Abstract
This scientific research deals with lattice structures manufactured with laser powder bed fusion. Laser powder bed fusion is part of additive manufacturing. The so called layered construction is an increasingly used innovative manufacturing process that can be used to realize new design possibilities. Lightweight structures or bionic structures play a key role here. The focus of this work is on periodic lattice structures. In addition to saving resources and reducing the weight of components, lattice structures have particularly pronounced mechanical properties. However, little is known about their thermo- and fluid-dynamic properties. This work describes the first influencing factors of lattice structures ina thermo- and fluid-dynamic context using a case study. The aim of this paper is to evaluate important design and simulation criteria of lattice structures. Different lattice structures are considered, whose strut geometry is varied. The case study is carried out using a heat exchanger. While classical heat exchangers have lamellar structures, the substitution of these by lattice structures is evaluated. Thiswork represents a first consideration of the most important parameters and gives an overview of the most important core points.
Highlights
This preliminary investigation is a primary work which investigates the thermo- and fluid dynamic behaviour of lattice structures.Heat development and heat dissipation are an issue within machines and engines
The focus of this research work is on periodic lattice structures, which represent a special form of lightweight structures. [1,2,3,4,5]
Lightweight construction was linked to the automotive industry, but has the potential to be adapted to other fields of application
Summary
This preliminary investigation is a primary work which investigates the thermo- and fluid dynamic behaviour of lattice structures.Heat development and heat dissipation are an issue within machines and engines. This preliminary investigation is a primary work which investigates the thermo- and fluid dynamic behaviour of lattice structures. The optimisation of a heat exchanger is discussed as an example This is done with reference to the constant changes in the automotive industry, which requires lighter and more efficient components. With this process it is possible to produce almost all geometries in one process. The focus of this research work is on periodic lattice structures, which represent a special form of lightweight structures. The focus of this research work is on periodic lattice structures, which represent a special form of lightweight structures. [1,2,3,4,5]
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