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2020 | OriginalPaper | Chapter

Mechanical Investigations on Composite Peened Aluminium

Authors : Michael Seitz, Kay André Weidenmann

Published in: Advanced Surface Enhancement

Publisher: Springer Singapore

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Abstract

Composite peening describes a novel approach based on the micro peening process. By composite peening, particles can be introduced into near-surface regions of metallic base materials. The proportion of the reinforcement phase decreases gradually with increasing distance to the surface. These so-called Functionally Graded Metal Matrix Composites (FGMMC) are characterised by a multitude of different characteristics, such as material combination, particle density, particle gradient and particle size, and a resulting broad range of properties. The composite material produced by this method promises a high application potential for lightweight, wear resistant and cyclically stressed structural components.

EN AW–1050 was selected as matrix material and alumina as abrasive respectively reinforcement material. Additional abrasives such as silicon carbide and tungsten carbide were also investigated. By varying the process parameters, such as temperature and pressure, the influence on the particle density and the particle gradient was evaluated. Penetration depths up to 30 µm could be observed at high homologous temperatures. The peening process might cause open structures near the surface, the sample were subsequently deep rolled. In addition, this process reduces the surface roughness.

Ensuing mechanical characterisation focused on bending tests. An increase in the flexural strength of the composite material compared to the base material could be observed.

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Kieback, B., Neubrand, A., Riedel, H.: Processing techniques for functionally graded materials. Mater. Sci. Eng., A 362, 81–106 (2003)CrossRef

Foroozmehr, E., Sarrafi, R., Hamid, S., Kovacevic, R.: Synthesizing of functionally graded surface composites by laser powder deposition process for slurry erosion applications. Laser 340, 446–453 (2009)

Gutzmann, H., Fresse, S., Gärtner, F., Klassen, T.: Cold Gas Spreaying of ceramics using the example of titanium dioxide. In: DVS Media GmbH (eds.) ITSC 2011: International Thermal Spray Conference & Exposition, p. 391. DVS Media, Düsseldorf (2011)

Ozdemir, I., Ogawa, K., Sato, K., Seo, D.: Iron boride coatings produced by cold spray processes. In: DVS Media GmbH (eds.) ITSC 2011: International Thermal Spray Conference & Exposition, p. 1096. DVS Media, Düsseldorf (2011)

Kagaya, C., Yamada, Y.: Fine particle bombarding technology and functional development of metal surface. In: The 10th International Conference on Shot Peening procedure, pp. 191–196 (2008)

Weingärtner, R., Hoffmeister, J., Schule, V.: Mechanische Oberflächenbearbeitung durch das Mikrostrahlen. J. Heat Treat. Mater. 70(2), 59–65 (2015)CrossRef

Kennedy, D.M., Vahey, J., Hanney, D.: Micro shot blasting of machine tools for improving surface finish and reducing cutting forces in manufacturing. Mater. Des. 26(3), 203–208 (2005)CrossRef

Ando, M., Kitano, H., Usami, H., Endo, T.: Applicability of fine particle peening on surface modification of aluminum alloy. In: The 10th International Conference on Shot Peening procedure, pp. 223–227 (2008)

Seitz, M., Reeb, A., Klumpp, A., Weidenmann, K.A.: Composite peening-a novel processing technology for graded reinforced aluminium matrix composites. Key Eng. Mater. 742, 137–144 (2017)CrossRef

10.

Seitz, M., Weidenmann, K.A.: Influence of the process parameters on the penetration depth of the reinforcing phase during composite peening for the production of functionally graded metal matrix composites. Key Eng. Mater. 809, 73–78 (2019)CrossRef

11.

Auerkari, P.: Mechanical and physical properties of engineering alumina ceramics, pp. 6–24. Technical Research Centre of Finland, Espoo (1996)

Title: Mechanical Investigations on Composite Peened Aluminium
Authors: Michael Seitz
Kay André Weidenmann
Publisher: Springer Singapore
Book: Advanced Surface Enhancement
Print ISBN: 978-981-15-0053-4

Electronic ISBN: 978-981-15-0054-1

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-0054-1_2

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