Add to ORKGA family of robust stretch-dominated bimaterial lattices is introduced which combines low (or zero) thermal expansion with high stiffness, structural robustness over wide temperature ranges and manufacturing facility. This combination of properties is unavailable through any other material solution. The concept uses two constituents configured as adjoining sub-lattices. It accommodates the thermal expansion through rotation of the members of one sub-lattice. Moreover, the lattice exhibits large stiffness to weight because it is fully triangulated and does not rely on rotational resistance at the joints for structural rigidity. A wide range of constituents can be used to build the new lattices enabling many desirable properties to be incorpo...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
Hierarchical lattices are made of finer lattices in successive smaller scales. This paper analytical...
A recently recognized application of lattice materials is shape morphing technology, where a structu...
Composite bimaterial lattice structures which possess both low, tailorable thermal expansion and nea...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
The unexpected thermal distortions and failures in engineering raise the big concern about thermal e...
This thesis focused on the mechanisms involved in negative thermal expansion of 2D/3D lattice struct...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
Microscale bi-material lattices with near zero thermal expansion are designed to create a thermally ...
The current article explores 3D bi-material lattice concepts for tailoring compressive stress-strain...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
Cellular materials are ubiquitous in our world being found in natural and engineered systems as stru...
A simple snap-fit and vacuum brazing method has been developed to fabricate three dimensional space ...
The mechanical properties of seven semi-regular lattices were derived analytically for in-plane unia...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
Hierarchical lattices are made of finer lattices in successive smaller scales. This paper analytical...
A recently recognized application of lattice materials is shape morphing technology, where a structu...
Composite bimaterial lattice structures which possess both low, tailorable thermal expansion and nea...
Numerous structures that are used in the aerospace and automobile industries, microelectronics, and ...
The unexpected thermal distortions and failures in engineering raise the big concern about thermal e...
This thesis focused on the mechanisms involved in negative thermal expansion of 2D/3D lattice struct...
Thermally-responsive and thermally-tunable materials appeal to a variety of applications, especially...
Microscale bi-material lattices with near zero thermal expansion are designed to create a thermally ...
The current article explores 3D bi-material lattice concepts for tailoring compressive stress-strain...
The coefficient of thermal expansion (CTE) of architected materials, as opposed to that of conventio...
Cellular materials are ubiquitous in our world being found in natural and engineered systems as stru...
A simple snap-fit and vacuum brazing method has been developed to fabricate three dimensional space ...
The mechanical properties of seven semi-regular lattices were derived analytically for in-plane unia...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
In this work, we investigated tessellating cellular (or lattice) structures for use in a low thermal...
Hierarchical lattices are made of finer lattices in successive smaller scales. This paper analytical...
A recently recognized application of lattice materials is shape morphing technology, where a structu...