Search results

References [1] Conor M C, John M: Journal of Materials Processing Technology.
Vol.20 (2003), p.725 [3] Nikolai B, Sergei S: Journal of Materials ProcessingTechnology.
Vol.113 (2001): p.34-39 [4] Groenbaek, Jens, Birker: Journal of Materials ProcessingTechnology.Vol.98 (2000): p.155-161 [5] Yaqi H, Kim T: Journal of Materials ProcessingTechnology.
Vol.172 (2006): p.264-270 [7] Ssemakula H, Stahlberg U, Oberg K: Journal of Materials ProcessingTechnology.
Vol.178 (2006): p.119-127 [8] Rao A V, Krishnan N R, Kumar R K: Journal of Materials ProcessingTechnology.

Introduction Chalcogenide glasses are vitreous materials which are composed of S, Se, and Te, from group-VI of the periodic table.
These materials have gained importance in technological fields [1].
Materials (99.999% purity) were weighed according to their atomic weight and sealed in quartz ampoules in a vacuum ~ 10-4 Pa.
Popescu, Non-Crystalline Chalcogenides (Solid State Science and Technology Library, 2002)
Ticha, Materials Letters, 21 (1994) 313 [23] L.

IOP Conference Series: Materials Science and Engineering; 2019: IOP Publishing
IOP Conference Series: Materials Science and Engineering; 2019: IOP Publishing
Journal of Composite Materials. 2016;50(4):543-56
Materials & Design. 2013;45:473-9
Journal of the Brazilian Society of Mechanical Sciences and Engineering. 2019;41(7):300

Mg-based alloys are one of the most promising alloys to be used as rechargeable hydrogen storage materials due to resource richness, larger hydrogen storage capacities and low cost et al[1-4].
Douglass: Metallurgical Transactions A-Physical Metallurgy and Materials Science Vol. 6A(1975), p. 2179 [7] S.
Liu: Journal of Alloy and Compounds Vol. 353 (2003), 322 [9] J.
Courtney: Nanostructured Materials Vol. 4(1994), p. 365 [12] S.
Zhao: Applied physics A- Materials Science & Processing Vol.

Reaction of iron with amorphous silicon and crystal silicon for the fabrication of iron silicides Daoren Gong, Dongsheng Li, Zhizhong Yuan, Deren Yang* State Key Laboratory of Silicon Materials and Department of Materials Science and Engineering, Zhejiang University, Hangzhou 310027, P.R.
Acknowledgements This work was supported by the National Natural Science Foundation of China (No. 60225010) and Open Foundation of Key Laboratory of Nonferrous Materials and New Processing Technology, Ministry of Education, Guilin University of Technology.
[3] K.Lefki, P.Muret, N.Cherief, R.C.Cinti, Journal of Applied Physics 69/1 (1991) 352
[18] M.Tanaka, F.Chu, M.Shimojo, M.Takeguchi, K.Mitsuishi, K.Furuya, Journal of Materials Science 41/9 (2006) 2667
[19] D.L.Daoren Gong, Zhizhong Yuan, Minghua Wang, Deren Yang, Submitted to Applied Surface Science.

Journal of Materials Processing Technology, 2009, 209 (12-13): 5353-5362
Journal of Materials Processing Technology, 2007, 177: 743-746
Modeling and Simulation in Materials Science and Engineering, 2005, 13(7): 1029-1046
Materials Research Innovations, 2013, 7(1): 49-57(9)
Materials Science and Engineering: A, 2010, 527: 2431-6.

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.

This kind of machining extensively used in machining of materials with highly precision productivity.
Most previous research works in WEDM are more on materials such as Inconel and steel.
Science. 255: 1742- 1753
Applied Mechanics and Materials 510, 123-129 [3] Datta, S. and Mahapatra, S.
International Journal of Engineering, Science and Technology. 2: 162-183

Simulative Study of Evolution Behavior of Transverse Surface Crack in Rolling Process GAO Ya1,a, SUN Jian Lin1,b and YUN Bing1 1School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China agaobao357@gmail.com bsjl@ustb.edu.cn Keywords: Transverse surface crack; finite element model; contact pressure; crack tip stress Abstract.
Roll material uses rigid material model.
Stahlberg: Journal of Materials Processing Technology, Vol. 101 (2000), p.312 [5] E.
Stahlberg: Journal of Materials Processing Technology, Vol. 94 (1999), p.141 [6] M.
Gopinathan: Journal of Mechanical Working Technology, Vol. 5 (1981), p.267 [9] YIN S B, LIU Q Y, SUN X J, et. al: Journal of Kunming University of Science and Technology (Science and Technology), No. 2 (2007), p.21 [10] KANG Y L, WANG Y L, ZHANG Y, et. al: China Mechanical Engineering, No. 3 (2002), p.242

Lavernia, “serial sectioning for 3D visualization and modeling of SiC particle reinforced aluminum composites”, Journal of Materials Science, 26 (1991) 1137-1156
Lavernia, “processing of discontinuously – reinforced metal matrix composites by rapid solidification”,Progress in Materials Science, 39 (1995) 317-409
Microstructure containing particles penetrable by dislocations”, Materials Science and Engineering, 13(1974) 141-157
Lai., “Recent development in the fabrication of metal matrix particulate composites using powder metallurgy techniques”, Journal of Materials Science, Vol. 29, (1994), pp. 1999-2007
Gungor, The Minerls, Metals and Materials Society, (1990)