In Publications on 2017/02/06 at 10:58 pm
We have created low-cost housing solutions for the local community in Pabal (India). Those people have a lot of ingenuity but not a lot of money to buy expensive building materials. Only the transport to their villages would cost them a significant amount.
But they have a wealth of natural resources. And amongst them, they have bamboo, a fascinating multifunctional material, ideal for structure-erecting, wind-loading and vibration-proofing due to its heterogeneous porous structure and high shear modulus.
Bamboo: macro and microstructure
We have helped them to build those modular huts by providing them with a set of instructions that are universal and accessible to all, no matter the mother tongue, ability or building skills. In this way they are prepared to adapt and be resilient to the threats posed by natural forces and climate change hazards (e.g. floods, pluvial, wind, earth tremors) and reinforce their coping strategy as a resilient community.
In the process of developing those instructions we have learnt a lot from the Information Design community. There is so much lo learn about user-centric design, cognitive load and the language of actions, perspectives and colours to convey instructions and allow self-guidance. I deeply thank them for having mentored us.
Our work can be read here and directly on the Information Design Journal site
Information Design Journal 2016 volume 22 no. 1
In Comment, Publications on 2016/10/19 at 1:08 pm
The very prestigious Queen Elizabeth Prize for Engineering has invited me to contribute to their blog this month. October is dedicated to exploring the future of Manufacturing and they wanted to hear my story about the work we do in porosity tailored structures inspired by nature. It is a great honour to be showcased by them.
You can read the post here:
Or here: http://qeprize.org/createthefuture/less-bio-inspired-innovations/
The Queen Elizabeth Prize for Engineering is a £1million prize fund awarded to an engineer, or group of engineers, whose innovation has been of global benefit to humanity. Alongside awarding the prize, the QEPrize foundation also exists to celebrate and promote engineering, encouraging the next generation to take up the challenges of tomorrow.
In Seminars and Keynotes on 2016/04/05 at 8:13 pm
Solid Free Form (SFF) fabrication, also known as Rapid prototyping (RP) or Layered Manufacturing (LM), creates arbitrary 3D shapes directly from Computer-Aided Design (CAD) data. It has been around for two decades now. From its early age it demonstrated tremendous advantages for the Computer-Aided Manufacturing (CAM) industry compared to traditional manufacturing methods such as CNC machining or casting. The venues for exploration appeared endless until users started to hit a ceiling; the name ‘rapid’ became almost ironic because the layering process is a very slow one, the palette of materials to handle is limited and the advertised label ‘net-shape’ is ‘near-shape’ – on a lucky day-. We are now over the hype of SFF, RP and LM but still have needs to create heterogeneous structures that have intrinsic multifunctionality. The Multifunctional Materials Manufacturing Lab in Loughborough University works on new manufacturing methods that allows a truly free form fabrication and the engineering of composition and structure for the creation of materials that are smart, responsive to their environment and possess synergistic properties that enhance their behaviour. These types of high performance materials offer great promise in fields such as bioengineering and transport (i.e. automotive and aerospace).
Venue: Department of Physics, Universitá degli Studi di Milano, Aula Consiglio. Italy