Materials.
[4] Gogoi R, Biligiri KP, Das NC, Performance prediction analyses of styrene-butadiene rubber and crumb rubber materials in asphalt road applications, Materials and Structures. 49 (2015) 3479-3493
[5] Karger-Kocsis J, Mészáros L, Bárány T, Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers, Journal of Materials Science. 48 (2012) 1-38
[6] Alonso S, Medina-Torres L, Zitzumbo R, Avalos F, Rheology of asphalt and styrene–butadiene blends, Journal of Materials Science. 45 (2010) 2591-2597
[10] Heitzman M, Design and construction of asphalt paving materials with crumb rubber modifier, Thorax. 47 (1992) 171-174
[4] Gogoi R, Biligiri KP, Das NC, Performance prediction analyses of styrene-butadiene rubber and crumb rubber materials in asphalt road applications, Materials and Structures. 49 (2015) 3479-3493
[5] Karger-Kocsis J, Mészáros L, Bárány T, Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers, Journal of Materials Science. 48 (2012) 1-38
[6] Alonso S, Medina-Torres L, Zitzumbo R, Avalos F, Rheology of asphalt and styrene–butadiene blends, Journal of Materials Science. 45 (2010) 2591-2597
[10] Heitzman M, Design and construction of asphalt paving materials with crumb rubber modifier, Thorax. 47 (1992) 171-174
Online since: March 2015
Authors: Zi Dong Zhang, Run Hua Fan, Qian Qian Li, Ke Lan Yan, Kai Sun, Xu Ai Wang, Min Chen, Chuan Bing Cheng, Qing Hou
Zhang: Science Vol. 308 (2005), p. 534-537
Wang: Journal of Materials Chemistry C, Vol. 1 (2013), p. 1633-1637
Yin: Advanced Materials Vol. 24 (2012), p. 2349-2352
Zhong: Advanced Materials Vol. 21 (2009), p. 4176-4180
Ju: Key Engineering Materials Vol. 512(2012), p. 127-131.
Wang: Journal of Materials Chemistry C, Vol. 1 (2013), p. 1633-1637
Yin: Advanced Materials Vol. 24 (2012), p. 2349-2352
Zhong: Advanced Materials Vol. 21 (2009), p. 4176-4180
Ju: Key Engineering Materials Vol. 512(2012), p. 127-131.