R.K. Bolingbroke scite author profile

Constitutive equations for the relationship between stress, strain, strain rate, and temperature are an essential input for modelling thermomechanical processing. Hot plane strain compression testing was used to deform commercial purity aluminium, AI-1Mn, and AI-1Mg alloys at temperatures of300, 400, and 500°C and equivalent strain rates of 0·25, 2'5, and 25 S-l, to an equivalent strain of2. Flow stress data obtainedfrom these tests were analysed using the Sah et al. and hyperbolic sine forms of relationships. Values of constants in the constitutive equations were obtained and were shown to provide an accurate description of the experimental stress-strain curves, including the effect of temperature rise due to deformational heating and the effect of changing strain rate. The application and limitations of the relationships are discussed.MST/3536

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Microstructural Control in an Aluminum Core Alloy for Brazing Sheet Applications

Marshall¹,

Bolingbroke²,

Gray³

1993

Metall Trans A

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Annealing Textures in Aluminium Deformed by Hot Plane Strain Compression

Jensen

Bolingbroke²,

Hong

et al. 1994

MSF

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The Influence of Initial Microstructure on the Recrystallization Textures of Aluminium Alloys after Hot Deformation by Laboratory Simulation

Bolingbroke¹,

Marshall

Marshall³

et al. 1994

MSF

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The Effect of Composition and Microstructure on the Recrystallization Texture in AA3004

Bolingbroke¹,

Marshall

1993

MSF

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R.K. Bolingbroke

Constitutive equations for high temperature flow stress of aluminium alloys

Microstructural Control in an Aluminum Core Alloy for Brazing Sheet Applications

Annealing Textures in Aluminium Deformed by Hot Plane Strain Compression

The Influence of Initial Microstructure on the Recrystallization Textures of Aluminium Alloys after Hot Deformation by Laboratory Simulation

The Effect of Composition and Microstructure on the Recrystallization Texture in AA3004

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