A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
New contributions to R-curves and bridging stresses - Applications of weight functions
Most ceramics show an increase of the crack growth resistance during crack propagation (R-curve behaviour). Reasons for such behaviour are bridging effects between opposite crack surfaces, phase transformations around the tip of a crack, and development of micro-cracking zones. This booklet predominantly deals with the bridging behaviour and the discussion of the observed effects in terms of the fracture mechanics weight function procedure.
New contributions to R-curves and bridging stresses - Applications of weight functions
Most ceramics show an increase of the crack growth resistance during crack propagation (R-curve behaviour). Reasons for such behaviour are bridging effects between opposite crack surfaces, phase transformations around the tip of a crack, and development of micro-cracking zones. This booklet predominantly deals with the bridging behaviour and the discussion of the observed effects in terms of the fracture mechanics weight function procedure.
New contributions to R-curves and bridging stresses - Applications of weight functions
Fett, Theo (author)
2012
Miscellaneous
Electronic Resource
English
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