An experimental and numerical study of the dynamic deployment of stored strain energy deployable booms with tape-spring hinges made of woven carbon fiber composite is presented. The deployment consists of three phases: deployment, one or more attempts to latch, and a small amplitude vibration. Twelve nominally identical deployment experiments show that the deployment and vibration phases are repeatable, whereas considerable scatter is observed during latching. A high-fidelity finite element shell model of the complete boom is used to carry out complete dynamic simulations with the Abaqus/Explicit finite element software. These analyses provide detailed time histories of deformation and stress distribution. By varying the end conditions at t...
Thin shells made of high modulus material are widely used as lightweight deployable space structures...
The necessity of deployable mechanisms in the field of aerospace is inevitable due to volume limitat...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
This paper considers a lightweight boom with an integral hinge consisting of a thin-walled tube made...
Deployable structures made from ultra-thin composite materials can be folded elastically and are abl...
This work presents an analysis and validation of a foldable boom actuated by tape-spring foldable el...
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...
Deployable coilable booms are extendible structures that have been used in a number of space and ter...
Deployable structures made from ultrathin composite materials can be folded elastically and are able...
Thin composite boom structures find large applications in erospace systems such as satellites, deep ...
Deployable structures are required for many satellite operations, to deploy booms for communications...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
Thin shells made of high modulus material are widely used as lightweight deployable space structures...
The necessity of deployable mechanisms in the field of aerospace is inevitable due to volume limitat...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
An experimental and numerical study of the dynamic deployment of stored strain energy deployable boo...
This paper considers a lightweight boom with an integral hinge consisting of a thin-walled tube made...
Deployable structures made from ultra-thin composite materials can be folded elastically and are abl...
This work presents an analysis and validation of a foldable boom actuated by tape-spring foldable el...
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...
Deployable coilable booms are extendible structures that have been used in a number of space and ter...
Deployable structures made from ultrathin composite materials can be folded elastically and are able...
Thin composite boom structures find large applications in erospace systems such as satellites, deep ...
Deployable structures are required for many satellite operations, to deploy booms for communications...
This paper investigates the deployment behavior of lightweight flexible space structures consisting ...
Thin shells made of high modulus material are widely used as lightweight deployable space structures...
The necessity of deployable mechanisms in the field of aerospace is inevitable due to volume limitat...
Recently developed analysis techniques for thin shells that can be folded elastically and are able t...