Search results

Chen, Structure and multiferroic properties of barium hexaferrite ceramics, Journal of Magnetism and Magnetic Materials. 327 (2013) 87-90
Yue, High-frequency magnetic properties of low-temperature sintered Co-Ti substituted barium ferrites, Materials Science and Engineering : B. 99 (2003) 270-273
Progress in Materials Science. 57 (2012)1191-1334
Pollert, Journal of Magnetism and Magnetic Materials. 140-144 (1995) 2103
Gregori, Journal of Magnetism and Magnetic Materials. 220 (2000) 125

Journal of Materials Processing Technology, 2004, 155-156:1834-1838
Journal of Materials Processing Technology, 1998, 76(3):238-245
Advanced Materials Research, 2013, 622-623:575-580
Journal of Shandong University(Engineering Science), 2003, 33(3): 314-319.
[J].Journal of Materials Processing Technology, 2001, 113:416-423

Introduction The need for new materials with a desired level of properties contributes to the development of novel composite materials.
The use of solid-phase processes to produce new materials is currently an intensively developing area of physical materials science as this will allow to solve the problem of creating new light-weight and high-temperature composite materials with improved physical properties.
Diffusion bonding is another attractive processing method to obtain multilayer metal materials.
International Journal of Minerals, Metallurgy and Materials 25 (2018) 564–572
Korznikova, S.Y.Mironov, A.V.Korznikov, A.P.Zhilyaev, T.G.Langdon, Microstructural evolution and electro-resistivity in HPT nickel, Materials Science and Engineering A, 556 (2012) 437-445

Phases Transformation Analysis of Zro2 Ceramics after Laser Shock Processing Zhang Lingfeng1, a, Wang Yanzhi1, b, Xiong Yi1, c and Lu Jinzhong2, d 1School of material science and Engineering, Henan University of Science and Technology, Luoyang 471003 2Key Laboratory of Photon Manufacture Science and Technology, Jiangsu University, Zhenjiang 212013 azlf-601@sohu.com, bwyz1168@126.com, cxy_hbdy@163.com, dblueesky2005@163.com Keywords: Laser shock processing (LSP), phases transformation, tetragonal zirconia polycrystals (TZP), brittleness Abstract.
Acknowledgements The authors are grateful for the support provided by National Natural Science Foundation of China (Nos. 50705038, 50801021 and 50735001), Natural Science Research projects of Henan Province Department of Education (2010B430010).
Yan: Journal of Materials Science Letters.
P.H.D. 1986 [5] S.Charles, Montross, TaoWei: International Journal of Fatigue, Vol.24(2002),p.1021 [6] Min Guanhui, Li Ru, Takahiro Inoue: Chinese Journal of Materials Research.
Vol. 82(1999), p. 2855 [9] GE Zhi-ping; LIU Zhi-feng; LIU Jia-chen: Journal of Tianjin University.

Morelli 1 1 Department of Materials Engineering / Universidade Federal de São Carlos Rodovia Washington Luis, Km 235. 13565-905.
São Carlos/SP, Brazil 2 Department of Materials Science and Technology / Federal University of Bahia Rua Aristides Novis, 02.
Lin and S.L Swartz: Journal of Membrane Science Vol. 150 (1998), p. 87
Hosseini: International Journal of Enviornmental Science and Technology Vol. 6 (2006), p. 105
Xu et al.: Journal of Membrane Science Vol. 166 (2000), p. 13

Hydroentangled nonwoven has relatively high strength, higher air permeability, and better hand feeling etc., which is widely used for medical and health care material, wipes, leather substrate, filtration materials, and other material.
Experimental Materials.
The specification of the raw materials is shown in Table 1.
Porosity is one of the most important properties of the hydroentangled fabric used for filtration materials.
Seyam, Textile Research Journal, Vol.77 (2007), p. 312-329 [4] N.

Seyed Reihani: Materials Science and Engineering A, Vol. 428 (2006), p. 159
RAY: Journal of Materials Science, Vol. 28 (1993), p.5397
Looney: Journal of Materials Processing Technology, Vol. 166 (2004), p. 430
Kim: Materials Science and Engineering A, Vol. 252 (1998), p. 98
Choh: Journal of Materials Processing Technology, Vol. 119 (2001), p. 329

Mishima1, d 1 Graduate School of Science and Engineering Saitama University, Saitama, Japan 2 Materials Fabrication Laboratory, RIKEN, Saitama, Japan 3 RILAC Team, RIKEN, Saitama, Japan a kasuga@me.ics.saitama-u.ac.jp; bohmori@mfl.ne.jp; cwatanabe@nano.gr.jp; d takemi@mail.saitama-u.ac.jp Keywords: Dental ceramics, Hard and brittle material, Surface characteristics, ELID-Grinding Abstract.
Progress of new dental materials such as biocompatible metal, ceramics is being accelerated because of aging society and sophistication of medical treatment.
So, development of new dental materials such as biocompatible metal, ceramics is being accelerated because those materials are physically stable and hardly have harmful effect to human body.
In the case of materials for the dental implant treatment, fixtures are made of a biocompatible metal such as titanium, titanium alloy.
On the other hand, the coping made of dental ceramics does not cause metal allergy and has better translucency, but some ceramic materials have lower strength than biocompatible metal.

Materials and methods Adsorbent Steel slag was collected from a certain steel-making plant in China.
Lgwe, Afican Journal of Biotechnology, 6 (2005) 509-512
Zhang, Journal of Hazardous Materials, 153(2008) 300-308
Zhu, Journal of Hazardous Materials, 162 (2009) 391-401
Yang, et al, Journal of Hazardous Materials, 173 (2010) 558-562

Hunt, Development of the twin-roll casting process, Journal of Material Processing Technology 55 (1995), 76-84 [2] D.V.
Edmonds, Innovation in the processing of tonnage materials: examples from the steel and aluminium industries, Journal of Materials Processing Technology 83 (1998), 1-13 [3] M.
Hunt, Twin roll casting of aluminum alloys, Materials Science and Engineering A280 (2000), 116–123 [4] K.
Radonjić, The Effect of the Thermo-Mechanical Processing on the Properties of some Al-Fe-Si Alloys with High Fe/Si Ratio, Materials Science Forum Vol. 555 (2007), 559-563 [5] Y.
Birol, Thermomechanical processing of a twin-roll cast Al–1Fe–0.2Si alloy, Journal of Materials Processing Technology 202 (2008), 564–568 [6] W.