Structure, Stability, and Mechanical Behavior of Aluminum-Stainless Steel Composites: Fid-Bau Portal

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Structure, Stability, and Mechanical Behavior of Aluminum-Stainless Steel Composites

A. Pattniak / A. Lawley

The mechanical behavior of aluminum-stainless steel composites (Vf = 6.5% and 19.6%) was studied with particular reference to the role and stability of the interface. In particular, ambient temperature tensile yielding, flow, and fracture were correlated with the associated interface microstructures, matrix substructure, and fracture morphology in the as-pressed condition and following elevated-temperature exposure at 550C or 625C for 24 hours. (Author Modified Abstract)

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Structure, Stability, and Mechanical Behavior of Aluminum-Stainless Steel Composites

A. Pattniak / A. Lawley

The mechanical behavior of aluminum-stainless steel composites (Vf = 6.5% and 19.6%) was studied with particular reference to the role and stability of the interface. In particular, ambient temperature tensile yielding, flow, and fracture were correlated with the associated interface microstructures, matrix substructure, and fracture morphology in the as-pressed condition and following elevated-temperature exposure at 550C or 625C for 24 hours. (Author Modified Abstract)

Structure, Stability, and Mechanical Behavior of Aluminum-Stainless Steel Composites

A. Pattniak / A. Lawley

The mechanical behavior of aluminum-stainless steel composites (Vf = 6.5% and 19.6%) was studied with particular reference to the role and stability of the interface. In particular, ambient temperature tensile yielding, flow, and fracture were correlated with the associated interface microstructures, matrix substructure, and fracture morphology in the as-pressed condition and following elevated-temperature exposure at 550C or 625C for 24 hours. (Author Modified Abstract)

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Title:

Structure, Stability, and Mechanical Behavior of Aluminum-Stainless Steel Composites

Contributors:

A. Pattniak (author) / A. Lawley (author)

Publication date:

1973

Size:

41 pages

Type of media:

Report

Type of material:

No indication

Language:

English

Keywords:

Composite Materials , Composite materials , Aluminum , Stainless steel , Wire , Mechanical properties , Structural properties , Microstructure , Aluminum matrix composites , Steel reinforced composites , Wire reinforced composites , Metal matrix composites , Fiber composites

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