Abstract
Fracture toughness testing on standard specimens in the ductile to brittle transition regime is
well established and was first standardized by ASTM in 1997. However, its applicability to structural components
and its potential conservatism, due to the high constraint condition in standard specimens, remain
a subject of concern. In this work a study of the transferability of the fracture toughness measurements from
laboratory specimens to structural components is performed. The structural component of interest is the
Reactor Pressure Vessel subjected to an accidental loading condition called Pressurized Thermal Shock
PTS. As the actual component cannot be reasonably tested, an original experimental set-up is developed
to simulate PTS representative loading conditions. A semi-elliptical crack is introduced by fatigue in a disk
shape specimen which is biaxial loaded in the ductile to brittle transition regime. The developed disk
specimen is called PTS-D specimen. Master Curve tests on 15 PTS-D specimens are performed and
compared to standard size specimens having deep and shallow cracks. The reference temperature obtained
on PTS-D is equivalent to the one obtained on half-inch compact tension specimens.
Original language | English |
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Pages (from-to) | 1-14 |
Journal | Journal of ASTM International |
Volume | 5 |
Issue number | 9 |
DOIs | |
State | Published - Oct 2008 |