The very first idea for my work came to my mind while I was coming back home from my second travel in India. I was in a cab in Mumbai, going to the airport, and from my window I was looking at the very poor houses along the road, wandering about some little and cheap changes that could improve their conditions.

I didn’t know yet, but I was crossing Dharavi, the biggest slum of Asia, the second one in the world (as somebody says, but it’s difficult to give numbers in these cases). Dharavi is an incredible working reality, always moving and growing. More than 1 million people lives there, in a slum too near to the centre of Mumbai to be ignored by economical interests.

I came back to Dharavi after 2 years - in 2008 - and I lived in Mumbai for 3 weeks studying the reality of Indian slums, the bamboo scaffoldings system and trying to do my best for my thesis to be as real as possible (I studied Building Engineering and Architecture at the Politecnico di Milano).

“SHANTITOWN” is a play on the words “shantytown” (meaning slum) and “shanti” (sanskrit word for peace).

The idea is to create a multifunction building system for emergency applied to the case of shantytowns. The frame is made with bamboo simply tied, as the techniques of Asian scaffoldings. The claddings are made with different recycled materials, as typical in cases of necessity.

All the material and the techniques are local, nothing needs to be imported, and local Indian workers can teach people to create their home and to maintain it.

I followed the principles of slum (recycled and cheap material, simple systems, teaching of techniques, multifunctional buildings..) trying to obtain the best comfort possible.

Sunday, 10 February 2013

Scaffolding in Mumbai

The technique chosen is bamboo simply tied, not only because it is the most efficient and the cheapest solution for bamboo structures, but also because it is a local technique and it is so simple that it can be taught even to kids. Bamboo is everywhere used: scaffolding in the cities, huts in the countryside, stands in markets. In many countries any shopkeeper, any kid helper is able to tie beams and create a simple structure. The aim is to teach people how to build their homes and how to substitute or reinforce the damaged beams. It is important to remember that any shantytown is a small society, with internal government and unofficial rules. Even now people help each others to build their homes, and other people’s job is to fix that buildings. In the case of Shantitown it is just simpler and cheaper. Bamboo is called “vegetable steel” thanks to its mechanical property, but also “poor’s wood” for its low price and its use in the poorest situations. Besides its environmental impact is very low and its growing is fast. 

In order to better understand the behaviour of bamboo scaffolding structure, I did several studies in the city of Mumbai. The scientific observation of young kids who fast tie the bamboo beams with coconut fibres for hundred of metres has been very useful to create a model with Straus software as similar as possible to reality, and to understand the techniques of the construction site in poor contexts and the quick time of execution of that kind of frame. 
The bamboo scaffolding is composed by main vertical beams called “posts”, with a distance between them of not more than 3 meters. Between them there are the secondary vertical beams, called “standards”. The horizontal connections between these members are made with the “ledgers”, perpendicular to the building, there are the “transoms".

The technique of bamboo scaffolding is very ancient and, especially in Asia and universities are trying to extract precise data and values from a technology based on a thousand year experience. There are many different values on the resistance of bamboo cane depending on the kind of plant, the moisture content, its age, and many other characteristics that are very specific. For the choice of values a lot of considerations and comparisons between the different sources have been done. 
In Shantitown numbers should not be precise because the building is made by inexpert people and is settled in an informal context. So the analysis performed consists of a series of experiments on models with damaged beams in random positions. The goal has been to find out a model previously reinforced in its most fragile part, so that even with serious damages of the structure the main frame can not collapse. The way to find out the most delicate beams to be previously reinforced in this particular frame is by numerous random experiments on 3D models, each of those damaged in its structure in a random way. Besides, it will be taught very easily to people to recognize the serious damages that they must reinforce to keep the structure safe.

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