Manufacturing and potential applications of lattice structures in thermal systems: A comprehensive review of recent advances
Lattice structures are a class of cellular materials with enhanced thermomechanical
properties compared with their counterpart cellular materials such as foams. They have …
properties compared with their counterpart cellular materials such as foams. They have …
Enhancement in the mechanical behaviour of a Schwarz Primitive periodic minimal surface lattice structure design
Triply periodic minimal surface (TPMS) sheet lattice structures are composed of continuous
and smooth shells, enabling the achievement of a high surface-to-volume ratio and pore …
and smooth shells, enabling the achievement of a high surface-to-volume ratio and pore …
Bioinspired hierarchical diamond triply periodic minimal surface lattices with high energy absorption and damage tolerance
Porous solids are widely utilized in natural and engineering systems due to their exceptional
specific mechanical response and customizable properties. However, lightweight cellular …
specific mechanical response and customizable properties. However, lightweight cellular …
Utilization of additive manufacturing in the thermal design of electrical machines: A review
Additive manufacturing (AM) is a key technology for advancing many fields, including
electrical machines. It offers unparalleled design freedom together with low material waste …
electrical machines. It offers unparalleled design freedom together with low material waste …
Thermal-hydraulic performance of additively manufactured lattices for gas turbine blade trailing edge cooling
Gas turbine blade trailing edge cooling is challenging because of the stringent geometrical
constraints driven by aerodynamics and thermal stresses. The blade topology becomes …
constraints driven by aerodynamics and thermal stresses. The blade topology becomes …
Periodic heat transfer characteristics of additively manufactured lattices
In the present study, the flow and heat transfer characteristics of lattices with four different
unit cell topologies, namely,(a) Octet,(b) FD-Cube,(c) Tetrakaidecahedron (TKD), and (d) …
unit cell topologies, namely,(a) Octet,(b) FD-Cube,(c) Tetrakaidecahedron (TKD), and (d) …
Generalized correlation for effective thermal conductivity of high porosity architectured materials and metal foams
This paper presents a numerical study on the effective thermal conductivity (k eff) of
architectured materials typically realized through additive manufacturing. Four different unit …
architectured materials typically realized through additive manufacturing. Four different unit …
[HTML][HTML] Design and optimization of graded lattice structures with load path-oriented reinforcement
Lattice structures have been increasingly used in load-carrying applications due to their
exceptional mechanical performance. This study presents a novel load path methodology for …
exceptional mechanical performance. This study presents a novel load path methodology for …
Effects of inherent surface roughness of additively manufactured lattice frame material on flow and thermal transport
Additively manufactured (AM) fiber-based lattice topologies provide superior thermal and
mechanical performance. For true characterization of flow and thermal transport of AM …
mechanical performance. For true characterization of flow and thermal transport of AM …
Significance of the natural convection to the heat transfer of porous media: A pore-scale study
Heat conduction in porous media is generally accompanied by the natural convection of the
fluid within the pores driven by the temperature gradient. However, the criterion to determine …
fluid within the pores driven by the temperature gradient. However, the criterion to determine …