mushrooms

MUSHROOMS DATA INFORMED STRUCTURES

STUDENTS

Eduardo Chamorro Martin Elliot Santos Ipsita Datta Milivoje Momcilovic Shruti Jalodia Yuchen Chen Sabrina Naumovski Ozge Tektas Timothy Magara Mario Alberto Espinoza Membreño Mohammad Amin Ziaie Bigdeli Yi Fan Liao Umit Ceren Bayazitoglu Nikoleta Mougkasi Lars Erik Elseth Anuj Mittal Stephie Moukarzel Ogulcan Unesi Cansu Cetin Madhurya Bayyapuneedi Hari Krishna Gundu Johan Jasser Salas Castro Anna Piliugina Luciana Maia Teodozio Adriana Kano Limarino Mohamed Ifthikar Noordeen

FACULTY

MANJA VAN DE WORP RAIMUND KRENMUELLER Fabrication Expert CESAR ARROYO Student Assistant

SPECIAL CONTRIBUTORS SOROUSH GARIVANI Computational Design ARDESHIR TALAEI Robotics

Design Global Structural Analysis

Coordinaton and Installaton

TERM 3 CLUSTERS 1:1 connectons

Existing Structure 1:10 Scale Model Analysis

DESIGN

DESIGN

Minimum 5 surfaces that span across edges 1 and 2 These surfaces act as beams

Based on ergonomics, an angle between 90 and 160 degree is comfortable to lean on (The steeper the slope, the less it unfolds, thus the sturdier the structure).

The parts going above and below the floor level are approximately the same depth.

NOT UNFOLDING

EXTRUDED SURFACE

MAGIC CARPET

UNFOLDING

NOT UNFOLDING

STRUCTURAL ANALYSIS ANALYSIS

CABLES SHEAR

NO CABLE

CURVED CABLE

The deformation decreases by 25% with the cables The location and size of the rods is defined according to the shear diagrams CURVED CABLE

CABLES CABLE LENGTHS

1. 2.1 3.1 4. 5.1 6. 7. 8.1 9.1 10. 11. 12. 13. 14.1 15.1 16.

3.50 1.50 2.70 3.50 2.90 3.60 3.55 2.65 2.60 3.55 3.85 3.70 3.50 2.40 2.45 3.50

D1. D2. D3. D4. D5. D7. D8. D9.

1.76 2.02 3.14 2.59 2.42 0.85 2.27 1.50

2.2 3.2

2.70 1.55

5.2

1.40

8.2 9.2

1.55 1.65

14.2 15.2

1.80 1.75

SPECIAL CASES CABLE CONNECTION

SPECIAL CASES SPECIAL CASE 2 (SPACER) S2 CABLE CONNECTION

SPECIAL CASE 1 (SPACER) S1 W1

FIXTURE B

W2 WEDGES

SPECIAL CASE 0-S0

W2 NUT & BOLT

FASTNER

WASHER (1,2)

FIXTURE 1

POST TENSIONING

BOTTOM CABLES → CONTINUOUS TOP CABLES → NON CONTINUOUS

CARPET ANALYSIS DEFORMATION

CARPET ANALYSIS UTILIZATION

CARPET ANALYSIS SHEAR

CARPET ANALYSIS BENDING MOMENT MY

CARPET ANALYSIS BENDING MOMENT MZ

INSTALLATION ON SITE

INSTALLATION ON SITE

tmber beam 280x100mm wooden infll [C] channel

screws steel support

tmber beam 280x100mm

[C[ channel

steel support

INSTALLATION ON SITE Solution for Resolving High Utilization In C channel 1. more hills and valleys ( surfaces works as beams) to prevent all the Mz(bending moment) happen at the short segment (a) which is connected to the concrete Side. In timber beam 1. increase the height of the beam. (currently, the size is 280mm in height and 100mm in width) 2. add extra timber to connect to the B &Bx side.

INSTALLATION ON SITE

INSTALLATION ON SITE

01

04

07

10

02

05

08

11

03 3

06

09

12

FABRICATION

ASSEMBLY PROTOCOL

1

A

MEASURE_LABEL_MANUAL CUT

2

ABB HOLES

3

CNC MILLING

4

STACKING_SORTING

5

FINAL ASSEMBLY

6

DOCUMENTATION

MEASURE_LABEL_CUT

1. MEASURE

ABB HOLES

4. DRILL HOLES IN AN ANGLE ACCORDING TO CABLE

2. LABEL

3. CUT

CNC MILLING

45. MILL Ls

6. FILLET EDGES

ASSEMBLY OF CONTOURS

1. PLACE 1. PLACE WOODEN WOODEN BLOCKS BLOCKS TO KEEP TOSTRUCTURE KEEP CLEAR FROM THE FLOOR STRUCTURE CLEAR FROM THE FLOOR

4. PLACE THE ELEMENTS OF THE SECOND CONTOUR ON TOP OF THE FIRST AND SECURE WITH CABLE

6. INSERT SPACER AND SCREW FROM THE TOP

2. PLACE ELEMENTS OF FIRST CONTOUR AND BRACE THEM TEMPORARILY

5.IF THE SECONDCONTOUR IS NOT SECURED PROPERLY, IT IS T TEMPORARILY WITH A METAL ROD

7. MANUALLY DRILL HOLE IN SPACER FOR THE CABLE

3. MAKE HOLES BIGGER MANUALLY

OVERALL ASSEMBLY

1. JOIN THREE SIDES OF THE FRAME – FOURTH SIDE TO BE LOOSELY JOINED

2. RAISE THE FLAME LEVEL BY 200MM BY ADDING SUPPORT PROPS

OVERALL ASSEMBLY

3. STACK FIRST FIVE CONTOURS ON THE FLOOR

4. ADD SLEEVES THROUGH ALL FIVE CONTOURS

OVERALL ASSEMBLY

5. ATTACH FIVE CONTOURS TO FRAME

6. ADD EXTRA PROP FOR THE CARPET AT THE BOTTOM

7. ADD CABLES THROUGH THE FIVE CONTOURS

OVERALL ASSEMBLY

8. ADD MORE PROPS AS WE ADD MORE CONTOURS

9. PRE-STRESS CABLE

10. JOIN LOOSE BEAM

OVERALL ASSEMBLY

11.LIFT UP THE MAGIC CARPET USING CAR JACKS

12. ADD WHEELS AND METAL PLATES