anisha jadhav rhino, google sketch up work

Anisha Jadhav

DESIGN WORK IN RHINO,

AUTOCAD AND GOOGLE

SKETCHUP

EXPO PAVILION

GOOGLE SKETCHUP

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

Fractal is a curve or geometric figure, each part of which has the

same statistical character as the whole.

It repeats itself on various scales allowing a form to grow with

similar structural characteristics throughout its totality.

Comparing the Sierpinski triangle to

equivalent repetitive tiling

arrangements, it is evident that similar

structures can be built into any rep-tile

arrangements.

COMMON TECHNIQUES FOR

GENERATING FRACTALS:

THE FOOD CHAIN PYRAMD

HAFERMAN’S CARPET

T-SQUARE PATTERN

SIERSPINSKI TRIANGLE

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

ITERATIONS IN RATIO: 1:2

PATTERNS SEEN IN FARMING GRID PATTERN IN CHARBAGH FRACTALS IN INDIAN TEMPLES

TRANSFORMATIONS IN PLATONIC SOLID

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

ITERATIONS IN RATIO: 1:2

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

ITERATIONS IN RATIO: 1:2

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

DESIGN APPROACH:

•Form taken inspired from food chain pyramid

•Ratio of 1:1.5 is applied with interlocking spatial

volumes

•TRANSFORMATION

OF PYRAMID

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

1

2

3

4

6

5

6

6

1. ENTRANCE KIOSK, ENQUIRY

2. PLAZA

3. ADMINISTRATION

4. CAFETERIA

5. AUDITORIUM

6. EXHIBITION SPACES

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

Anisha Jadhav

M.Arch C.A. Sem I

Sinhgad College of Architecture

Studio Coordinator:

Ar.Pankaja Bagul EXPO PAVILION DESIGN

RESIDENTIAL

GOOGLE SKETCHUP

RESIDENTIAL

BEDROOM

KITCHEN & DINING

COMMON BATH AND W.C.

COURTYARD

LIVING ROOM

STORE

ENTRANCE

RESIDENTIAL

RESIDENTIAL

FURNITURE DESIGN

GOOGLE SKETCHUP

Anisha Jadhav4th Yr. B.Arch.I.D.MODULAR FURNITURE

•4mm thick molded plastic•FRP is used•The module is designed according to anthropometry of adults•The combination of the modules can be used as a centre table, storage shelves or also as a chair by tilting and laying them on one another.

Use-As a centre table

The basic module

PLAN

FRONT ELEVATION

SIDE ELEVATION

PLAN-CENTRE TABLE

Anisha Jadhav4th Yr. B.Arch.I.D.MODULAR FURNITURE

Use-As show piece/storage shelves

Use-As a chair

Anisha Jadhav4th Year B.Arch.I.D.

PUBLIC SPACE FURNITURE DESIGN

SEATING AT A TRANSPORT TERMINAL

Anisha Jadhav4th Year B.Arch.I.D.

PUBLIC SPACE FURNITURE DESIGN

Anisha Jadhav4th Year B.Arch.I.D.

PUBLIC SPACE FURNITURE DESIGN

Perforated metal sheet

M.S. rods grouted in floor

M.S. flats (40X5) welded M.S. round

Different sizes of M.S. rounds used. (Dia-18mm, 25mm, 40mm, 50mm)

Thickness Length (in running feet)

No. of units Total Quantity in running feet

Net quantity in Running feet

1” 0.86 7 6

2 8 16

1.43 4 5.8

1.27 4 5

3.33 19 63

96

2” 4.9 2 9.8

2.38 8 19

29

1.5” 2.38 1 2.4 2.4

CALCULATING QUANTITY

QUANTITY AND RATE ANALYSIS

Anisha Jadhav4th Year B.Arch.I.D.

PUBLIC SPACE FURNITURE DESIGN

Perforated Sheet……………………………….Rs.150/sq.m.M.S. Rounds (30mm dia)……………………Rs.52/mM.S. Flats 40mm width………………………Rs.80/mGrouting…………………………………………….Rs.5500/cu.m.Rate of metal……………………………………..Rs.50/kg

PERFORATED SHEET……………………………….RS.150/SQ.M.=============> (0.3mX0.3m)X3

= 0.27sq.mRATE…………………………………………………..RS.40

M.S. FLATS 40MM WIDTH………………………RS.80/MQUANTITY OF M.S. FLATS=16.2MRATE………………………………………………………RS.1296

M.S. ROUNDS (30MM DIA)……………………RS.52/MRate of metal………………………………………..Rs.50/kgQUANTITY OF M.S. ROUNDS IN KG18MM=12.8MWEIGHT IN KG/M………………………………….2KG/M=25.6KGRATE……………………………………………………..RS.1280

25MM=4MWEIGHT IN KG/M………………………………….3.85KG/M=15.4KGRATE……………………………………………………..RS.770

40MM=3.2MWEIGHT IN KG/M…………………………………9.86KG/M=31.5KGRATE…………………………………………………….RS.1578

50MM=2.1MWEIGHT IN KG/M…………………………………15.41KG/M=32.4KGRATE…………………………………………………….RS.1618

GROUTING…………………………………….RS.5500/CU.M.Grouting done=O.O4 CU.M.RATE……………………………………………………RS.220

WELDINGPER CHAIR………………………………………..RS.150=RS.600PER TABLE…………………………………………RS.150=RS.450Cost for welding horizontal and vertical bars:=RS.200

TOTAL COST OF PRODUCT

=RS.8000

PLAN

S.C.O.AANISHA JADHAVCHAIR

STAMP

SIDE ELEVATIONFRONT ELEVATION

Material: 18 MM THICK PLYWOOD Joinery: CROSS-LAP JOINT

VIEW

EXPLODED VIEW

S.C.O.AANISHA JADHAVCHAIR -DETAILS

CROSS-LAP JOINT

STAMP

FRONT ELEVATION

PLAN

VIEW

SIDE ELEVATION

S.C.O.AANISHA JADHAVCHAIR

STAMP

DETAILS

S.C.O.AANISHA JADHAVCHAIR

FRONT ELEVATION SIDE ELEVATION

SIDE ELEVATIONPLAN

VIEW

S.C.O.APRACHI SANKHLAANISHA JADHAV

CHAIR

Anisha Jadhav4th Yr. B.Arch.I.D.

CHAIR

THE SEAT

THE LEGS

BACK REST

PLAN VIEW

THE CHAIR IS MADE IN 5 PLY CARDBOARD

Anisha Jadhav4th Yr. B.Arch.I.D.

CHAIR

EXPLODED VIEW

SHEET SIZE:2400X1200

PARAMETRIC DESIGN

RHINO

The design is developed through an exploration of digital fabrication and user assembly.It explores the structure of this seat through a tectonic relationship developed by 3D modelling in Rhino.

Vertical members are designed as parallel planes within a Cartesian grid whereas the horizontal pipe are designed as the bracing elements. These members in unison, produce a structure with high strength to weight ratio.

The module can be repeated to create multiple seating arrangements.The CNC laser cut pieces are numbered and easy to assemble.It provides a simple construction as a result of precise fabrication.

PARAMETRIC SEATING MODULE

8. WALL OF FAITHFEATURE WALL WITH SECTIONING METHOD

S.C.O.A. Digital Design lab was given a project of developing

a feature wall for Ar. Jayant Dharap with advance digital

fabrication techniques.

The wall was developed on concepts of basic wire mesh

models given by the Architect.

The feature wall had to be developed with sectioning

method. The Architect called it the “Wall of Faith”.

3D modeling was done in Rhino with creating intermediate curve profiles, which

were then lofted to achieve final form.

DESIGN DEVELOPMENT

CONEPTUAL MODEL GIVEN BY ARCHITECT

DESIGN DEVELOPMENTProposal 1

5M X 1.5

Proposal 2

22.5cm

DESIGN DEVELOPMENT_SURFACE REBUILT

W A L L O F F A I T H

1.5M

5M

0.45

MIRROR AXES ITERATIONS

W A L L O F F A I T H

W A L L O F F A I T H

SLAB THICKNESS: 2” SPACING: 2” WALL HEIGHT: 1.5MLENGTH: 5M

TEACHING EXPERIENCE IN

PARAMETRIC DESIGNING IN

RHINO

DIGITAL ARCHITECTURE DECODED WORKSHOPOne day on hands workshop on introduction to Digital Architecture

•Digital medium is prevading architecture and there is a need to

understand how we could use this tool wisely.

•It was a day long introductory workshop on Digital Architecture for

Architects and students of Architecture with discussions on

emergent technologies and the growing digital fabrication

technologies.

•Workshop intended primarily for architects and designers interested

in learning the parametric design and creation of generative forms

for implementation in different processes with lectures on various

design theories prevailing in digital architecture

•The workshop also challenged the students to understand form as

an actual expression of dynamic process.

The ground of parametric design is the generation of geometry

from the definition of a family of initial parameters and the design

of the formal relations they keep with each other

It is about the use of variables and algorithms to generate a

hierarchy of mathematical and geometric relations that allow you

to generate a certain design.

Parametric design is fundamental when minimizing the effort

needed to create and test design variants.

BRAIN STORMING :BASIC FORM :

Arranged by tilting and placing

one above another and rotated

clockwise, but it looked rigid so

transformed the basic shape.

Variation in one sideof rectangle to obtainthe effect of fluidity.

Final moduleTransformation into frameto show the effects of lightand shadow and to reducethe compactness.

Variation in scale to obtain theflow. The module was developedfrom curved and straight line .

Placing the module oneabove another and rotatingit in anticlockwise andclockwise direction, in 5degree angle. A tower wascreated with twisted profile.

DIGITAL TECTONICS WORKSHOP

STAGES:

STAGE 2

STAGE 4 STAGE 3

STAGE 1

FINAL STAGE

Parametric modelling:

WORKING MODEL :

First 10 modules placed one above another by keeping one corner

constant and by changing corners in above 10 modules group.

New Media Workshop

CEPT | AHMEDABAD

L A

T T

I C

E

Wasp nest

Em

erging patterns

A structural frame work is inspiredfrom the complex networks andexisting mathematical realitieswithin the smallest irreduciblecomponents that build nature.

A crystal, bee hive structure etc arethe frame works of these very samesmaller units put together to makecomplete organism.

This is the brainchild of my conceptfor the pavilion, the structurewhose resilience is spoken in thetenacity of the framework.

THANK YOU