Add to ORKGThe role of loading rate and fluid properties in the fracture of piping under internal explosions is an important issue for designers and accident analysis. This was examined by fracture experiments on thin-walled and preflawed aluminum 6061-T6 tubes. The tubes were (1) statically loaded with oil, (2) statically loaded with nitrogen, and (3) dynamically loaded with gaseous detonations traveling at 2.4 km/s. The tubes were also instrumented with pressure transducers, crack detection gages, and strain gages. The experiments were controlled so that comparisons could be made on identical specimens. Fracture behavior was discussed along with fluid dynamics
This paper reports the results of experiments and finite element simulations on the structural respo...
International audienceThin walled metal pressure vessels or pipes commonly used in industry can burs...
The fracture behavior of pipes with penetrating cracks was experimentally investigated with the resu...
The role of loading rate and fluid properties in the fracture of piping under internal explosions is...
Detonation waves in gas-filled piping or tubing pose special challenges in analysis and prediction o...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
The dynamic load in tubes due to detonation has a number of applications, such as in oil pipeline sy...
Elastic and plastic deformation of tubes to internal detonations and the shock waves produced by th...
We report the experimental conditions and results for a series of experiments involving detonation l...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
Elastic and plastic deformation of tubes to internal deto-nations and the shock waves produced by th...
When a detonation wave propagates through a piping system, it acts as a traveling pressure load to t...
AbstractWe report the experimental conditions and results for a series of experiments involving deto...
ABSTRACT: A test program was conducted to investigate the failure modes of undamaged and damaged gra...
This paper reports the results of experiments and finite element simulations on the structural respo...
International audienceThin walled metal pressure vessels or pipes commonly used in industry can burs...
The fracture behavior of pipes with penetrating cracks was experimentally investigated with the resu...
The role of loading rate and fluid properties in the fracture of piping under internal explosions is...
Detonation waves in gas-filled piping or tubing pose special challenges in analysis and prediction o...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
The dynamic load in tubes due to detonation has a number of applications, such as in oil pipeline sy...
Elastic and plastic deformation of tubes to internal detonations and the shock waves produced by th...
We report the experimental conditions and results for a series of experiments involving detonation l...
This paper deals with the structural response of a tube to an internal gaseous detonation. An intern...
Elastic and plastic deformation of tubes to internal deto-nations and the shock waves produced by th...
When a detonation wave propagates through a piping system, it acts as a traveling pressure load to t...
AbstractWe report the experimental conditions and results for a series of experiments involving deto...
ABSTRACT: A test program was conducted to investigate the failure modes of undamaged and damaged gra...
This paper reports the results of experiments and finite element simulations on the structural respo...
International audienceThin walled metal pressure vessels or pipes commonly used in industry can burs...
The fracture behavior of pipes with penetrating cracks was experimentally investigated with the resu...