In this work, an experimental and numerical analysis of a lattice structure for energy absorption was carried out. The goal was to identify the most influencing parameters of the unit cell on the crushing performances of the structure, thus guiding the design of energy absorbers. Two full factorial plans of compression tests on cubic specimens of carbon nylon produced by fused deposition modeling (FDM) were performed. The factors were the beam diameter and the number of unit cells. In the first factorial plan, the specimen volume is constant and the dimensions of the unit cell are varied, while the second factorial plan assumes a constant size of the unit cell and the volume changes in accordance with their number. The results showed that t...
Two different crash energy absorbing concepts for road and railway vehicles are introduced, which we...
In passenger vehicles the ability to absorb energy due to impact and be survivable for the occupant ...
The purpose of this project is to design and analyse the energy absorbing capabilities of a unique ...
In this work, an experimental and numerical analysis of a lattice structure for energy absorption wa...
Thin-walled energy absorbers are one of the common structures that are used in vehicle body for incr...
In this study, the energy absorption capabilities of a kirigami-inspired auxetic structure under com...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy ...
In this paper, the energy absorption response of single and multi-cell profiles with different cross...
In the design of vehicle structures for crashworthiness there is a need for rigid subsystems that gu...
Innovative additive manufacturing processes open new design opportunities, in the field of periodic ...
This paper aims to evaluate the potential use of an innovative functionally graded lattice-filled co...
Commonly adopted shock absorbers and, in general, crashworthy structural components, based on sandwi...
In this study, the effect of lattice-core geometry in sandwich panels is studied. The relationship b...
Composite structures have excellent performance related to energy absorption during crush events. Am...
The front beam of vehicle body is the most important component for energy dissipation during frontal...
Two different crash energy absorbing concepts for road and railway vehicles are introduced, which we...
In passenger vehicles the ability to absorb energy due to impact and be survivable for the occupant ...
The purpose of this project is to design and analyse the energy absorbing capabilities of a unique ...
In this work, an experimental and numerical analysis of a lattice structure for energy absorption wa...
Thin-walled energy absorbers are one of the common structures that are used in vehicle body for incr...
In this study, the energy absorption capabilities of a kirigami-inspired auxetic structure under com...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy ...
In this paper, the energy absorption response of single and multi-cell profiles with different cross...
In the design of vehicle structures for crashworthiness there is a need for rigid subsystems that gu...
Innovative additive manufacturing processes open new design opportunities, in the field of periodic ...
This paper aims to evaluate the potential use of an innovative functionally graded lattice-filled co...
Commonly adopted shock absorbers and, in general, crashworthy structural components, based on sandwi...
In this study, the effect of lattice-core geometry in sandwich panels is studied. The relationship b...
Composite structures have excellent performance related to energy absorption during crush events. Am...
The front beam of vehicle body is the most important component for energy dissipation during frontal...
Two different crash energy absorbing concepts for road and railway vehicles are introduced, which we...
In passenger vehicles the ability to absorb energy due to impact and be survivable for the occupant ...
The purpose of this project is to design and analyse the energy absorbing capabilities of a unique ...