Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2003
Authors: Ildikó Kotsis, M. Enisz, András Szalay, I. Vajda, A.G. Mamalis
Effect of Explosive Compaction on Microstructure and Physical
Properties of Ceramic Superconducting Materials Produced by Different
Techniques
I.
During this compaction technique the properties of the starting superconducting materials can be changed.
The other type of superconducting materials used for explosive compaction was produced by melt processing (MPMG) technique.
Palotás: Advances in Technology of Materials and Materials Processing Journal, Vol. 2 (2001), p. 54 [7] E.
Rajasekharan: Journal of Materials Science, Vol. 34 (1999), p. 3755 [8] I.
During this compaction technique the properties of the starting superconducting materials can be changed.
The other type of superconducting materials used for explosive compaction was produced by melt processing (MPMG) technique.
Palotás: Advances in Technology of Materials and Materials Processing Journal, Vol. 2 (2001), p. 54 [7] E.
Rajasekharan: Journal of Materials Science, Vol. 34 (1999), p. 3755 [8] I.
Online since: December 2012
Authors: Jing Long Bu, Rong Lin Wang, Bin Feng, Guang Na Wu
Study on the Synthesis of ZrAl3O3N and Its Influencing Factors
Guangna Wua, Ronglin Wang*, b, Bin Fengc and Jinglong Bud
Hebei Provincial Key Laboratory of Inorganic Nonmetallic Materials, College of Materials Science and Engineering, Hebei United University, Tangshan 063009, Hebei, China
awgna003@126.com, bwrl@heuu.edu.cn,cfengbin0928@163.com, dbjl@heuu.edu.cn
Keywords: Aluminium nitride; Zirconia; ZrAl3O3N; Reaction; Synthesis; Influencing Factor
Abstract.
Mukerji: Journal of the American Ceramic Society Vol. 72 (1989), p. 1567
Bayer: Journal of Materials Science Vol. 20 (1985), p. 3697
Mocellin: Journal of the American Ceramic Society Vol. 72 (1989), p. 1453
Savrun: Journal of the European Ceramic Society Vol. 18 (1998), p. 23.
Mukerji: Journal of the American Ceramic Society Vol. 72 (1989), p. 1567
Bayer: Journal of Materials Science Vol. 20 (1985), p. 3697
Mocellin: Journal of the American Ceramic Society Vol. 72 (1989), p. 1453
Savrun: Journal of the European Ceramic Society Vol. 18 (1998), p. 23.
Online since: March 2026
Authors: Nur Ain Atisya C.M. Khairuddin, Mohd Hasmizam Razali, Alina Irwana Muhamad A'srai
Materials Science in Semiconductor Processing, 121, 105370. https://doi.org/10.1016/j.mssp.2020.105370
Journal of Electronic Materials, 53(2), 899–906. https://doi.org/10.1007/s11664-023-10830-y
Journal of Materials Chemistry A, 6(10), 4271–4292. https://doi.org/10.1039/C7TA09335G
Journal of Materials Science, 56(7), 4123–4134. https://doi.org/10.1007/s10853-020-05556-5
Journal of Hazardous Materials, 368, 93–101. https://doi.org/10.1016/j.jhazmat.2019.01.045.
Journal of Electronic Materials, 53(2), 899–906. https://doi.org/10.1007/s11664-023-10830-y
Journal of Materials Chemistry A, 6(10), 4271–4292. https://doi.org/10.1039/C7TA09335G
Journal of Materials Science, 56(7), 4123–4134. https://doi.org/10.1007/s10853-020-05556-5
Journal of Hazardous Materials, 368, 93–101. https://doi.org/10.1016/j.jhazmat.2019.01.045.
Online since: October 2023
Authors: Pavlos K. Pandis, Paraskevi Nanou, Vassilis N. Stathopoulos, Marina Georgala
Concerning reactor design, electrode materials and operation modes, great achievements have been reported with an emphasis on developing anode materials to improve overall MFC performance.
Umar, Recent Advances in Anodes for Microbial Fuel Cells: An Overview, Materials (Basel), 13 (2020)
Rodríguez-Couto, Development and modification of materials to build cost-effective anodes for microbial fuel cells (MFCs): An overview, Biochemical Engineering Journal, 164 (2020) 107779
Lewis, 3D-Printing of Lightweight Cellular Composites, Advanced Materials, 26 (2014) 5930-5935
Comparison of processing and effects of multi-wall and single-wall carbon nanotubes on thermal, mechanical and electrical properties, Journal of Materials Science & Technology, 121 (2022) 52-66
Umar, Recent Advances in Anodes for Microbial Fuel Cells: An Overview, Materials (Basel), 13 (2020)
Rodríguez-Couto, Development and modification of materials to build cost-effective anodes for microbial fuel cells (MFCs): An overview, Biochemical Engineering Journal, 164 (2020) 107779
Lewis, 3D-Printing of Lightweight Cellular Composites, Advanced Materials, 26 (2014) 5930-5935
Comparison of processing and effects of multi-wall and single-wall carbon nanotubes on thermal, mechanical and electrical properties, Journal of Materials Science & Technology, 121 (2022) 52-66
Online since: December 2006
Authors: Ouk Sub Lee, Sung Hyun Kim, Yong Hwan Han
Introduction
The features of rubber materials are low strength, low wave propagation velocity and low
mechanical impedance.
These mechanical characteristics of rubber materials provide the damping capacities of severe vibration and shock loadings.
Kang: KSME International Journal, Vol. 12, No. 6(1998), p. 1143~1149 [3] O.S.
Kim: Key Engineering Materials, Vol. 183-187, Part 1(2000), p. 307~312 [4] O.S.
Kim: Journal of Materials Science Letters, Vol. 19(2000), p. 1805~1808 [5] O.
These mechanical characteristics of rubber materials provide the damping capacities of severe vibration and shock loadings.
Kang: KSME International Journal, Vol. 12, No. 6(1998), p. 1143~1149 [3] O.S.
Kim: Key Engineering Materials, Vol. 183-187, Part 1(2000), p. 307~312 [4] O.S.
Kim: Journal of Materials Science Letters, Vol. 19(2000), p. 1805~1808 [5] O.
Online since: April 2016
Authors: Xiao Li Yang, Le Lv, Sheng Lei Yuan, Jian Cai, Huai Qing Wang, Liu Yu Zhou
Prepare a kind of high toughness EVA modified materials under the premise that retain the original advantages of EVA.
Preparation of Modified Material.
References [1] Gang Yang, Qicheng Li, Yaming Li, Wei Lu, Liping Xu, Yuanxin Wang: Chinese Journal of Colloid & polymer, 2009, 03: 45-46
[4] Zhengzhou Wang, Chuanmei Jiao, Keliang Hu: Polymer Materials Science and Engineering, 2009, 09: 76-78
[7] Min Zhang, Ruolin Zhang, Baofeng Zhang, Limin Gu, Jianhui Qiu: Journal of Shaanxi University of Science & Technology, 2013, 06: 95-98+104
Preparation of Modified Material.
References [1] Gang Yang, Qicheng Li, Yaming Li, Wei Lu, Liping Xu, Yuanxin Wang: Chinese Journal of Colloid & polymer, 2009, 03: 45-46
[4] Zhengzhou Wang, Chuanmei Jiao, Keliang Hu: Polymer Materials Science and Engineering, 2009, 09: 76-78
[7] Min Zhang, Ruolin Zhang, Baofeng Zhang, Limin Gu, Jianhui Qiu: Journal of Shaanxi University of Science & Technology, 2013, 06: 95-98+104
Online since: October 2010
Authors: Xue Liang Zhao
Discrete element method (DEM) is a powerful tool for the study of granular materials.
Numerical method is a complementary method, especially good for microscale analysis of granular materials.
Granular materials are composed of distinct particles which displace independently from one another and interact only at contact points.
The DEM can capture both the macroscale response and the microscale behavior of the granular materials.
Finno: Geotechnical Testing Journal, 18(4), (1995) p405-420.
Numerical method is a complementary method, especially good for microscale analysis of granular materials.
Granular materials are composed of distinct particles which displace independently from one another and interact only at contact points.
The DEM can capture both the macroscale response and the microscale behavior of the granular materials.
Finno: Geotechnical Testing Journal, 18(4), (1995) p405-420.
Online since: December 2012
Authors: Wei Ping Xu, Li Xing, Li Ming Ke
This is because that a larger number of materials deforms during REA process.
Metallic materials crystallographic texture and anisotropy, Science Press, Beijing, 2002 [2] Y.
Metallurgical and Materials Transactions A, 2008, 39A, 642-658
Journal of Nanchang Hangkong University (Natural Science), 2009, 2, 16-19
Journal of Nanchang Hangkong University (Natural Science), 2004, 2, 6-9
Metallic materials crystallographic texture and anisotropy, Science Press, Beijing, 2002 [2] Y.
Metallurgical and Materials Transactions A, 2008, 39A, 642-658
Journal of Nanchang Hangkong University (Natural Science), 2009, 2, 16-19
Journal of Nanchang Hangkong University (Natural Science), 2004, 2, 6-9
Online since: September 2017
Authors: Mircea Horia Tierean, Liana Sanda Baltes, Alexandru Stefan Banea
Pisu Machedon, Vibration influence on polycrystalline structure and internal friction of the material deposited by welding, Journal of Optoelectronics and Advanced Materials. 7-8 (2013) 655–661
Li, Effect of ultrasonic vibration during casting on microstructures, and properties of 7050 aluminum alloy, Journal of Materials Science. 46 (2011) 3923–3927
Puga, Ultrasonic melt processing in the low pressure investment casting of Al alloys, Journal of Materials Processing Technology. 244 (2017) 150–156
Taylor, Three-dimensional analysis of eutectic grains in hypoeutectic Al–Si alloys, Materials Science and Engineering A. 392 (2005) 440–448
(Ed.), Materials Science and Engineering: An Introduction, John Wiley and Sons Inc, New York, (1994)
Li, Effect of ultrasonic vibration during casting on microstructures, and properties of 7050 aluminum alloy, Journal of Materials Science. 46 (2011) 3923–3927
Puga, Ultrasonic melt processing in the low pressure investment casting of Al alloys, Journal of Materials Processing Technology. 244 (2017) 150–156
Taylor, Three-dimensional analysis of eutectic grains in hypoeutectic Al–Si alloys, Materials Science and Engineering A. 392 (2005) 440–448
(Ed.), Materials Science and Engineering: An Introduction, John Wiley and Sons Inc, New York, (1994)
Online since: July 2015
Authors: Breno Ferreira Lizardo, Luciano Machado Gomes Vieira, Juan Carlos Campos Rubio, Marcelo Araújo Câmara
Journal of Materials Processing Technology, N.203, P.431–438, 2008
Journal Of Materials Processing Technology, N.201, P.471–476, 2008
Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 36, p. 347–354, 2013
Journal of Materials Processing Technology, v. 206, p. 405–411, 2008
Journal of Materials Processing Technology, n.203, p.342–348, 2008
Journal Of Materials Processing Technology, N.201, P.471–476, 2008
Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 36, p. 347–354, 2013
Journal of Materials Processing Technology, v. 206, p. 405–411, 2008
Journal of Materials Processing Technology, n.203, p.342–348, 2008