A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Ideal Fracture-Resistant Microstructures
The main objective of this grant is to quantify the concept of ideal microstructures for fracture resistance. To approach this goal, a variety of steels and heat treatments was investigated. Of particular interest was the resistance of different steels to failure by shear instability, which is much less well understood than tensile instability. While some information on shear-crack initiation is available in the literature, evidence on shear-crack propagation is very limited and mainly confined to very tough steels. Keywords: Microstructures, Fracture resistance, Steel, Shear instability, Tensile instability. (JES).
Ideal Fracture-Resistant Microstructures
The main objective of this grant is to quantify the concept of ideal microstructures for fracture resistance. To approach this goal, a variety of steels and heat treatments was investigated. Of particular interest was the resistance of different steels to failure by shear instability, which is much less well understood than tensile instability. While some information on shear-crack initiation is available in the literature, evidence on shear-crack propagation is very limited and mainly confined to very tough steels. Keywords: Microstructures, Fracture resistance, Steel, Shear instability, Tensile instability. (JES).
Ideal Fracture-Resistant Microstructures
A. R. Rosenfield (author) / J. P. Hirth (author) / M. Manoharan (author) / S. Raghavachary (author)
1988
9 pages
Report
No indication
English
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