Please use this identifier to cite or link to this item: https://hdl.handle.net/11499/6977
Title: Thermal elastic-plastic stress analysis ofan aluminium composite disc under linearly decreasing thermal loading
Authors: Topcu, Muzaffer
Altan, Gürkan
Çallıoğlu, Hasan
Altan, Burcin Deda
Keywords: Aluminium/steel composite
Disc
Thermal loading
Thermal stress
Aluminium composites
Aluminium metal matrix composites
Composite disc
Computer program
Elastic-Plastic
Elastic-plastic stress analysis
Hydraulic press
Inner surfaces
Non-linear
Orthotopic
Outer surface
Plastic regions
Radial stress component
Residual thermal stress
Steel fibre
Tangential residual stress
Tangential stress
Thermal loadings
Aluminum
Elastoplasticity
Mechanical properties
Metallic matrix composites
Plastics
Polymer matrix composites
Shotcreting
Strength of materials
Stress concentration
Surfaces
Thermal load
Thermoelasticity
Stress analysis
Abstract: In this study, an elastic-plastic thermal stress analysis of an orthotopic aluminium metal matrix composite disc with a hole has been investigated analytically for non-linear hardening material behaviour. The aluminium composite disc reinforced curvilinearly by steel fibres is produced under hydraulic press. The mechanical properties of the composite disc are obtained by tests. A computer program is developed to calculate the thermal stresses under a linearly decreasing temperature from inner surface to outer surface. Elastic, elastic-plastic and residual thermal stress distributions are obtained analytically from inner surface to outer surface and they are presented in tables and Fig.s. The elastic-plastic solution is performed for the plastic region expanding around the inner surface. The magnitude of the tangential stress component has been found out in this study to be higher than the magnitude of the radial stress component. Besides, the tangential stress component is compressive at the inner surface and tensile at the outer surface, The magnitude of the tangential residual stress component is the highest at the inner surface of the composite disc.
URI: https://hdl.handle.net/11499/6977
ISSN: 0963-6935
Appears in Collections:Mühendislik Fakültesi Koleksiyonu
Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
WoS İndeksli Yayınlar Koleksiyonu / WoS Indexed Publications Collection

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