Physics Simulation & Structural Analysis

September 8 2023

31. Rection Simulator

Song Jingwen 8.1. Kangaroo 2, Physics Simulation & Structural Analysis

8.1.31. Rection Simulator

Date published: September 8, 2023

DESCRIPTION

This exercise builds up on the “Tensegrity Simulator” exercise to produce “rection” structures, which have been defined by Andry Widyowijatnoko as a synthesis of reciprocal and tensegrity structures. Rection structures rely on both the bending stress of rigid members and pre-stressed cables for their stability.

PROCEDURE

1. Use pipeline to extract all curves / points drawn on the respective layers.
2. Break the tension curves into sub-curves to simulate a chain-like behaviour
3. Apply length constraint onto the sticks with their original length
4. Apply a gravity force onto the stick-ends
5. Apply length constraint onto the cable segments with either a fraction of, or their original length to create tension
6. Apply a gravity force onto the ends of the cable segments
7. Control the paths of the input data by splitting compression from tension elements with two show components
8. Extract the processed data and pipe the compression elements

This exercise is using Grasshopper version 1.0.0007
References:
Widyowijatnoko, A., Irwanuddin, I. & Aditra, R.F. Rection as a Synthesis of Reciprocal and Tensegrity Structure. Nexus Netw J 21, 465–478 (2019). https://doi.org/10.1007/s00004-019-00443-6
Daniel Piker, Kangaroo Physics (by Daniel Piker), https://www.food4rhino.com/app/kangaroo-physics, Accessed August 6, 2020

Software

Rhino

Grasshopper

Plugins

Kangaroo 2
Weaverbird

course files

Rection_Simulator.zip

854.57 KB | 1564 downloads

September 5 2022

02. 3D Topology Optimisation

Andreeq Bunica 8.4. Ameba, Physics Simulation & Structural Analysis Fologram

8.3.02. 3d topology optimisation

Date published: September 5, 2022

PROCEDURE

1. Login to the server by double-click the component.
2. Define a mesh as the base structure, adjust the delaunay size needed
3. Define the supporting surfaces and load surface on the mesh
4. Define options on BESO Algorithm
5. Load all components to the preprocessing solver
6. Double-click the solver to activate cloud server solver
7. Preview the calculation step by adjusting the slider
8. Smoothen the finalised mesh with weaverbird if you are not having a pro account on ameba
9. Smoothen the finalised mesh

This exercise is using Grasshopper version 1.0.0007
Reference: Ameba, https://ameba.xieym.com/, Accessed August 6, 2020.

Software

Rhino

Grasshopper

Plugins

Ameba

course files

3D_Topology_Optimisation.zip

1.31 MB | 1622 downloads

September 5 2022

01. 2D Topology Optimisation

Andreeq Bunica 8.4. Ameba, Physics Simulation & Structural Analysis

8.3.01. 2d topology optimisation

Date published: September 5, 2022

DESCRIPTION

Ameba is a topology optimisation tool based on the BESO method, which provides optimisation for 2D and 3D geometrical models. Users may, according to design requirements, apply different loading and boundary conditions to the initial design domain. During the computational process by the software, the design domain will evolve into various shapes, and eventually reach an organic form that is structurally efficiet.

PROCEDURE

1. Login to the server by double-click the component. Users can register an account on https://ameba.xieym.com/Register
2. Define a mesh as the base structure
3. Define the supporting points and load direction on the mesh
4. Define options on BESO Algorithm
5. Load all components to the preprocessing solver
6. Double-click the solver to activate cloud server solver
7. Preview the calculation step by adjusting the slider
8. Smoothen the finalised mesh

Software

Rhino

Grasshopper

Plugins

Ameba

course files

2D_Topology_Optimisation.zip

1.35 MB | 1378 downloads

This exercise is using Grasshopper version 1.0.0007
Reference: Ameba, https://ameba.xieym.com/, Accessed August 6, 2020.

August 29 2022

03. Form Finding

Andreeq Bunica 8.2. Kiwi!3D, Physics Simulation & Structural Analysis

8.2.03. form finding

Date published: August 29, 2022

PROCEDURE

1. Setup a form finding task. Only displacement is available to analyse for form finding process 2. Input the surfaces as membrane with prestress
3. Input the surface edge as prestressed cables
4. Input the brep vertex as supporting points
5. Preview the analytic model
6. Run the Kiwi solver
7. Preview the processed model

This exercise is using Grasshopper version 1.0.0007
References: Kiwi3D, https://www.kiwi3d.com/, Accessed August 6, 2020.

Software

Plugins

course files

278.38 KB | 1120 downloads

August 29 2022

02. Non-Linear Analysis

Andreeq Bunica 8.2. Kiwi!3D, Physics Simulation & Structural Analysis

8.2.02. non-linear analysis

Date published: August 29, 2022

PROCEDURE

1. Setup a non-linear analysis task and pick the attributes to analyse
2. Define a load displacement curve for the analysis to record the simulation
3. Input the surface structure
4. Refine the surface UV
5. Define a curve load on the surface
6. Define supporting points
7. Preview the analytic model
8. Run the Kiwi solver
9. Preview the loading case with the slider to animate the structural performance

This exercise is using Grasshopper version 1.0.0007
References: Kiwi3D, https://www.kiwi3d.com/, Accessed August 6, 2020.

Software

Rhino

Grasshopper

Plugins

Kiwi!3D

course files

Non-Linear_Analysis.zip

295.50 KB | 1037 downloads

August 29 2022

01. Linear Analysis

Andreeq Bunica 8.2. Kiwi!3D, Physics Simulation & Structural Analysis

8.2.01. linear analysis

Date published: August 29, 2022

DESCRIPTION

Kiwi!3D is a structural analysis and form finding plugin that processes NURBS surfaces without the need of meshing. It integrates Iso-Geometric Analysis (IGA), which uses NURBS as basis functions for its Finite Elements.

PROCEDURE

1. Setup a linear analysis task and pick the attributes to analyse
2. Input surface as the base shell. Surfaces that share an edge will automatically be connected.
3. Define the shell material by selecting from the material library
4. Define curves as beams to support the structure
5. Define beam cross sections
6. Define supporting points
7. Define supporting curve
8. Define dead load on the surface
9. Preview the analytic model
10. Run the Kiwi solver
11. Decompose the model to rebuild the surface
12. Preview the z direction deformation

This exercise is using Grasshopper version 1.0.0007
References: Kiwi3D, https://www.kiwi3d.com/, Accessed August 6, 2020.

Software

Plugins

course files

313.82 KB | 1283 downloads

August 27 2022

30. Planar Quads

Andreeq Bunica 8.1. Kangaroo 2, BUILDING INFORMATION, Physics Simulation & Structural Analysis

8.1.30. planar quads

Date published: August 27, 2022

DESCRIPTION

This powerful exercise allows you to plastically modify a given mesh, and then smoothen and convert it into a mesh made from fully planar quad.

PROCEDURE

1.Flattens each of the quads in a mesh.
2.Equalises the diagonal length of each of the quads.
3.Plastic anchor to prevent drift.
4.ClampLength keeps the distance between 2 points between given bounds but applies no force when the distance is within these limits.
5.Uniform Laplacian smoothing rounds any sharp features of a mesh.

This exercise is using Grasshopper version 1.0.0007
References: Daniel Piker, Kangaroo Physics (by Daniel Piker), https://www.food4rhino.com/en/app/kangaroo-physics, Accessed August 6, 2020

Software

Plugins

course files

464.55 KB | 1627 downloads

August 27 2022

29. Growing Curve on Surface

Andreeq Bunica 8.1. Kangaroo 2, Physics Simulation & Structural Analysis

8.1.29. growing curve on surface

Date published: August 27, 2022

DESCRIPTION

Using sphere packing, this exercise expands a discretized polyline onto a sphere by increasing the length of each segment until the entire sphere is covered.

This exercise is using Grasshopper version 1.0.0007
References: Daniel Piker, Kangaroo Physics (by Daniel Piker), https://www.food4rhino.com/en/app/kangaroo-physics, Accessed August 6, 2020

Software

Rhino

Grasshopper

Plugins

Kangaroo 2

course files

Growing_Curve_On_Surface.zip

289.52 KB | 1640 downloads

August 27 2022

28. Curly Kale

Andreeq Bunica 8.1. Kangaroo 2, Physics Simulation & Structural Analysis

8.1.28. curly kale

Date published: August 27, 2022

DESCRIPTION

Using sphere packing, this exercise grows natural looking surface geometry by extending the mesh edges of a mesh with a higher mesh resolution along its boarders.

This exercise is using Grasshopper version 1.0.0007
References: Daniel Piker, Kangaroo Physics (by Daniel Piker), https://www.food4rhino.com/en/app/kangaroo-physics, Accessed August 6, 2020

Software

Plugins

course files

289.29 KB | 1290 downloads

August 27 2022

27. Sphere Packing

Andreeq Bunica 8.1. Kangaroo 2, Physics Simulation & Structural Analysis

8.1.27. sphere packing

Date published: August 27, 2022

DESCRIPTION

This exercise uses sphere packing onto a mesh to generate a mesh approximation from highly similar hexagons using Delauney Mesh and MeshDual.

This exercise is using Grasshopper version 1.0.0007
References: Daniel Piker, Kangaroo Physics (by Daniel Piker), https://www.food4rhino.com/en/app/kangaroo-physics, Accessed August 6, 2020

Software

Plugins

course files

268.61 KB | 1641 downloads