rhino cam documentation for foam model – barrio 1_17_18

By iaac | Published: December 13, 2010

At first the mashine type has to be set to 3 axis milling; for the post processor we choose “precix” and finally the stock can be set or by typing th estock measures manually or by picking a modelled stock volume as a reference;

The milling process and its setup happens in two runs, for each setup a polyline needs to be selected  ( yellow line in first image) to determine the outline of the 3d model.

1.) Horizontal roughing – horizontal roughing is for fast and efficient removal of material as a preparation for th emore refined second milling step.

A thicker ball pointed milling tool with 26 mm of diameter was used in this case.

The step over control panel and the stepdown control were set in accordance with the tools with and length  and the desired precision of the milling.

2.) Parallel finishing – this is the final milling porcess in which the resolution of th emodel is being refined after the horizontal roughing has been done.

The tool we used was a 3mm thin ball point.

The stepover parameter was set in accordance with thefinishing tools diameter; in order not to damage the stock we set a clearance value of the stocks hight + 6 mm.

Finally we could export the .gc file including the g code ( coordinates and sequence ) for the movement of the milling mashine.

X17.152
X17.103 Y-29.437
X17.561
X17.665 Y-29.407
X17.055
X17.05 Y-29.404
X17.043 Y-29.378
X17.769
X17.873 Y-29.348
X17.034
X17.026 Y-29.319
X17.88
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ecotec analysis

By iaac | Published: December 13, 2010

http://issuu.com/nat_arc/docs/ecotecanalysis?viewMode=magazine

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CNC Fabrication | BCN Foam Model

By iaac | Published: December 12, 2010

Team: Ayber Gülfer, Morten Bülow & Manuel Huerta
Barrio: Poble Nou

View the process here

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CNC Fabrication | BCN_Milled Foam Model

By iaac | Published: December 12, 2010

Barrio : Poble Nou
Team Members : Morten Bülow, Manuel Huerta, Ayber Gülfer

Posted in 3D Printing, CNC Cutting, CNC Milling | 1 Comment

digital fabrication

By iaac | Published: December 10, 2010

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3D Print-Digital Fabrication

By iaac | Published: December 10, 2010
TEAM: CARLO CALTABIANO & YASHASWINI APTE

Concept:-

Our 3D Print Brick pattern is inspired from the structure of a honey comb. However, the rigid hexagonal shape and the uniformity of the honeycombs have been modified integrating it with other polygonal shapes. These modules are varied in size and intensity to resemble a spider’s web. The idea was to read the voids as much as the solids akin to the Zaha Hadid’s ‘Mesa Table’ which was one of the case studies undertaken. To achieve a more organic form and to avoid rigidity, the surfaces have been gently curved.

+ =

basic module spider web

final derived brick pattern
Procedure for 3D Modelling:-

Step 1: A single line polygonal pattern was drawn out which formed the basis of our 3D modelling. This was done by marking random points on the opened up surfaces of the brick. Using ‘Voronoi diagram’ a pattern was drawn out. This pattern was modified and redrawn to achieve the required density required to balance out the solids and voids & to realise the spider web-like effect.

positive surface negative surface

Step 2: We started with ‘Pipe’. The 3d was drawn out using this and the next step was to join the overlapping surfaces. The larger polygonal surfaces were joined using ‘Boolean union’, the smaller ones did not get joined with this method. These intersecting surfaces would be a problem for the 3d printing & to maintain a honeycomb like section, we decided on a different approach. Reference image :http://gizmodo.com/5031877/honeycomb-skyscraper-has-no-internal-structure-attracts-giant-killer-wasps

Step 3: Polygons were drawn along the pattern & off-setted. The negative spaces were then extruded using ‘extrude curve’. After which the rectangular face of one surface was extruded using ‘extrude curve’. The negative spaces of the extruded solid were then deleted using ‘Boolean difference’ creating the solid and voids. This was done for each face of the brick.

Step 4: In this step the surfaces have been gently curved to achieve an organic appearance. The surfaces thus obtained above were exploded using ‘Explode’ and then using ‘Rebuild’ the surfaces were modified along the control points.


Step 5: After using ‘Rebuild’, each surface was grouped together. Using ‘c-plane’ the surfaces were rotated to form the outer surfaces of the brick.

Step 6: The cylinder was made using ‘Tube’, this was exploded and converted into a mesh. To convert it into a solid the mesh was off-setted and using ‘Loft’ the inner and outer surfaces were joined.

Step 7: Boolean union did not work due to the thickness of the polysurfaces. To solve this the external surfaces were extracted using ‘Extractsurface’. this surface was copied out separately and meshed. the meshed surfaces was moved out and separated from the nurbs surface. The entire brick was joined together using ‘Join’ and then the mesh was off-setted to the required thickness. This created some naked edges when checked. We then decided to work on the cylinders separately. The surfaces without the cylinders were offsetted using ‘Off-set mesh’ and the previously done cylinder was exploded and then rebuilt. The surface of the cylinder was then curved along the control points, meshed, off-setted and then joined to the rest of the block.

Step 8: A check was undertaken to locate the naked edges, once we had confirmed there were no naked edges the file was converted to a .stl file for 3d printing.

cleaning & sealing of the printed brick

final printed brick
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Foam Model …Horta Guinardo

By iaac | Published: December 9, 2010

Foam Model …Horta Guinardo

Group Members

Andres Briceno   I   Siddhesh Kale   I   Jesus Armando Zabala   I  Ohad Meyhuyas

The Objective

The Aim of this exercise was to create a foam model of the barrios using the CNC Milling machine and learning the milling process.

The Process

Step 1: The zone assigned to our group (Horta Guinardo-Nou barris) consists of two hills and a mountain on the north west so we first prepared the terrain in rhino.

Step2: [...]

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Foam Model ..Horta Guinardo

By iaac | Published: December 7, 2010

http://legacy.iaacblog.com/digitalfabrication/2010/12/07/foam-model-horta-guinardo/

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CNC fabrication assignment #3

By iaac | Published: December 7, 2010

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CNC Milling Machine

By iaac | Published: December 7, 2010

Group:
Liliana
Marisa
Renata

As an overall analysis of Design Studio I “ZEBAR” Project, the assignment claimed for a 3D model of Barcelona.  Following the admistrative subdivisions of the city, a digital 2D CAD format map was created by tracing closed polylines for streets, blocks and buildings.  It was decided that the entire city would be considered flat and only the topography of the most important mountains (Montjuic, Collserola, El Carmel) would be shown since the scale is 1:2000 and not all details would be seen.

Rhino file

Therefore, the printing was separated into 2 parts, the flat and the topography, in our case Ronda del Dalt street was the subdivision element. Having decided that, the extrusion of all the buildings was done considering that each floor is 3.5m high. The blocks were extruded to a 0.3cm height and the base 3cm due to the thickness of the material.  After receiving the topography treated with RhinoTerrain plugin, we had to place the buildings on it. We placed them above the terrain and then individually chose Curve>Curve from Objects>Duplicate Edges. Selecting each edge of the base of the building, we joined the lines and hit Project. Click on the terrain to project the curve on the topography. Then we moved vertically the building to the lowest point in the terrain so the building would be placed inside it.Then “Boolean union” all the buildings, blocks, and streets in order to create one single object. Eventually Create a mesh of the object by applying the command “mesh” and place the model on a sheet size is 1990 x 990 mm. Since our barrio is a big area, we have to split the area into 2 parts in order to fit into the sheet.

Buildings on Collserola Mountain

In order to materialize the 3d model we chose foam and milled with the CNC milling machine. The file was first prepared to be read by the machine through a simulation of the milling using Rhino Cam. To start milling, we used 2 tools with different diameters. First 3cm tool to take out the excessive material, and then 26mm to give detail into the map.

Foam Model milled with different tools

Saint Gervasi milled

During the milling process, the northern part of our area was only engraved and not milled. After sometime working on the file to find the mistake we realized that some meshes were open and invalid through the command Analyze>Edge Tools> Show Edges. We used the command CloseCrv to close all the polylines and redid the extrusions and meshes. Finally with Command “What” we knew there was no more invalid meshes and the file was ready to be reprinted.

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