The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is investigated through numerical simulations and experiments. Specifically, the problem of optimizing a combination of effective toughness and effective elastic modulus in the context of a square array of compliant inclusions in a stiff matrix is explored. Crack propagation in the heterogeneous material is simulated using a variational phase-field approach. It is found that the crack can meander between or get attracted to and trapped in the inclusions. Composite specimens with a stiff matrix and compliant circular inclusions were 3D printed, and their fracture toughness was measured using a specially designed loading fixture. The experimental re...
Composite materials are designed in order to combine the favorable properties of their components. F...
Developments in additive manufacturing have enabled the reinforcement of ceramic composites across t...
Osteonal bones are crack-tolerant due to their repair activity and special tissue structures formed ...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
New manufacturing techniques, such as 3D printing, allow for greater control over material propertie...
Despite good thermal and chemical properties, the use of ceramic materials in structural application...
International audienceThis paper addresses the question of the homogenization of fracture properties...
Composite materials are widely used because of their extraordinary performance. It is understood tha...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
This dissertation studies the impact of microstructure on macro-scale fracture parameters. Experimen...
Advanced manufacturing techniques such as extrusion-based methods have enabled the fabrication of ce...
International audienceConsidering a semi-infinite crack propagating within a plane where the local f...
AbstractExperimental simulations of dynamic crack growth past inclusions of two different elastic mo...
Composite materials are designed in order to combine the favorable properties of their components. F...
Developments in additive manufacturing have enabled the reinforcement of ceramic composites across t...
Osteonal bones are crack-tolerant due to their repair activity and special tissue structures formed ...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
International audienceA powerful semi-analytical method is developed to investigate the impact of to...
New manufacturing techniques, such as 3D printing, allow for greater control over material propertie...
Despite good thermal and chemical properties, the use of ceramic materials in structural application...
International audienceThis paper addresses the question of the homogenization of fracture properties...
Composite materials are widely used because of their extraordinary performance. It is understood tha...
We present a simple example of a toughening mechanism in the homogenization of composites with soft ...
This dissertation studies the impact of microstructure on macro-scale fracture parameters. Experimen...
Advanced manufacturing techniques such as extrusion-based methods have enabled the fabrication of ce...
International audienceConsidering a semi-infinite crack propagating within a plane where the local f...
AbstractExperimental simulations of dynamic crack growth past inclusions of two different elastic mo...
Composite materials are designed in order to combine the favorable properties of their components. F...
Developments in additive manufacturing have enabled the reinforcement of ceramic composites across t...
Osteonal bones are crack-tolerant due to their repair activity and special tissue structures formed ...