Add to ORKGIn this work, we study the thermo-mechanical behavior of metallic structures designed to significantly change shape in response to thermal stimuli. This behavior is achieved by arranging two metals with different coefficient of thermal expansion (CTE), Aluminum and Titanium, as to create displacement-amplifying units that can expand uniaxially. In particular, our design comprises a low-CTE bar surrounded by a high-CTE frame that features flexure hinges and thicker links. When the temperature increases, the longitudinal expansion of the high-CTE portion is geometrically constrained by the low-CTE bar, resulting in a large tangential displacement. Our design is guided by theoretical models and numerical simulations. We validate our approach b...
Thermal Expansion is a material property that must be accounted for when designing objects where the...
A family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) ...
A novel method to systematically vary temperature and thus study the resulting microstructure of a m...
In this work, we study the thermo-mechanical behavior of metallic structures designed to significant...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
We design, fabricate, and test thin thermally stable metastructures consisting of bi-metallic unit c...
Architected materials can be rationally designed to attain mechanical and physical properties often ...
Ice floating on water is a great manifestation of negative thermal expansion (NTE) in nature. The li...
The geometry and constituent materials of metastructures can be used to engineer the thermal expansi...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
Systems in extreme thermal environments are susceptible to severe temperature changes. Variations in...
AbstractThermoelastic triangular cell lattices composed of bi-material curved ribs were designed and...
Thermal expansion control is key to further optimization of systems with large heat gradients or cha...
Materials with engineered thermal expansion coefficients, capable of avoiding failure or irreversibl...
Thermal Expansion is a material property that must be accounted for when designing objects where the...
A family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) ...
A novel method to systematically vary temperature and thus study the resulting microstructure of a m...
In this work, we study the thermo-mechanical behavior of metallic structures designed to significant...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
We design, fabricate, and test thin thermally stable metastructures consisting of bi-metallic unit c...
Architected materials can be rationally designed to attain mechanical and physical properties often ...
Ice floating on water is a great manifestation of negative thermal expansion (NTE) in nature. The li...
The geometry and constituent materials of metastructures can be used to engineer the thermal expansi...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
Systems in extreme thermal environments are susceptible to severe temperature changes. Variations in...
AbstractThermoelastic triangular cell lattices composed of bi-material curved ribs were designed and...
Thermal expansion control is key to further optimization of systems with large heat gradients or cha...
Materials with engineered thermal expansion coefficients, capable of avoiding failure or irreversibl...
Thermal Expansion is a material property that must be accounted for when designing objects where the...
A family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) ...
A novel method to systematically vary temperature and thus study the resulting microstructure of a m...