All Videos Tagged GH (RhinoFabStudio) - RhinoFabStudio2024-03-28T09:06:21Zhttps://rhinofablab.com/video/video/listTagged?tag=GH&rss=yes&xn_auth=noSOFiSTiK Mesh Optimization with Grasshoppertag:rhinofablab.com,2020-03-07:4439072:Video:1968592020-03-07T15:36:56.870ZAndres Gonzalezhttps://rhinofablab.com/profile/AndresGonzalez
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</a><br />Explore Mesh options with Grasshopper interface. Traditional modeling methods are not possible to optimise the meshing structure but GH workflow makes it pos...
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</a><br />Explore Mesh options with Grasshopper interface. Traditional modeling methods are not possible to optimise the meshing structure but GH workflow makes it pos... Norman Foster Foundation Atelier 2019—Roboticstag:rhinofablab.com,2019-11-24:4439072:Video:1960092019-11-24T23:57:51.029ZAndres Gonzalezhttps://rhinofablab.com/profile/AndresGonzalez
<a href="https://rhinofablab.com/video/norman-foster-foundation-atelier-2019-robotics"><br />
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</a> <br></br>Described by the Workshop Mentor, Xavier De Kestelier, as ‘the inception of the Fourth Industrial Revolution,’ the third edition of the Robotics Atelier, which took place from the 4th to the 8th November of 2019, tested the limits of 3D printing and its potential applications.<br></br>
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Largely focused on prints made with recycled plastics recovered from the…
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</a><br />Described by the Workshop Mentor, Xavier De Kestelier, as ‘the inception of the Fourth Industrial Revolution,’ the third edition of the Robotics Atelier, which took place from the 4th to the 8th November of 2019, tested the limits of 3D printing and its potential applications.<br />
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Largely focused on prints made with recycled plastics recovered from the planet’s oceans, the Workshop aimed to continue the ground-breaking innovations made possible by 3D printing within the architecture and construction industries. Its design possibilities were considered by both students and professors alike, reconciling the dimensions of form, material and performance into one complex system capable of responding to the various questions, both ethical and technical, raised by its use.<br />
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With the participation of ten scholars selected to develop their research projects under the mentorship of De Kestelier alongside Manuel Jiménez García, the Workshop included six seminars given by accredited academic professors and industry professionals, several working sessions, group reviews and one-on-one tutoring, as well as a guided tour of the Reina Sofía Museum and the Medialab-Prado. In addition, more than two hundred and fifty guests were invited to attend the Public Debates moderated by chairman Tim Stoner on November 5th, in which various members of the academic body took part. The lectures and working sessions were also documented and recorded for their contents to be included in the Norman Foster Foundation’s Archive, accessible to scholars and researchers around the globe. ITECH MSc. 2016 - Bending-Active Segmented Shellstag:rhinofablab.com,2017-01-12:4439072:Video:1796452017-01-12T19:36:16.165ZAndres Gonzalezhttps://rhinofablab.com/profile/AndresGonzalez
<a href="https://rhinofablab.com/video/itech-msc-2016-bending-active-segmented-shells"><br />
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</a> <br></br>Bending-Active Segmented Shells<br></br>
Jan Brütting<br></br>
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Inst. of Building Structures & Structural Design (Prof. Knippers)<br></br>
Inst. for Computational Design (Prof. Menges)<br></br>
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Thesis Advisors: Axel Körner, Daniel Sonntag<br></br>
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Thesis Supervisor: Prof. Dr.-Eng. Jan Knippers<br></br>
Second Supervisor: Prof. Achim Menges<br></br>
<br></br>
The…
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</a><br />Bending-Active Segmented Shells<br />
Jan Brütting<br />
<br />
Inst. of Building Structures & Structural Design (Prof. Knippers)<br />
Inst. for Computational Design (Prof. Menges)<br />
<br />
Thesis Advisors: Axel Körner, Daniel Sonntag<br />
<br />
Thesis Supervisor: Prof. Dr.-Eng. Jan Knippers<br />
Second Supervisor: Prof. Achim Menges<br />
<br />
The presented Master Thesis aimed to develop a system and design process for Bending-Active Segmented Shells. Here, shell components are elastically bent and connected to form a shell structure. The research investigated the basic principles, materials and fabrication techniques as well as the structural behavior and possible design space of the developed system. This was the basis for the implementation of an integrative design and analysis tool in which parametric design and Finite-Element Analysis is combined.<br />
In general, bending-active structures show spatial, curved forms which are achieved by elastically bending initially flat or planar elements. This is advantageous because curved segments can be fabricated without extensive formwork or scaffolding.<br />
The later connection of multiple bent strips allows to build continuous freeform shell structures with a very simple and economic construction. It has potential to reduce material usage, waste and labor compared to common construction methods for shells.<br />
Due to the stresses from the bending process, the elements have to be comparatively thin and flexible. This results in a very low structural capacity of the single strips. By joining the segments to a double-curved shell surface, membrane action as the governing load bearing behavior is achieved and makes the system structurally very efficient.<br />
Through the connection of the strips along their edges, different freeform geometries can be achieved.<br />
The thesis shows that it is possible to build freeform shell structures only with the very simple process of active bending. No additional formwork is necessary. Through the efficient structural behavior of the shell, very filigree, thin and light structures can be designed. Simulations and analyses showed that the system has potential to be used in different building scales e.g. for facades or roofs. The initial production of the shell segments in a planar state makes their transport easier compared to spatial components. The elastic bending is reversible and allows for temporary constructions with multiple applications. Materials like wood or fiber-reinforced polymers have potential to be used for the shell segments because they show a high strength at a comparatively low Young’s modulus what allows small bending radii. Grasshopper Tekla Live Link Beta Bridge Demo Pt2tag:rhinofablab.com,2017-01-10:4439072:Video:1796352017-01-10T18:38:03.822ZAndres Gonzalezhttps://rhinofablab.com/profile/AndresGonzalez
<a href="https://rhinofablab.com/video/grasshopper-tekla-live-link-beta-bridge-demo-pt2"><br />
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</a><br />Grasshopper Tekla Live Link Beta Bridge Demo Pt2
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</a><br />Grasshopper Tekla Live Link Beta Bridge Demo Pt2 Best Fest Installationtag:rhinofablab.com,2016-12-09:4439072:Video:1785242016-12-09T22:25:19.637ZAndres Gonzalezhttps://rhinofablab.com/profile/AndresGonzalez
<a href="https://rhinofablab.com/video/best-fest-installation"><br />
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</a><br />We installed 16' high stage set pieces in the 2nd floor lobby in front of the Univ. of Oregon Art and Architecture library. If you are in Eugene, please stop by on Dec. 5, 2016 at 3pm to chat about how they were made and have snacks.
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</a><br />We installed 16' high stage set pieces in the 2nd floor lobby in front of the Univ. of Oregon Art and Architecture library. If you are in Eugene, please stop by on Dec. 5, 2016 at 3pm to chat about how they were made and have snacks.