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stiffnessBuilding
Composite bimaterial lattice structures which possess both low, tailorable thermal expansion and nearly optimal stiffness have been proposed for applications which require high structural stiffness in environments which include large temperature fluctuations, such as the surfaces of high-speed aerospace vehicles. An experimental validation of the thermal properties of these lattices when they are constructed of practical materials with easily manufactured bonded joints is contained herein. Bonded lattices, comprising aluminum and titanium alloys, have been manufactured with press-fit dovetail joints and tested in a variety of thermal environments. Results for equilibrium heating, rapid transient heating and thermal cycling leading to shaked...
In this work, we study the thermo-mechanical behavior of metallic structures designed to significant...
A simple snap-fit and vacuum brazing method has been developed to fabricate three dimensional space ...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
A family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) ...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
This thesis focused on the mechanisms involved in negative thermal expansion of 2D/3D lattice struct...
Microscale bi-material lattices with near zero thermal expansion are designed to create a thermally ...
Studies and experiments on the use of bimetallic lattice structures for determining and controlling ...
The unexpected thermal distortions and failures in engineering raise the big concern about thermal e...
This scientific research deals with lattice structures manufactured with laser powder bed fusion. La...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
peer-reviewedDeployable spacecraft technology should be both lightweight and compact for storage whi...
A study of the mechanical fatigue behavior of a Ti–6Al–4V lattice structure designed to exhibit cont...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
In the aerospace industry, thermal management concerns numerous components but is bounded to the lim...
In this work, we study the thermo-mechanical behavior of metallic structures designed to significant...
A simple snap-fit and vacuum brazing method has been developed to fabricate three dimensional space ...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
A family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) ...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
This thesis focused on the mechanisms involved in negative thermal expansion of 2D/3D lattice struct...
Microscale bi-material lattices with near zero thermal expansion are designed to create a thermally ...
Studies and experiments on the use of bimetallic lattice structures for determining and controlling ...
The unexpected thermal distortions and failures in engineering raise the big concern about thermal e...
This scientific research deals with lattice structures manufactured with laser powder bed fusion. La...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
peer-reviewedDeployable spacecraft technology should be both lightweight and compact for storage whi...
A study of the mechanical fatigue behavior of a Ti–6Al–4V lattice structure designed to exhibit cont...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
In the aerospace industry, thermal management concerns numerous components but is bounded to the lim...
In this work, we study the thermo-mechanical behavior of metallic structures designed to significant...
A simple snap-fit and vacuum brazing method has been developed to fabricate three dimensional space ...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
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