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Online since: January 2012
Authors: A. Monnier, Fabien Corpace, A. Poulon Quintin, J P. Manaud
ODS steels (Oxide Dispersion Strengthened) are candidate materials for fuel cladding in Sodium Fast Reactors (SFR).
These materials have good mechanical properties at high temperature due to a dispersion of nanometer-sized oxides into the matrix.
These materials are manufactured by powder alloying and contain nanometric particles of oxide which are anchors against dislocation movement improving the performance of these materials at high temperature.
Journal of Materials Science, 2007. 42(13): p. 5286-5295
Journal of Nuclear Materials, 2004. 329: p. 1534-1538
These materials have good mechanical properties at high temperature due to a dispersion of nanometer-sized oxides into the matrix.
These materials are manufactured by powder alloying and contain nanometric particles of oxide which are anchors against dislocation movement improving the performance of these materials at high temperature.
Journal of Materials Science, 2007. 42(13): p. 5286-5295
Journal of Nuclear Materials, 2004. 329: p. 1534-1538
Online since: March 2020
Authors: Leonid N. Korotkov, Jose Angel Roldan Lopez, Luis Manuel Angelats Silva, Nikita A. Emelianov
Introduction
Physical properties of systems nanoparticles intensively studied during the last decades because nanocomposite materials exhibiting unique conductive, dielectric, magnetic and optical properties due to quantum size effects.
Nanocomposite materials based on porous glasses are of particular interest in consequence with the fact that they can form systems of different dimensions and cluster topologies depending on the conditions of interaction of the filler material with the matrix [1].
Thus, the aim of the work is to study the influence of the interaction between the pores of the matrix and the filler particles on the infrared absorption and Raman scattering spectra of the nanocomposite under study Materials For the preparation of nanocomposites, samples of porous SiO2 glasses (with a pore diameter of 320 nm, porosity of 50%, 10x10x1 mm) obtained at the Wroclaw University of Science and Technology (Poland) were used.
Vakhrushev Nanostructures within porous materials in “Encyclopedia of Nanoscience and Nanotechnology” (ed.
Siti Zuraifah: International Journal of Materials, Mechanics and Manufacturing Vol. 1 (2013) pp. 107-109
Nanocomposite materials based on porous glasses are of particular interest in consequence with the fact that they can form systems of different dimensions and cluster topologies depending on the conditions of interaction of the filler material with the matrix [1].
Thus, the aim of the work is to study the influence of the interaction between the pores of the matrix and the filler particles on the infrared absorption and Raman scattering spectra of the nanocomposite under study Materials For the preparation of nanocomposites, samples of porous SiO2 glasses (with a pore diameter of 320 nm, porosity of 50%, 10x10x1 mm) obtained at the Wroclaw University of Science and Technology (Poland) were used.
Vakhrushev Nanostructures within porous materials in “Encyclopedia of Nanoscience and Nanotechnology” (ed.
Siti Zuraifah: International Journal of Materials, Mechanics and Manufacturing Vol. 1 (2013) pp. 107-109
Online since: May 2014
Authors: Jia Yu Zhang, Bing Xin Du, Kun Huang
Research on Oxidation Methods for Coking Wastewater Treatment
Kun Huang1, a*, Bingxin Du 2, Jiayu Zhang1
1School of Chemistry and Chemical Engineering, Sichuan University of Arts and Science, Dazhou, 635000, China.
2Department of Computer Science, Sichuan University of Arts and Science, Dazhou, 635000, China.
The sustainable development of China's economy leads to the development of iron and steel industries and other basic industries, which increases the demand of basic raw materials-coke in production of steel and makes coking wastewater treatment particularly urgent[2].
Kim, et al.: Journal of Hazardous Materials Vol. 152(2009), p. 915–921
Jiang, et al.: Journal of Hazardous Materials Vol. 189 (2011), p. 308–314
Sevimli: Journal of Hazardous Materials Vol. 166(2009), p. 782–787
The sustainable development of China's economy leads to the development of iron and steel industries and other basic industries, which increases the demand of basic raw materials-coke in production of steel and makes coking wastewater treatment particularly urgent[2].
Kim, et al.: Journal of Hazardous Materials Vol. 152(2009), p. 915–921
Jiang, et al.: Journal of Hazardous Materials Vol. 189 (2011), p. 308–314
Sevimli: Journal of Hazardous Materials Vol. 166(2009), p. 782–787
Online since: April 2015
Authors: Hong Liang Yi, Peng Chen, Guo Dong Wang, Peng Ju Du, Di Wu
Mancini, Journal of engineering materials and technology 134 (2012)
Zhou, Materials Science and Engineering: A 553 (2012) 51-58
Haldar, Materials Science and Technology 28 (2012) 971-979
Mintz, Materials Science and Technology 27 (2011) 95-100
Van Der Zwaag, Journal of materials science 37 (2002) 1585-1591.
Zhou, Materials Science and Engineering: A 553 (2012) 51-58
Haldar, Materials Science and Technology 28 (2012) 971-979
Mintz, Materials Science and Technology 27 (2011) 95-100
Van Der Zwaag, Journal of materials science 37 (2002) 1585-1591.
Online since: November 2012
Authors: Peter Šugár, Jana Šugárová, Peter Zemko, Ladislav Morovič
Analysis of dimensional accuracy of spun parts by Taguchi approach
Peter ŠUGÁR1, a, Jana ŠUGÁROVÁ1, b, Ladislav MOROVIČ1,c,
Peter ZEMKO1,d
1Institute of Production Technologies, Faculty of Materials Science and Technology,
Slovak University of Technology, J.
Journal of Materials Processing Technology, Vol. 103 (2000), No.1, pp. 114 – 119
Journal of Materials Processing Technology, Vol. 129 (2002), No. 1 – 3, pp. 326 – 329
Study on the deformation mode of conventional spinning of plates, Journal of Materials Processing Technology, Vol. 91 (1999), No. 1 – 3, pp. 226 – 230
Journal of Materials Processing Technology, Vol. 211 (2011), No. 1 – 3, pp. 2141 – 2151.
Journal of Materials Processing Technology, Vol. 103 (2000), No.1, pp. 114 – 119
Journal of Materials Processing Technology, Vol. 129 (2002), No. 1 – 3, pp. 326 – 329
Study on the deformation mode of conventional spinning of plates, Journal of Materials Processing Technology, Vol. 91 (1999), No. 1 – 3, pp. 226 – 230
Journal of Materials Processing Technology, Vol. 211 (2011), No. 1 – 3, pp. 2141 – 2151.
Online since: July 2022
Authors: Katsuyuki Kida, Koshiro Mizobe, Yoshiki Takezawa, Shusuke Kita
These values were almost the same as for Q1T1, i.e., the stress-induced martensitic transformation was caused in both materials (Q1T1 and Q3T1), and the prior austenite was refined by repeated quenching.
Rozwadowska, FATIGUE STRENGTH IMPROVEMENT OF AISI E52100 BEARING STEEL BY INDUCTION HEATING AND REPEATED QUENCHING, Materials Science, Vol. 47, No. 5, pp. 677-682, (2012)
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research, Vols. 217-218, pp. 1266-1271, (2011)
Kida, Observation of non-metallic inclusions on repeatedly quenched SAE 52100 bearing steel fracture surfaces, International Jornal of Materials and Product Technology, Vol. 44, pp. 227-239, (2012)
Kida, Development of Surface Etching (FSE) Method around Non-Metallic Inclusion of SUJ2 Steel, Material Science Forum, Vol. 971, pp. 65-69, (2019).
Rozwadowska, FATIGUE STRENGTH IMPROVEMENT OF AISI E52100 BEARING STEEL BY INDUCTION HEATING AND REPEATED QUENCHING, Materials Science, Vol. 47, No. 5, pp. 677-682, (2012)
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research, Vols. 217-218, pp. 1266-1271, (2011)
Kida, Observation of non-metallic inclusions on repeatedly quenched SAE 52100 bearing steel fracture surfaces, International Jornal of Materials and Product Technology, Vol. 44, pp. 227-239, (2012)
Kida, Development of Surface Etching (FSE) Method around Non-Metallic Inclusion of SUJ2 Steel, Material Science Forum, Vol. 971, pp. 65-69, (2019).
Online since: July 2011
Authors: Jia Zi Shi, Xing Dang, Chuan Zhong Chen
References
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Online since: March 2015
Authors: Xiao Ling Liu, Xiao Ming Chen, Yan Xu, Chao Wang, Chen Ruan, Shou Song
[4] R Ramos, L Jacome, J Barron,et al, Journal of Hazardour Materials, vol. 90(1)(2002), p. 27-38
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[12] M Pei, G Bao-xiang, Z Dan, Journal of agro-environment science, vol. 32(3) (2013), p. 653-660(In Chinese)
Online since: October 2013
Authors: Guo Qin Huang, Xi Peng Xu, Yi Qing Yu, Cong Fu Fang, Yu Xiang Zhang
Xu: Key Engineering Materials Vols. 259-260 (2004), p. 490
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Online since: March 2012
Authors: Saowaroj Chuayjuljit, Orathai Boondamnoen, A. Rashid Azura, Masahiro Ohshima, Azlan B. Ariffin
Rashid1b, Masahiro Ohshima2c, Saowaroj Chuayjuljit3d, Azlan Ariffin1e*
1School of Materials and Mineral Resources Engineering, Engineering Campus, Universiti Sains Malaysia, Nibong Tebal, 14300 Penang, Malaysia
2Department of Chemical Engineering, Kyoto UnIversity, Nishikyo-ku, Kyoto, 615-8510, Japan
3Department of Materials Science, Faculty of Science, Chulalongkorn University, Phayathai, Bangkok 10330, Thailand
aanny_ora@yahoo.com, bazura@eng.usm.my, coshima@cheme.kyoto-u.ac.jp, dschuayjuljit@yahoo.com, eazlan@eng.usm.my
Keywords: waste natural rubber latex, blend, latex treatment,
Abstract.
Experimental Materials.
This is due to the rigidity of PS that assists as in reinforcing materials in blends.
[4] Boondamnoen O., Ohshima M., Azura A.R., Chuayjuljit S. and Ariffin A.: Proceeding of 6th International Conference on Advanced Materials Development and Performance.
Vol. 45 (2009), p.2996-3003 [16] Charile R.B. and Ashok C.: Failure Analysis of Engineering Materials, chapter 3, published by McGraw-Hill. (2002), p. 188-207
Experimental Materials.
This is due to the rigidity of PS that assists as in reinforcing materials in blends.
[4] Boondamnoen O., Ohshima M., Azura A.R., Chuayjuljit S. and Ariffin A.: Proceeding of 6th International Conference on Advanced Materials Development and Performance.
Vol. 45 (2009), p.2996-3003 [16] Charile R.B. and Ashok C.: Failure Analysis of Engineering Materials, chapter 3, published by McGraw-Hill. (2002), p. 188-207