Superdeep Penetration - Novel Method of Nanoreinforced Composites Producing Based on Metallic, Ceramic and Polymer Matrixes

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Abstract:

Now there is a motivation for creation of the materials possessing a considerable difference of physical and chemical properties in volume of composite materials 1 . Composite materials allow realizing a complex of various properties which cannot be realized simultaneously in mono material. The perspective in reception of a new smart nanomaterial is basically defined by possibilities which create processing conditions Choosing and manufacturing of fibers refers to the second stage of composite material reinforcement. Process of assemblage of a composite material from the details made at first two stages of process refers to the third stage. But at each stage of process of manufacturing of a composite material there are specific problems. The basic problem at composite material creation, as a rule, is essential contradictions between engineering solutions for various stages of process.

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Advanced Materials Research (Volumes 79-82)

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1975-1978

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August 2009

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© 2009 Trans Tech Publications Ltd. All Rights Reserved

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[1] Deborah D. L. Chung: Functional Materials for Modern Technologies (Engineering Materials and Processes); Springer, 2004, 289 pages.

Google Scholar

[2] Oleg L. Figovsky: New Elaborations on the Field of Nanomaterials. Proceedings of International Conference Information Society, (in Russian) December 2007, Almaty, Kazakhstan, pp.264-267.

Google Scholar

[3] Oleg L. Figovsky, Sergey Usherenko et al.: The physics of superdeep penetration phenomenon. Journal of Technical Physics, vol. 49. 2o. 1, 2008, pp.3-25.

Google Scholar

[4] Sergey Usherenko, Oleg L. Figovsky, Yuliya Usherenko: Special Processes in Powder Metallurgy Abstracts of MPIF/APMI 2008 World Congress on Powder Metallurgy & Particulate Materials. Session 50 "Innovative PM Processing. June 8-12, 2006. Washington, DC, USA. abstract 50/3.

DOI: 10.1179/pom.1996.39.3.184

Google Scholar

[5] Sergey Usherenko, The phenomenon of superdeep penetration, Scientific Israel- technological advantages, vol. 8, issues 1. 2 (special), 2006, -p. pp.83-94.

Google Scholar