Add to ORKGThis paper presents a detailed study of the folding and deployment of a slotted tube hinge made from a two-ply laminate of carbon-fibre reinforced plastic. A physical model of a particular version of this binge has been used to carry out quasi-static deployment tests and this process has been fully captured through a finite element simulation. The first stage in this simulation was to generate the fully folded, strained configuration of the hinge. The second stage in the simulation was to gradually decrease the relative rotation between the ends until it became zero. By analysing the in-plane strains and out-of-plane curvatures in the folded configuration we have confirmed that the particular hinge design that has been studied could be fold...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...
Thin-shell structures are becoming increasingly popular for space missions due to their high stiffne...
This paper presents a detailed study of the folding and deployment of a slotted tube hinge made from...
Deployable structures made from ultrathin composite materials can be folded elastically and are able...
Deployable structures made from ultra-thin composite materials can be folded elastically and are ab...
This paper considers a lightweight boom with an integral hinge consisting of a thin-walled tube made...
This paper presents a 1 m long self-deployable boom that could be folded around a spacecraft. Previo...
Thin-walled deployable composite structures with high strain ability are of considerable interest an...
The necessity of deployable mechanisms in the field of aerospace is inevitable due to volume limitat...
Abstract This paper presents a study of the folding of a new self-powered, self-latching tube hinge ...
This work presents an analysis and validation of a foldable boom actuated by tape-spring foldable el...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
The paper presents ongoing research and development of novel concepts for deployable space structure...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...
Thin-shell structures are becoming increasingly popular for space missions due to their high stiffne...
This paper presents a detailed study of the folding and deployment of a slotted tube hinge made from...
Deployable structures made from ultrathin composite materials can be folded elastically and are able...
Deployable structures made from ultra-thin composite materials can be folded elastically and are ab...
This paper considers a lightweight boom with an integral hinge consisting of a thin-walled tube made...
This paper presents a 1 m long self-deployable boom that could be folded around a spacecraft. Previo...
Thin-walled deployable composite structures with high strain ability are of considerable interest an...
The necessity of deployable mechanisms in the field of aerospace is inevitable due to volume limitat...
Abstract This paper presents a study of the folding of a new self-powered, self-latching tube hinge ...
This work presents an analysis and validation of a foldable boom actuated by tape-spring foldable el...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
The paper presents ongoing research and development of novel concepts for deployable space structure...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...
Thin-shell structures are becoming increasingly popular for space missions due to their high stiffne...