CURVE CREASE FOLDING Form and material exploration
Kinetic facade
Curve Crease Folding Megha | Shivangi | Swapnil | FerCurve Crease Folding
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Megha l Shivangi l Swapnil l Fardeen
Curve Crease Folding
Abstract entrancing and exquisite shapes might be collapsed from a solitary sheet of material without extending tearing and cutting one consolidates bend folds into structure we present an advancement based computational system for plan and computerized remaking of surface which can be delivered by curve folding. our work not just adds to applications in engineering and modern plan yet, in addition, gives another approach to think about the complex and generally unexplored marvels emerging in curve folding the curve folding is a half and half of collapsing and bowing a sheet and the surface is included curve crease and smooth developable surface fixes .this can be contrasted with kaleidoscopic origami being the consequence of our collapsing and the smooth developable surface made from unadulterated bowing of a sheet. the half and half property of bend collapsing has a preferred position when used to shape a 3D surface from sheet material. at the point when we attempt to frame a surface by unadulterated bowing, the shape is constrained to basic geometries, for example, square shape circle pentagon. kaleidoscopic origami, then again, is progressively adaptable in configuration, however can’t speak to an easily bended surface without expanding the goals by an adequate number of wrinkle .such wrinkles structure countless vertices where the material to a great extent misshape inplane, here, a bent overlap shapes an assortment of source utilizing for the most part isolated number of curve crease
Curve Crease Folding
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Curve Crease Folding
Contents 01 Initial Experiment
Exploration in ivory sheet through curved folding
02 Stage 1 Exploration of individual trignometrical curve in ivory sheet through curve folding
03 Stage 2
Exploration of combination of trignometrical curve in ivory sheet through curve folding
04 Stage 3 Exploration in PP sheets
05 Stage 4 Exploration of algebric curve in pp sheets through curve folding
06 Stage 5 Experimentation with the selected curve
07 Stage 6 Final outcome with the slected curve
Curve Crease Folding
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Curve Crease Folding
CURVE EXPLORATION
Curve Crease Folding
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Description
The experiment began with research of mathematical curves after which we took a trigonometrical curve and started to research how to treat these as a paper articulated surface.
Experiment 1
Parameters Curves-sin,angles-30 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
Plan
Elevation
Experiment-2 Parameters Curves-sin,angles-45 surface(sheet shape)-Rectangle
Diagram
pressure point Curve Crease Folding
Experiment-3
Parameters Curves-sin,angles-90 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
Experiment-4
Parameters Curves-sin,angles-30 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Experiment-5 Parameters Curves-sin,angles-45 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
Plan
Elevation
Experiment-6
Parameters Curves-sin,angles-90 surface(sheet shape)-Rectangle
Diagram
pressure point Curve Crease Folding
Experiment-7
Parameters Curves-Tan,angles-30 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
Plan
Elevation
Experiment-8
Parameters Curves-Tan,angles-45 surface(sheet shape)-Rectangle
Diagram
pressure point Curve Crease Folding
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Experiment-9
Parameters Curves-sin,angles-90 surface(sheet shape)-Rectangle
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Description
Here we picked one single curve from the previous experiment and placed in into different surface to see how one same curve behave into different surface
Experiment-10
Parameters Curves-sin,angles-90 surface(sheet shape)-Rectangle
Diagram
Plan
Elevation
Experiment-11
Parameters Curves-sin,angles-90 surface(sheet shape)-Hexagon
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Experiment-12
Parameters Curves-sin,angles-90 surface(sheet shape)-Triangle
Diagram
Plan
Elevation
Experiment-13
Parameters Curves-sin,angles-90 surface(sheet shape)-Hexagon
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Experiment-14
Parameters Curves-sin,angles-90 surface(sheet shape)-Triangle
Diagram
Plan
Elevation
Experiment-15
Parameters Curves-sin,angles-90 surface(sheet shape)-Pentagon
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Experiment-16
Parameters Curves-sin,angles-90 surface(sheet shape)-Pentagon
Diagram
Plan
Elevation
Experiment-17
Parameters Curves-sin,angles-90 surface(sheet shape)-Circle
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Experiment-18
Parameters Curves-sin,angles-90 surface(sheet shape)-Eclips
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Description
Here we picked different curve from the previous experiments and placed it into different surface to see how the combination of curve behave with different surface
Experiment-19
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-Hexagon
Diagram
Plan
Elevation
Plan
Elevation
Experiment-20
Parameters Curves-sin,angles-30 surface(sheet shape)-Hexagon
Diagram
pressure point Curve Crease Folding
Experiment-21
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-triangle
Diagram
Plan
Elevation
Experiment-22
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-rectangle
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Experiment-23
Parameters Curves-combination of tan,angles-90 surface(sheet shape)-Hexagon
Diagram
Plan
Elevation
Experiment-24
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-rectangle
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Experiment-25
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-Hexagon
Diagram
Plan
Elevation
Plan
Elevation
Experiment-26
Parameters Curves-combination of Tan,angles-90 surface(sheet shape)-Square
Diagram
pressure point Curve Crease Folding
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Experiment-27
Parameters Curves-combination of sin,angles-90 surface(sheet shape)-Square
Diagram
Plan
Elevation
Experiment-28
Parameters Curves-combination of sin and tan,angles-90 surface(sheet shape)-Square
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Experiment-29
Parameters Curves-combination of tan,angles-90 surface(sheet shape)-Circle
Diagram
Plan
Elevation
Experiment-30
Parameters Curves-combination of sin ,angles-90 surface(sheet shape)-Pentagon
Diagram
Plan
Elevation
Inferences
doubly curved surface achieved by sin curve while tan failed It was understood that a major role in giving strength to the surface is by using multiple curves on a single unit
pressure point Curve Crease Folding
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Curve Crease Folding
Form Development Exploration of system of different geometries in paper through curved crease folding Experiment-21
Curve Crease Folding
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Description
4 different experiments from previous experiments were chosen and their iteration was made. Experiment-21 Triangle with sin curves Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
Plan
Elevation
Experiment-31 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Experiment-32 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
Plan
Elevation
Plan
Elevation
Experiment-33 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
pressure point Curve Crease Folding
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Experiment-34 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
Plan
Elevation
Plan
Elevation
Experiment-33 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
pressure point Curve Crease Folding
Description
tesselation of Experiment 34 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Description
Diagram
Elevation
tesselation of Experiment 31 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
Elevation
pressure point joining point Curve Crease Folding
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Description
tesselation of Experiment 34 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Description
tesselation of Experiment 31 Parameters Curves-Combinaton of sin,angles-90 surface(sheet shape)-traingle
Diagram
Inferences
Elevation
geometries like triangle resulted in a form closer to geodesic dome individual components made of curved crease with joineries reach the optimised levels while design system from a single planer sheet did not pressure point joining point Curve Crease Folding
Curve Crease Folding
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Curve Crease Folding
Form Development
Exploration of system of different geometries in paper through curved crease folding Experiment-28
Curve Crease Folding
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Description
4 different experiments from previous experiments were chosen and their iteration was made.
Experiment-28
Square with sin curves and tan curves Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-36 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point Curve Crease Folding
Description
iteration of Experiment-28
Experiment-37 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-38 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point Curve Crease Folding
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Description
4 different experiments from previous experiments were chosen and their iteration was made.
Experiment-39 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-40 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point Curve Crease Folding
Description
tesselation of Experiment 38 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Description
Elevation
tesselation of Experiment 31 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
pressure point joining point Curve Crease Folding
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Description
tesselation of Experiment 36 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
Description
tesselation of Experiment 36 Parameters Curves-Combinaton of sin and tan, angles-90
pressure point joining point Curve Crease Folding
Diagram
Elevation
Description
tesselation of Experiment 36 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
Description
tesselation of Experiment 39 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
pressure point joining point Curve Crease Folding
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Description
tesselation of Experiment 39 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
Description
tesselation of Experiment 39 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram pressure point joining point Curve Crease Folding
Elevation
Description
tesselation of Experiment 38 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
Description
tesselation of Experiment 38 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
pressure point joining point Curve Crease Folding
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Description
tesselation of Experiment 36 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Elevation
Description
tesselation of Experiment 39 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point joining point Curve Crease Folding
Elevation
Curve Crease Folding
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Curve Crease Folding
Form Development
Exploration of system of different geometries in paper through curved crease folding Experiment-22
Curve Crease Folding
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Description
4 different experiments from previous experiments were chosen and their iteration was made. iteration of experiment 22
Experiment-22
Rectangle with sin curves and tan curves Parameters Curves-Combinaton of sin and tan,
Diagram
Plan
Elevation
Plan
Elevation
Experiment-41 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point Curve Crease Folding
Experiment-42 Parameters Curves-Combinaton of sin angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-43 Parameters Curves-Combinaton of sin angles-90
Diagram
pressure point Curve Crease Folding
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Experiment-44 Parameters Curves-Combinaton of sin angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-45 Parameters Curves-Combinaton of sin, angles-90
Diagram
pressure point Curve Crease Folding
Description
tesselation of Experiment42
Experiment-42 Parameters Curves-Combinaton of sin angles-90
Diagram
Elevation
Inferences
It failed in stability
pressure point joining point Curve Crease Folding
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Curve Crease Folding
Form Development
Exploration of system of different geometries in paper through curved crease folding Experiment-22
Curve Crease Folding
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Description
4 different experiments from previous experiments were chosen and their iteration was made. iteration of experiment 22 iteration of experiment 4
Experiment-27
square with combination of sin curves Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-46 Parameters square with combination of sin curves angles-90
Diagram
pressure point Curve Crease Folding
Experiment-47 Parameters Curves-square with combination of sin curves angles-90
Diagram
Plan
Elevation
Plan
Elevation
Experiment-48 Parameters Curves-square with combination of sin curves angles-90
Diagram
pressure point Curve Crease Folding
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Description
tesselation of Experiment 42 Parameters Curves-Combinaton of sin, angles-90,surface(sheet shape)-traingle
Diagram
Elevation
Description
tesselation of Experiment 48
Parameters Curves-Combinaton of sin, angles-90,surface(sheet shape)-traingle
Diagram pressure point joining point Curve Crease Folding
Elevation
Description
tesselation of Experiment 47 Parameters Curves-Combinaton of sin, angles-90,surface(sheet shape)-traingle
Diagram
Elevation
pressure point joining point Curve Crease Folding
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Curve Crease Folding
Curve Exploration Exploration of system of different geometries in paper through curved crease folding
Curve Crease Folding
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Description
Different curve with different surface to see how the combination of curve behave into different surface.
Experiment-49
Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Diagram
Plan
Elevation
Plan
Elevation
Experiment-50 Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Diagram
pressure point Curve Crease Folding
Experiment-51
Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Diagram
Plan
Elevation
Plan
Elevation
Experiment-52 Parameters Curve-algebric
Equation-y2=x4(i-x2) Amplitude reduced by half
Diagram
pressure point Curve Crease Folding
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Description
Different curve with different surface to see how the combination of curve behave into different surface.
Experiment-53
Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half angles-90
Diagram
Plan
Elevation
Experiment-54 Parameters Curves-Combinaton of sin and tan, angles-90
Diagram
pressure point Curve Crease Folding
Plan
Elevation
Description
Different curve with different surface to see how the combination of curve behave into different surface.
Experiment-55
Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half angles-90
Diagram
Plan
Elevation
Experiment-56 Parameters Curve-Ellipse Equation-y=x2/a2+y2/b2=1 Amplitude reduced by half
Diagram
Plan
Elevation
pressure point Curve Crease Folding
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Curve Crease Folding
Assembly System of Module Exploration of system of different geometries in paper through curved crease folding
Curve Crease Folding
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Description The
aim
was
to
Experiment-57
have
developable
design
Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Inferences
It failed in stability
pressure point Curve Crease Folding
systems
from
a
planer
surface
by
curved
crease
folding.
Description The
aim
was
to
have
developable
design
systems
from
a
planer
surface
by
curved
crease
folding.
Experiment-58
Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Inferences
As a single unit it is not generating any form without any support pressure point joining point Curve Crease Folding
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Description The
aim
was
to
have
developable
Experiment-59
design
Parameters Curve-algebric Equation-y2=x4(i-x2) Amplitude reduced by half
Inferences
each module retaining its curvature and providing doubly curve as a hole pressure point joining point Curve Crease Folding
systems
from
a
planer
surface
by
curved
crease
folding.
Future Application-Can be Developed into a Pavillion Material-prefabricated glu-lam wood
Curve Crease Folding
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Curve Crease Folding
DIGITAL ANALYSIS
Curve Crease Folding
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Curve Crease Folding
Site Analysis
Curve Crease Folding
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Curve Crease Folding
Analysis setup Daylight
NE
Pavillion
Surface to be analysed
NW
Optimum Daylight 2.1 hrs
SE
SW Optimum visibility-30%
Curve Crease Folding
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Curve Crease Folding
Module Description
Amplitude set
6.5 8.5 10.5
IterationM1:75X75 M2:100X100 M3:125X125 M4:150X150
M1 75X75
M2 100X100
M3 125X125
M4 150X150 Curve Crease Folding
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Iteration 1 M1 75X75 Module size DAYLIGHT ANALYSIS
6.5
8.5
10.5
S U M M E R Avg Daylight Hours : 3.12
Avg Daylight Hours : 2.88
Avg Daylight Hours : 2.70
Avg Daylight Hours : 2.45
Avg Daylight Hours : 2.28
Avg Daylight Hours : 2.18
W I N T E R
Curve Crease Folding
Iteration 2 M2 100X100 Module size DAYLIGHT ANALYSIS
6.5
8.5
10.5
S U M M E R Avg Daylight Hours : 3.44
Avg Daylight Hours : 3.03
Avg Daylight Hours : 2.85
Avg Daylight Hours : 2.23
Avg Daylight Hours : 2.18
Avg Daylight Hours : 2.17
W I N T E R
Curve Crease Folding
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Iteration 3 M3 125X125Module size DAYLIGHT ANALYSIS
6.5
8.5
10.5
S U M M E R Avg Daylight Hours : 3.45
Avg Daylight Hours : 2.96
Avg Daylight Hours : 2.57
Avg Daylight Hours : 2.13
Avg Daylight Hours : 1.88
Avg Daylight Hours : 1.67
W I N T E R
Curve Crease Folding
Iteration 4 M4 150X150 Module size DAYLIGHT ANALYSIS
6.5
8.5
10.5
S U M M E R Avg Daylight Hours : 3.36
Avg Daylight Hours : 2.78
Avg Daylight Hours : 2.43
W I N T E R Avg Daylight Hours : 2.08
Avg Daylight Hours : 1.78
Avg Daylight Hours : 1.60
Curve Crease Folding
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Iteration 1 M1 75X75Module size VISIBILITY ANALYSIS
6.5
Avg Visibility : 41.77%
8.5
Avg Visibility : 37.76%
10.5
Avg Visibility : 35.13%
Iteration 2 M3 100X100Module size 6.5
Avg Visibility : 41.76%
Curve Crease Folding
8.5
Avg Visibility : 39.78%
10.5
Avg Visibility : 37.20%
Iteration 1 M2 75X75Module size VISIBILITY ANALYSIS
6.5
Avg Visibility : 37.62%
8.5
Avg Visibility : 32.98%
10.5
Avg Visibility : 27.80%
Iteration 2 M4W 100X100Module size 6.5
Avg Visibility : 37.95%
8.5
Avg Visibility : 30.15%
10.5
Avg Visibility : 28.02%
Curve Crease Folding
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Future Application-Can be Developed into a Pavillion Material-prefabricated glu-lam wood
Curve Crease Folding
Sectional Elevation
Maximum Span-4.5M Minimum Span-3M
Curve Crease Folding
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Curve Crease Folding
Curve Crease Folding
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