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Damping energy dissipation coefficients J for materials are obtained.
Damping of materials and members in structural mechanics.
Journal of Materials Science,1993, 28: 2395-2404 [6] I.
Sichuan Building Science. 2004, 30(2):10-12 [10] Guojun Ke, Changqing Guo.
Journal of Building Materials.2004, 7(1):35-40

Science and Technology of Overseas Building Materials, 2004, 25(2): 25-27
Materials & Design, 2011, 32(8): 4278-4288
Journal of materials science, 1995, 30(3): 701-711 [8] Kitagawa M, Mori T, Matsutani T.
Journal of Polymer Science Part B: Polymer Physics, 1989, 27(1): 85-95
Advanced Materials Research, 2011, 335: 372-375.

Fabrication of Nanostructured Materials by Hydrostatic Extrusion: Advantages and Limitations Krzysztof J.
Kurzydlowski1, a, Malgorzata Lewandowska1,b 1 Warsaw University of Technology Faculty of Materials Science and Engineering, Woloska 141, 02-507 Warsaw, Poland a kjk@inmat.pw.edu.pl, bmalew@inmat.pw.edu.pl Keywords: Hydrostatic extrusion, nanostructured materials, processing, microstructure, mechanical properties Abstract.
A growing interest in nanostructured materials brought about development of their fabrication methods.
Further grain refinement requires, however, special techniques of materials processing.
As a result hard-to-deform materials can be processed by hydrostatic extrusion quite easily [12].

Inks prepared by the traditional materials are usually made of wood oil soot, bone glue, borneol, musk, pepper, etc [1].
Chinese traditional materials have no environmental pollution.
A new black water based ink prepared by Chinese traditional materials is valid for screen printing.
Reference [1] Wei Zhang, Hongbing Liu, Shiqing Guo: Sciences of conservation and archaeology.
[2] Jueliang Zhou: Journal of the National Museum of Chinese History (2002), p. 33-38

Lin, Powers-Couche, et al., Microstructures of fire-damage concrete, ACI Materials Journal. 93 (1996) 199-205
Gambarova, Effect of high temperature on the residual compressive strength of high strength siliceous concretes, ACI Materials Journal. 95 (1998) 395-406
Samb, Pore structure of cemented tailings materials under natural or accidental thermal loads, Materials Characterization. 59 (2008) 598-605
Wu, Effect of ettringite structural transformation on expansive behavior of expansion cement, Journal of Inorganic Materials. 18 (2003) 137-142
Harmathy, Thermal properties of concrete at elevated temperature, ASTM Journal of Materials. 5 (2000) 47-74.

Values of specific energy for machining various materials are compiled by Kalpakjian and Schmid [10].
Singh, Journal of Materials Processing Technology. 200 (2008), p.373-384 [6] Abhang, L. and M.
Hameedullah, Journal of Engineering Science and Technology Review. 3 (2010), p.116-122 [7] Gutowski, T., J.
Ourdjini, Applied Mechanics and Materials. 234 (2012), p.74-77 [9] Li, W., A.
Sharif, Materials and Manufacturing Processes. 25 (2010), p.370-377

Research on Ultrasonic Vibration Combined with Grinding Machining and its Application in Processing Brittle Hard Materials Yongjun Zhang 1,a , Yongjun Tang1,b and Xiaokang Liu2,c 1 Faculty of Electromechanical Engineering, Guangdong University of Technology, China 2 School of Mechanical & Automotive Engineering, South China University of Technology, China a yjzhang@gdut.edu.cn, b yjtang@gdut.edu.cn, cliuxk58@scut.edu.cn Keywords: Ultrasonic vibration, grinding machining, brittle hard materials, high removal rate Abstract.
Introduction Brittle hard materials of optical glass, function ceramics, hard alloy and so on have been applied in wide fields of modern industrial, but their process-ability are poor owing to high temperature resistant, good resistance to abrasion and chemical stability[1-5].
Acknowledgements This research was funded by Guangdong-Hong Kong's Key Areas Important Breakthrough Project (2006A15101004), Guangdong Key Project of Science and Technology (2007B010400051), Guangzhou Key Project of Science and Technology (2009Z2-D611), Panyu Key Project of Science and Technology (2008-Z-43-1).
Materials Science Forum, 2007,v.532-533:361-4 [6] Hocheng H, Kuo K L.
International Journal of Machine Tools & Manufacture, 2002,42:7-13 [7] Rajurkar K P, Wang Z Y, Kuppattan A.

Influence of Phase Composition on Dielectric Properties of Bismuth-Based Ceramics with Scheelite-Type Structure Dionizy Czekaja and Agata Lisińska-Czekajb University of Silesia, Department of Materials Science, 2, Sniezna St.,41-200 Sosnowiec, Poland bdionizy.czekaj@us.edu.pl, aagata.lisinska-czekaj@us.edu.pl Keywords: BiNbO4, micromechatronic materials, impedance spectroscopy, dielectric properties.
Wersing: Current Opinion in Solid State and Materials Science Vol. 1, 5 (1996), p. 715 [3] N.
Li: Materials Research Bulletin Vol. 39 (2004), p. 439 [4] R.
Gupta: Materials Characterization, Vol. 59 (2008), p. 1083 [5] H.
Shan: Journal of Materials Science Vol. 35 (2000), p. 5443 [7] Sang Ki Ko, Kyung Yong Kim, and Byong Ho Kim:, Journal of Materials Science: Materials in Electronics, 9 (1998), p. 351 [8] Ning Wang, Mei-Yu Zhao, Zhi-Wen Yin and Wei Li:, Materials Research Bulletin 39 (2004) p. 439 [9] Eung Soo Kim and Woong Choi:, Journal of the European Ceramic Society, 26 (2006) p. 1761

The models used for polishing of these materials are rather experimental models.
This model seems to give good results for different materials.
Experimental models are used for diverse materials.
Tournier: Journal of Materials Processing Technology, Vol. 209 (2009), p. 3665-3673
Mok: Journal of Materials Processing Technology, Vol.95 (1999), p. 191-200

Acknowledgements This work was funded by the National Science Foundation of China (No. 51405282).
Journal of Materials Processing Technology, 2000, 101(1): 268~274
Key Engineering Materials, 2013, (579): 584~589
Journal of Materials Processing Technology, 1997, 63: 458~462
Journal of Materials Processing Technology, 1997, 63:463~467