Mario Cucinella Architects and WASP Launch 'TECLA' 3D Printed House

Mario Cucinella Architects and WASP Launch 'TECLA' 3D Printed House

Mario Cucinella Architects and WASP have launched TECLA - a prototype for a 3D printed habitat, near Bologna, Italy. Borne from a vision to provide a home for everyone at a time of exponential population increase and an associated lack of affordable housing, TECLA is a new circular housing model, created using entirely reusable, recyclable materials taken from the local terrain.

Since 2012, WASP (World's Advanced Saving Project) has been developing viable construction processes based on the principles of circular economy, that will create 3D printed houses in the shortest period of time, and in the most sustainable way possible. TECLA will be the first habitat to be built using multiple collaborative 3D printers, offering a greater scope of scale than ever before. Used in the context of a wider masterplan, TECLA has the potential to become the basis for brand new autonomous eco-cities that are off the current grid.

Built using Crane WASP - the latest innovation in on-site 3D construction, TECLA represents a step-change in the move towards eco-housing. Designed by MC A and engineered and built by WASP, TECLA will be the first house to be entirely 3D printed using locally sourced clay - a biodegradable and recyclable 'km 0 natural' material which will effectively make the building zero-waste. It will be built to adapt to multiple environments, and it will be suitable for self-production through the use of WASP's innovative Maker Economy Starter Kit. This approach will limit industrial waste and offer a unique sustainable model that will boost the national and local economy, improving the wellbeing of communities. Furthermore, the scheme will significantly accelerate the construction process as the 3D printer will produce the entire structure at once.

The model was named TECLA after an imaginary city described by Italo Calvino in The Invisible Cities as a 'continuous urban evolution'. It is representative of both companies' efforts to combine technological innovation with respect for the environment and an understanding of natural processes. TECLA received planning approval in May 2019, commenced printing in September 2019, and is due to complete at the beginning of 2020. Starting with the first prototype at WASP headquarters in Massa Lombarda, the project's aim is to work towards communities of smart houses around the world.

TECLA was developed using in-depth research undertaken by the SOS - School of Sustainability - a professional school founded by Mario Cucinella that combines education, research and practice. The research, conducted with the support of MA students from the Sustainable Environmental Design program at the Architectural Association School of Architecture in London, explored the cause and effects of homelessness. It interrogated the use of technological advances to enable a solution, based on case studies in locations with different climates. The result is a highly flexible envelope, designed to be resilient to any climate and energy-efficient in a way that traditional housing models are not.

The collaboration between MC A and WASP has been supported by Mapei, a worldwide producer of construction materials, which has studied the clay materials and identified the key components within the raw earth mixture to create the final highly optimized printable product. Structural tests were carried out by Milan Ingegneria, a Milan-based engineering consultancy, which worked on the optimization of the shape in order to create a self-supporting structure. The frames, customised and highly-efficient, have been engineered and produced by Capoferri, a company specialised in architectural frames and always at the forefront of technological advances, while the landscaping has been curated by Frassinago, a multidisciplinary company that includes a design studio that deals with landscape architecture and a firm specialized in the gardening and outdoor sector. RiceHouse provided technical consultancy about bio-materials deriving from rice cultivation waste (rice husk and straw), which affected the thermal performance and living comfort of the building envelope. The lighting project, developed both internally and externally with the aim of achieving the maximum flexibility and sustainability of the intervention, has been developed by Lucifero's.

Images: Courtesy of Mario Cucinella Architects and WASP