Double Decker Bridge

Designed and constructed a double decker bridge which stimulates the multiple modes of transport through single connectivity. Designed and Analysed using STAAD.Pro and Auto CAD Software. Material used for making this model is POPSICLE sticks. Tested at IIT Bombay S.E.M.T. laboratory with a load of 73.2 kg.

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Building Analysis

Designed and constructed a building Structure to resist seismic loading using STAAD.pro software, The material used in construction of this particular building structure is POPSICLE Sticks and consists of advanced earthquake-resistant techniques like cross bracing, base isolation.

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T-Shaped Beam

Casted a T-Shaped beam, 3 concrete cubes and a cylinder, each intended for assessment of flexural strength, compressibility and permeability, respectively. Tested all specimens At IIT Bombay Geotechnical Earthquake Engineering (GEE) laboratory with notable performance.

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Truss bridge

Pratt type truss bridge has been analyzed on STAAD Pro, and it can carry load up to 70kg, which is made using aluminium L section.

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Diagrid structure

A diagrid structure consists only of diagonal columns with an optimum angle ranging from 65o-75o.The 4-8-4 symmetric configuration has been analyzed on software STAAD Pro and prototype can sustain the load of 80kg.

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Geodesic Dome

Two frequency(2v) fuller dome was designed on software SketchUp and prototype of the same has been built by using the hollow aluminium struts.
It can sustain load up to 50 kgs.

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Cable-stayed-bridge

A cable-stayed bridge was designed and analyzed using software Sap2000. Load testing of the prototype was also done, and it can carry a static load of 2200 kg.

Documentation




Tensegrity Dome

The purpose was to build a dome using the principle of tensegrity (in which cables are responsible for taking tensional load and struts compressional load). Three layers of decagon have been built by using aluminium struts and nylon threads.

Documentation




Sustainable Building

Sustainability may be defined as meeting the needs of present generations without compromising the ability of future generations to meet their needs.The building was planned in such a way that it could utilize natural resources (sunlight, wind, rainwater) and waste materials from industries effectively. Also, the water, electric energy is conserved and optimized efficiently.

Documentation




Earthquake Resistant Structure

Sustainability may be defined as meeting the needs of present generations without compromising the ability of future generations to meet their needs.The building was planned in such a way that it could utilize natural resources (sunlight, wind, rainwater) and waste materials from industries effectively. Also, the water, electric energy is conserved and optimized efficiently.

Documentation