Add to ORKGThis ongoing investigation aims to learn from nature novel material organizations and structural systems in order to develop innovative architectural system. We developed a multidisciplinary approach, using scientific analysis and design research and prototyping. We focus on the study of a \u93living fossil\u94 fish, whose armor system is so efficient it has remained almost unchanged for millions of years. We investigate its morphological characteristics, its structural properties, the assembly mechanisms and the underlying material properties in order to derive new principles to design new enhanced structural systems. We use micro computerized tomography and scanning electron microscopy to observe microstructures, parametric design to reco...
The high demand for engineering lightweight materials with an optimal strength- toughness balance is...
Motivated by designing bioinspired flexible armor, we study deformable layered materials reminiscent...
Mother nature is an ingenious master on developing efficient structural and functional materials, wh...
This paper explores several lamellar structures found in nature, which have been shown to possess su...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Thesis (Ph.D.)--University of Washington, 2017-08In the search for advanced structural materials, sc...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2012.Cataloge...
Motivated by designing bioinspired fl exible armor, we study deformable layered materials reminiscen...
Composites play an important role as structural materials in a range of engineering fields due to th...
AbstractBiological structures integrate morphometry (shape-based rules) with materials design to max...
The rise in structural performance requirements in engineering is driving the research and developme...
Nature produces a multitude of composite materials with intricate architectures that in many instanc...
Nature produces a multitude of composite materials with intricate architectures that in many instanc...
In the quest of increasing safety and efficiency in structural applications, learning from natural m...
Biomimetic is a design approach to solve engineering problems, by reproducing characteristics found ...
The high demand for engineering lightweight materials with an optimal strength- toughness balance is...
Motivated by designing bioinspired flexible armor, we study deformable layered materials reminiscent...
Mother nature is an ingenious master on developing efficient structural and functional materials, wh...
This paper explores several lamellar structures found in nature, which have been shown to possess su...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Thesis (Ph.D.)--University of Washington, 2017-08In the search for advanced structural materials, sc...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2012.Cataloge...
Motivated by designing bioinspired fl exible armor, we study deformable layered materials reminiscen...
Composites play an important role as structural materials in a range of engineering fields due to th...
AbstractBiological structures integrate morphometry (shape-based rules) with materials design to max...
The rise in structural performance requirements in engineering is driving the research and developme...
Nature produces a multitude of composite materials with intricate architectures that in many instanc...
Nature produces a multitude of composite materials with intricate architectures that in many instanc...
In the quest of increasing safety and efficiency in structural applications, learning from natural m...
Biomimetic is a design approach to solve engineering problems, by reproducing characteristics found ...
The high demand for engineering lightweight materials with an optimal strength- toughness balance is...
Motivated by designing bioinspired flexible armor, we study deformable layered materials reminiscent...
Mother nature is an ingenious master on developing efficient structural and functional materials, wh...