Add to ORKGUltrasonic fractography and scanning electronic microscopy (SEM) are used to determine the direct relationship between the fracture surface morphology and the main crack velocity during the rapid rupture of polymethylmethacrylate (PMMA). Two critical crack velocities are found for the fracture. Quasi-parabolic markings will appear when the crack speed exceeds the first critical speed. Crack propagating at speed above the second critical speed leaves a thicket of small branches penetrating the surface behind them. Both critical speeds are functions of the thickness of the specimens
Abstract. The occurrence of various instabilities at very high speed is well known to occur in britt...
Analysis of failure mechanisms under high strain rate loading in engineering materials is a key poin...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
International audienceThis work aims at studying the conditions for fragmentation and further crack ...
A combined experimental/numerical study has been conducted to investigate dynamic fractures in poly(...
18 pages, 21 figures, to appear in International Journal of FractureInternational audienceLinear Ela...
An experimental procedure is proposed to measure the lowest elastic stored energy density leading to...
High-speed holographic microscopy is applied to take three successive photographs of fast propagatin...
Some observations are made on the fractography of surfaces obtained by cracking “compact tension” pr...
Crack front evolution in polymethyl methacrylate (PMMA) beams was measured during quasi static three...
Real-time control of the direction of a propagating crack is little explored area of management of s...
We adopt a recently developed technique, dynamic semicircular bend testing, to measure the fracture ...
Mode-I fracture strength and crack growth trajectory of polymethylmethacrylate (PMMA) samples have b...
Crack propagation is the fundamental mechanism responsible for catastrophic breakdown of brittle mat...
Three optical methods will be presented which, together with adequate measuring devices of short tim...
Abstract. The occurrence of various instabilities at very high speed is well known to occur in britt...
Analysis of failure mechanisms under high strain rate loading in engineering materials is a key poin...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
International audienceThis work aims at studying the conditions for fragmentation and further crack ...
A combined experimental/numerical study has been conducted to investigate dynamic fractures in poly(...
18 pages, 21 figures, to appear in International Journal of FractureInternational audienceLinear Ela...
An experimental procedure is proposed to measure the lowest elastic stored energy density leading to...
High-speed holographic microscopy is applied to take three successive photographs of fast propagatin...
Some observations are made on the fractography of surfaces obtained by cracking “compact tension” pr...
Crack front evolution in polymethyl methacrylate (PMMA) beams was measured during quasi static three...
Real-time control of the direction of a propagating crack is little explored area of management of s...
We adopt a recently developed technique, dynamic semicircular bend testing, to measure the fracture ...
Mode-I fracture strength and crack growth trajectory of polymethylmethacrylate (PMMA) samples have b...
Crack propagation is the fundamental mechanism responsible for catastrophic breakdown of brittle mat...
Three optical methods will be presented which, together with adequate measuring devices of short tim...
Abstract. The occurrence of various instabilities at very high speed is well known to occur in britt...
Analysis of failure mechanisms under high strain rate loading in engineering materials is a key poin...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...