Add to ORKGIn this paper, a methodology to evaluate the dynamic fracture toughness of polymethyl methacrylate (PMMA) is presented. The proposed methodology is based on a hybrid-numerical formulation and requires the evaluation of the dynamic stress intensity factor along the experimentally measured dynamic crack fronts, and the three-parameter Weibull stress model for brittle fracture. The apparent fracture toughness master curves are determined for Double Cantilever Beam (DCB) specimens of PMMA with different thickness
A measuring method was proposed to evaluate the dynamic fracture toughness of materials using pre-cr...
In this paper a volume criterion based on a simple scalar quantity, the mean value of the strain ene...
This article presents the response of polymethyl methacrylate (PMMA) subjected to large strains, hig...
We adopt a recently developed technique, dynamic semicircular bend testing, to measure the fracture ...
The recently developed compact compression specimen (CCS) — H integral technique is applied to the c...
A combined experimental/numerical study has been conducted to investigate dynamic fractures in poly(...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
An impact three-point bend testing apparatus was developed using the split Hopkinson bar technique. ...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
A cohesive zone model (CZM) was used in conjunction with the finite volume method to simulate the dy...
The paper presents two energy-based approaches to predict the fracture trajectory and the fracture l...
AbstractThe determination of relevant constitutive crack propagation laws under dynamic loading is a...
Mode-I fracture strength and crack growth trajectory of polymethylmethacrylate (PMMA) samples have b...
AbstractDynamic fracture tests have been performed with rubber toughened polymethylmethacrylate (RT-...
Fracture tests were performed on a granular PMMA porous material used as a mold for white ware casti...
A measuring method was proposed to evaluate the dynamic fracture toughness of materials using pre-cr...
In this paper a volume criterion based on a simple scalar quantity, the mean value of the strain ene...
This article presents the response of polymethyl methacrylate (PMMA) subjected to large strains, hig...
We adopt a recently developed technique, dynamic semicircular bend testing, to measure the fracture ...
The recently developed compact compression specimen (CCS) — H integral technique is applied to the c...
A combined experimental/numerical study has been conducted to investigate dynamic fractures in poly(...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
An impact three-point bend testing apparatus was developed using the split Hopkinson bar technique. ...
Dynamic fracture of polymers plays a vital role in engineering applications. Dynamic fracture behavi...
A cohesive zone model (CZM) was used in conjunction with the finite volume method to simulate the dy...
The paper presents two energy-based approaches to predict the fracture trajectory and the fracture l...
AbstractThe determination of relevant constitutive crack propagation laws under dynamic loading is a...
Mode-I fracture strength and crack growth trajectory of polymethylmethacrylate (PMMA) samples have b...
AbstractDynamic fracture tests have been performed with rubber toughened polymethylmethacrylate (RT-...
Fracture tests were performed on a granular PMMA porous material used as a mold for white ware casti...
A measuring method was proposed to evaluate the dynamic fracture toughness of materials using pre-cr...
In this paper a volume criterion based on a simple scalar quantity, the mean value of the strain ene...
This article presents the response of polymethyl methacrylate (PMMA) subjected to large strains, hig...