Over the last 35 years, researchers worldwide have conducted hundreds
- if not thousands - of pipe fracture experiments. In the early years,
researchers focused their attention on studying the failure pressure
and crack propagation behavior of axially cracked pipe loaded by inter
nal pressure. The earliest work was sponsored by the oil and gas indus
try and, as such, involved relatively thin-walled, low toughness carbo
n steel pipes. This work was eventually followed up by efforts in the
USA and Germany on nuclear piping with axial cracks. In recent years,
attention has turned to understanding the behavior of circumferentiall
y cracked nuclear piping subjected to both pressure and bending loads.
The loading histories for these experiments range from the relatively
simple case of quasi-static, monotonic displacement control to the mo
re complex cases of dynamic cyclic loading, and pipe system experiment
s. In this paper, two of the leaders in this research, i.e. Battelle i
n the USA and MPA Stuttgart in Germany, have collaborated to develop a
database of pipe fracture experiments. The database includes data fro
m other organizations as well as the data from Battelle and MPA. In ad
dition, as part of this paper, an example of how the database was used
to assess the failure pressure of axially cracked pipe is given.