AA School of Architecture Visiting School Paris 2011

Self-assembled Prêt-à-Porter will develop a new kind of skin operating as a responsive system to the contemporary needs of the human body, society and technology.

Confronting the currently existing ‘capitalism comfort zones’ in fashion industry (mass- distribution primarily) this studio seeks to engage self-assembled protocols as dynamic landscapes to generate architectonic surfaces.

Aided by handcrafted and software-generated physical modelling, the unit will experiment with form finding methods and prototyping in order to achieve a design proposal.

During week 1 the workshop will commence by researching the possibility of integrating natural systems within contemporary design disciplines, fashion and architecture. Participants will examine biological systems found in nature, from sea flora and fauna, like sponges, to all common-structure vertebrates and reptiles. The aim of the initial research is to draw inspiration to mimic the local intelligence and structural systems of these creatures. 

During week 2 participants will be introduced to methods of creating feedback loops between their physical experiments and digital tools. Computation is used as means to facilitate multi-scalar design: from landscaped bodies and tectonics to experimental fashion design.

Fashion is a unique creative platform that must undergo onto mutation. Self-assembled Prêt-à-Porter Unit seeks to raise awareness within architectural education to avoid processes of ‘pop’aestheticisation and thereby, preventing the risk of anaesthetisation of our society.

FREI OTTO'S IL 25: PNEU AND BONE

Otto utilized formfinding methods and was a master at translating nature's principles to laws of physics and then to architectural design. His IL series is a great documentation of his methods. This is a summary taken from reading 'Pneu and Bone'.

“Pneu (greek : Pneuma = air) as an all-embracing term for a structural system which can be clearly distinguished from many other systems and which has particular characteristics” Frei Otto.




Pneu :
One of the most efficient technical structural systems is the pneu. A pneu is a structural system consisting of a ductile envelope which is capable of supporting tensile stress, is internally pressurised and surrounded by a medium. The pneu allows forces to transferred over considerable distances with a minimum use of materials , and extremely wide span structures to be erected.
Pneu is the structural system of the living nature.
Pneu as a structure used to transfer forces and also as an agent for form generation.

Whenever parts of such objects solidify and become hard like the carapaces of a single cell organisms(eg: radiolaria) like the wood of plants and the shells and bones of animals (shells of insects, internal skeletons of vertebrates). These components are rigid and take compressive loads.(they are no longer pneus) but retain the shape of the pneus from, the structural pneu system is always preserved in principle. It represents the active and living part, whilst the hardened parts maybe regarded as non living or at least less alive substance which can also have load bearing functions. They evolve as pneus , harden in that shape and become other structures such as structural members, skeletons, or shells or in brief: they become non- pneus in the form of structural members, beams and shells. Maybe its through selection from an infinite number of mutations and environmental factors.

Most objects in living nature can be regarded as 3d fibre nets with varying mesh sizes. In most cases however the mesh size in the outer fibres is smaller thus creating high tensile areas of closely spaced fibres which act like fine nets or membranes.

Turtle Shell

The evolution of the turtle shell is seen as a biological model that offers possibilities of structural hybrids. The analogy is drawn from the turtle shell that the smooth gradient between fundamentally different types of structural systems offers possibilities for novel and differentiated spatial qualities.