In this study, the failure mode and energy absorption capabilities of a composite shock absorber device, during an emergency landing are evaluated. The prototype has been installed and tested in laboratory simulating an emergency landing test condition. The crash absorber presents an innovative configuration able to reduce the loads transmitted to a helicopter fuselage during an emergency landing. It consists of a composite tailored tube installed on the landing gear strut. During an emergency landing this crash absorber system should be able to absorb energy through a pre-designed deformation. This solution, compared to an oleo-pneumatic shock absorber, avoids sealing checks, very high values of the shock absorber pressure, and results to ...
Water landings in emergency are likely to have tragic consequences for helicopters. Most of the safe...
The primary design goal crashworthiness in aerospace and automotive vehicles is to minimise the impa...
The objective of this paper is to investigate the impact loads on the occupants’ head, neck, and spi...
In this study, the failure mode and energy absorption capabilities of a composite shock absorber dev...
This paper defines an innovative concept to anti-crash absorber in composite material to be integrat...
The paper presents the basic guidelines for the design of a landing gear adopting a crash tube as an...
In the typical scenario of a helicopter crash, impact with the ground is preceded by a substantially...
Modern helicopters make extensive use of composite materials to reduce structural weight. These incl...
In the aircraft industry, crashworthiness design and certification phases have been and are going to...
From the beginning of the early 1960s helicopter seats underwent a deep evolution. They play a key r...
A new externally deployable energy absorbing system was demonstrated during a full-scale crash test ...
This thesis presents an investigation into the progressive crushing of composite materials with the ...
This paper describes an experimental and numerical investigation on the energy absorbing capabilitie...
In this paper, a crushable absorber system is designed to analyze the dynamic behavior and performan...
Water landings in emergency are likely to have tragic consequences for helicopters. Most of the safe...
The primary design goal crashworthiness in aerospace and automotive vehicles is to minimise the impa...
The objective of this paper is to investigate the impact loads on the occupants’ head, neck, and spi...
In this study, the failure mode and energy absorption capabilities of a composite shock absorber dev...
This paper defines an innovative concept to anti-crash absorber in composite material to be integrat...
The paper presents the basic guidelines for the design of a landing gear adopting a crash tube as an...
In the typical scenario of a helicopter crash, impact with the ground is preceded by a substantially...
Modern helicopters make extensive use of composite materials to reduce structural weight. These incl...
In the aircraft industry, crashworthiness design and certification phases have been and are going to...
From the beginning of the early 1960s helicopter seats underwent a deep evolution. They play a key r...
A new externally deployable energy absorbing system was demonstrated during a full-scale crash test ...
This thesis presents an investigation into the progressive crushing of composite materials with the ...
This paper describes an experimental and numerical investigation on the energy absorbing capabilitie...
In this paper, a crushable absorber system is designed to analyze the dynamic behavior and performan...
Water landings in emergency are likely to have tragic consequences for helicopters. Most of the safe...
The primary design goal crashworthiness in aerospace and automotive vehicles is to minimise the impa...
The objective of this paper is to investigate the impact loads on the occupants’ head, neck, and spi...