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Shelters and Small Houses.

Straight Timber Connections Precedents | Parametric Wood. Wood-to-Wood Connections Cross Timber Joints CNC milled connections Other Steel Connections Simpson Strong-Tie: Variable Connection installation video: Expressed Connection -Olson Kundig Architects Hidden Connection -internally threaded and factory bonded: node connection Material Considerations when connecting wood: -rings and shear plates can be used in laterally loaded timber joints-toothed plates work similarly but cannot be used for timbers with a density higher than 500 kg/m3. From: research.ttlchiltern.co.uk/pif294/tdk/geninfo/pdf/2-3_53.pdf Nails Nails are driven into the timber and push most of the fibres apart.

From: Geometric Considerations from: Like this: Hoshakuji Station | Kengo Kuma & Associates. Takanezawamachi, Tochigi Prefecture | Japan | Completed August 2005 – March 2008 Concept: The starting point was to open the east exit of Hoshakuji Station. We aimed at connecting the west and east sides of the station, which had been divided by the railroad. It eventually meant the link between the west and the east of the town of Takanezawa, and between the station and Chokkura Plaza & Shelters, which we designed in the east exit area. It is not a design of a station as a box, but is as an aperture. The aperture starts at its ‘neighbor’, Chokkura Plaza. Writer: Kengo Kuma Design team: KKAA and JR East Design Corporation Project partners: Structural engineers: JR East and Oak Structural Engineering Construction: Totetsu Kogyo Co., Ltd.

Evolving Roof, Naples 2005. Showthread. Source from Forschungspavillon ICD/ITKE - Sommer 2010 Autoren: Simon Schleicher, Julian Lienhard, Moritz Fleischmann Institut für Computerbasiertes Entwerfen - Prof. Achim Menges Institut für Tragkonstruktionen und Konstruktives Entwerfen - Prof. Ende Juli 2010 realisierten das Institut für Computerbasiertes Entwerfen (ICD) und das Institut für Tragkonstruktionen und Konstruktives Entwerfen (ITKE) der Universität Stuttgart einen temporären Forschungspavillon aus Holz.

An der Schnittstelle von Forschung und Lehre untersuchten die Wissenschaftler der beiden Institute in Zusammenarbeit mit den Studierenden, wie neuartige computerbasierte Entwurfsmethoden sowie die numerische Simulation des Tragwerks und Materialverhaltens zu neuen architektonischen und konstruktiven Möglichkeiten führen, die auf dem elastischen Biegeverhalten von Holz beruhen. Das Konstruktionsprinzip beruht auf elastisch gebogenen Sperrholzlamellen. Informationsmodell Tragwerk Atlas Kunststoffe + Membranen. Modeling a simple house Part 1 | Rhinoceros 3D Help - Tutorials, Links, Galleries, Forum, Jobs, Video, Commands, CAD, Training.

October 9th Architecture, Beginner, Modeling, Tutorials Pages: 1 2 3 This article has been viewed 113757 times. You can leave a response, or trackback from your own site. In this tutorial I will go through modeling this simple house in Rhinoceros without using any plugins like VisualARQ. Introduction Before we even start modeling we need Autocad plans of a house. Plans If you like, or if you get stuck with some step, you can download each step individually here: step 1 step 2 step 3 step 4 step 5 step 6 final Ok, in this first step we will be setting up our plans in 3D space. Ok, so lets start. You should have your layers setup like this Now we need separate layers for our views. Image 2 Next thing to do is to group each view and put the lines in its layers accordingly. image 3 image 4 We need to orient our blueprints so they fit in every viewport in Rhino, right now they are all oriented the same way visible in Top view. Image 5 image 6 And note the orientation of the letters above groups.

Image 7. MOLO by Michal Riabic & Martin Lepej by Michal Riabic at Coroflot. MOLO pavilion, Uniform Architects, Michal Riabic | Martin | Slovakia. Martinez, Kelly « URBAN ECOLOGIES. ContemPLAY pavilion: DESCRIPTION. ART Network » Responsive roof – GH definition. Art and Computing/CS450. Urban Lab Global Cities (ULGC): O-STRIP Pavilion by Tongji University Team. S h i f t: tomos ::: parametric furniture.

Visual Permeability Pavilion. PROJECT STATEMENT: The purpose of this pavilion is to provide multiple spaces for relaxation, contemplation, and social interaction. The two spaces within the project are broken apart, providing one space for two people to relax in a more private setting, and one space for four people to have a conversation or drink. The angling of the wooden slats was designed to maximize this separation for the private zone, and minimize it for the public zone; thus creating a gradient of visual permeability.

The form was derived from one continuous strip that wraps around itself, while touching the ground in minimal locations. The density of the slats is based on three density types: The densest zones are designated for walking and sitting, the medium zones are designated as backrest locations, and the lightest zones are meant for shading. This pavilion will act as a beacon to entice a passerby to come over, sit, and relax. Project Dimensions: Approx. 15.5′ Long X 7.58′ Wide X 6.83′ Tall. New Harmony Grotto: A reinterpretation of Frederick Kielser’s Grotto for Meditation / METALAB Architecture + Fabrication Rendering – ArchDaily. FIGMENT // June 11 - 13 // Governors Island, NYC. Sustainable Living Pavilion, United States by Behin + Ha - design top news. Sustainable Living Pavilion, United States by Behin + Ha October 24th, 2010 - Posted in Architecture Design In a demonstration of traditional community spirit, more than sixty volunteers from New York volunteered their time to make a house sustainable Behin Ha to its realization.

Living Pavilion “is the winner of a contest -” City of Dreams Pavilion – led by the participatory FIGMENT arts training new architects York Committee of the American Institute of Architects New York Chapter (ENYA) and Association of Structural Engineers New York (SEAoNY) to design and install a flag of architecture on Governors Island for the duration of the summer. Built over a period of three weeks – first in New Jersey, and on Governors Island – Living Pavilion is “low-tech, low-impact” architectural installation, consisting almost entirely of milk crates and natural flora.

Regarding the construction process, Behin Ha explain. Hex Sun Screen | Nai Wong. Dave stasiuk » Archive » Project: Distortion. Project: Distortion was an intensive, international design/build collaboration between faculty and students at the Royal Danish Academy of Fine Arts in Copenhagen and the Rensselaer Polytechnic Institute in upstate New York. Over the course of the Spring 2010 semester, the team designed and build a mobile pavilion intended to operate as a social and spatial nexus for the Distortion Festival, an active celebration of rave music and culture held annually in Copenhagen.

Although I participated actively in the conceptual design phase of the project, along with all of the other students on both sides of the Atlantic, my primary role in the project emerged during the the build phase. For this I specifically applied parametric tools for, arraying and documenting the initial configuration and then for solving the geometric inputs for the customized structural system for the final configuration. projectDistortion_setup Korsgadehallen / Copenhagen from CITA on Vimeo.

Hexagon « Pattern Redux. Pattern Redux Posts Tagged 'hexagon' Week 4_2 radial pattern on hexagon Published July 20, 2011 Class Leave a Comment Tags: geometry, grasshopper, hexagon, pattern, tessellation Week 4_1 islamic pattern Published July 19, 2011 Class Leave a Comment Tags: geometry, grasshopper, hexagon, pattern, tessellation original pattern Week 3_2 woven hexagon Published July 13, 2011 Class Leave a Comment Tags: geometry, grasshopper, hexagon, weaving Week 3_1 hexagonal grid + gradient Published July 12, 2011 Class Leave a Comment Tags: geometry, grasshopper, hexagon, tessellation Categories Recent Posts Blog Stats 74,162 hits Links Blog at WordPress.com.

Follow Get every new post delivered to your Inbox. Powered by WordPress.com. Blog Binturong: Grasshopper Tutorials Part 1.1. Grasshopper Tutorial - Placeholder II. Parametrics. Interacting with Climate Data We’ve design a web-based tool for architectural designers to interact with abstract climate data. Using D3JS, an EPW is parsed to study all of its parameters. Grasshopper+Three.JS+D3.JS As a follow-up to our previous post on two-dimensional browser interaction, we looked into Three.JS and added the library to our D3 workflow.

This method ties Grasshopper into browser rendering for user interaction. Grasshopper to D3JS This tool allows the user to toggle a button in Grasshopper to create a D3JS view. Taking a Grasshopper for a Walk We strive to be a platform agnostic firm, making sure we take advantage of whatever tool seems to fit the job best. Animating with Transformation Matrices in Grasshopper We created a user object to assist in animating complex transformations in Grasshopper. The Octahedron – SDF2013 Update to GH Graphic Programming Tool Diva Day 2013 Erick Katzenstein will be giving a presentation at DIVA Day in New York on July 15. Parametric. ICD/ITKE Research Pavilion 2010 – Stuttgart University. Today we head to Stuttgart University to check out a cross discipline designed research Pavilion, where students and professors from Institute of Building Structures and Structural Design and the Institute for Computational Design teamed up.

The pavilion is set in one of today’s concrete jungles and certainly brings all the life to the park through its investigation into computation design and today’s digital fabrication. Check it out after the jump! SCHOOL: Stuttgart University - ICD & ITKEPROFESSORS:Institute of Building Structures and Structural Design – Prof. Jan Knippers Institute for Computational Design – Prof.

In 2010, the Institute for Computational Design (ICD) and the Institute of Building Structures and Structural Design (ITKE) designed and constructed a temporary research pavilion. Material computes. The computational design model is based on embedding the relevant material behavioral features in parametric principles. All Text and Images via achimmenges.net Like this:

Parametric. Parametric pavilion [design + fabrication] « gmik. The project is a group work of 20 people, Working in five sub-groups. The presentation of the project included three panels and a video. The first panel included a diagrammatic overview of the project’s process in time, following the work of each one of the 5 work groups and emphasizing on important moments of meetings, decisions or overlapping pieces of work. The second one gave a different aspect of this process in time by demonstrating mostly the side of human interaction and collaboration. The third one was dedicated to the final project, with combined information on the parametric nature of it and images of the fabrication process as well as the dome itself. Construction face Find HERE the video of the whole proccess. Like this: Like Loading... Hexigloo Pavilion / Tudor Cosmatu, Irina Bogdan, Andrei Raducanu. Tutors: Tudor Cosmatu, Irina Bogdan, Andrei Raducanu Location: Bucharest, Romania Guest Tutors: Andrei Gheorghe, Alexander Kalachev, Bence Pap Students: Alexandru Damboianu, Andreea Nica, Andreea Hriscu, Ana Maria Pop, Bogdan Samoila, Cristian Bohanita, Daniel Mitrofan, Irina Sargov, Ina Dumitriu, Mihai Pascalau, Oena Eremia, Sorina Simion, Theodora Raduca Photographs: Courtesy of Bence Pap Hexigloo is a fully parametrically designed pavilion resulting out of a seven day workshop in Bucharest Romania organized by Tudor Cosmatu, Irina Bogdan, Andrei Radacau, and guest tutors Andrei Gheorge (Angewandte, Vienna) Alexander Kalachev (DIA, Dessau) and Bence Pap (Zaha Hadid Architects London).

Fifty-five students participated in a week long workshop learning the basic principles of parametric design, and software, with the task to build in the second half of the week a human scale spatial installation. Pompidou Metz SHigeru Ban Study. Hi all ! My thesis deadline is in about 12 days (and counting) and i need to finish this structural system for the roof.what i want to do is replicate shigheru ban's system that he used for the metz pompidou project and the zabgreb airport proposal.actually these are 2 slighly different versions. the metz project has bulky woven poles while the airport project has skinny non-woven poles. metz: the airport version: my current situation: for now i have the poles as separate surfaces from the roof. they do follow each other smoothly but they are separate objects (and i don't know how to merge them, since brep union doesn't seem to work). i also have the beam grid applied to the roof surface: i need to make the beams follow the "poles". either of the two versions depicted above would be fine, whichever is quickest to do... my definition currently has the hex grid in uv space, but i also have a version where the grid is in xy space and projected vertically onto the surface. thanks for the interest.

British Museum Great Court Roof using StructDrawRhino. Another stunning, innovative structure that has inspired similar projects since. It's a favorite space of mine, especially on a bright sunny day when the shadows and reflections are mesmerising. Here's some papers, blog posts and links I found to determine how Happolds and Fosters designed this amazing roof. So, now you can try to do something similar yourself using the structural plug-ins for Rhino. My routines and commands don't follow exactly the description from the paper, but they allow something similar to be created. To try this for yourself, the input Rhino file can be downloaded from here From the starting flat grid, we can use the plug-in command sdrMeshProjectVerts to project the mesh vertices onto the mathematical surface.

Then we start the mesh relaxing process. Joao Albuquerque | Architect: SAMPLE BOX. The design of the Sample BOX serves two simultaneous goals: to show the potential of the material Vitrakem for architecture (working as an exhibition of the multiple variations of the material), and to be a reference point for the people that pass by the Airport.Conceptually, it has two main simple statements. First, it represents, in the literal sense of the name, a sample box of a specific material – Vitrakem. It is a ceramic material with 53 colors available in catalog, and these are the colors that the design contains and exhibits in its interior. Second, as a display object it has a defined exhibition space - an airport, a space for circulating and resting.Negotiating these two assumptions, it results in a simple box that is carved through varying circulation paths and nesting/resting areas, revealing its colorful interior and the material in display.

. - -Rhinoceros. Joao Albuquerque | Architect: SAMPLE BOX. Leonardo: Architecture and Mathematics. Laser Cutter - Archtecture - LTU - Luleå University of Technology. Art615, a pavilion by Aalborg University students. Social Technologies 2010. Nurbs. Ecological Wall Created with Organic Waste Containers. Contemporary Furniture - Unique Tables, Chairs, Lighting & Handmade Jewellery :: Lazerian Designer Furniture, Manchester. Lúcio santos. Tesselion : Adaptive Quadrilateral Flat Panelization. Designplaygrounds: Honeycomb Morphologies Update. Designcoding. Eat-a-bug. Straight Timber Connections – Precedents | Parametric Wood.

Digital Tea Houses. Nic Martoo DAB810. O P E N S Y S T E M S. Architecture with intent. Grasshopper code. Fablab House | Javier Palacios.