The Dezeen guide to plastic in architecture, design and interiors

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Recycled PET lego bricks

Thinking of using plastic in your project? Our latest Dezeen guide includes more than 11 types of plastic commonly used in architecture, design and interiors, with links to hundreds of projects for inspiration.

Plastics are among the most versatile materials in existence. Defined by their plasticity, they have long carbon chains called polymers at their backbone and can be moulded, extruded or cast into any desired shape from films to textile fibres.

They can be divided into thermosetting plastics, which never soften once moulded, and thermoplastics, which can be melted and reshaped, making them more suited to recycling.

Plastics “are a co-product of fossil fuels”

Although certain plastics – such as rubber, which is derived from the rubber plant – occur naturally, most modern plastics are synthetic and more than 99 per cent are derived from fossil fuels.

This helps to make plastics more affordable than most other materials and sees them used to create millions of tonnes of single-use items every year.

“Part of why plastics are so cheap is that they are a co-product of fossil fuels,” explained designer Charlotte McCurdy, who has created a bioplastic made from algae.

“Petroleum or natural gas is pumped out of the ground and at the refinery, it is broken up into different lengths of molecule and catalytically cracked into useful monomers.”

79 per cent of all plastic is dumped in landfills

This refining process yields not just fuels such as gasoline and kerosene but also chemical byproducts such as ethylene and propylene, which are the most important feedstocks used to create plastics.

Once discarded, 79 per cent of all plastic is dumped in landfills or in the environment, where it will remain for thousands of years. Although this contributes to pollution, it also helps to sequester the carbon contained in the materials and prevents it from entering the atmosphere.

But when incinerated, as 12 per cent of all plastic waste is, this carbon is emitted as carbon dioxide.

Taken together, plastic production and incineration were responsible for more than 850 million metric tons of greenhouse-gas emissions in 2019.

However, with growing efforts to decarbonise the economy, non-fossil alternatives are being developed in a bid to meet the ever-increasing demand for plastics in a more sustainable way.

Read on to find out more about the most popular types of plastic and their possible substitutes.


RIKR is a recycled plastic backpack by Groundtruth that can withstand Arctic conditions

Polyethylene terephthalate (PET)

PET is a strong yet lightweight thermoplastic, originally developed in the 1940s by combining fossil fuel-derived ethylene glycol and terephthalic acid.

The resulting polymer can be blow-moulded to form single-use bottles, stretched into a film for food packaging or spun into fibres to create polyester fabric, which accounts for more than half the world’s synthetic fibres.

Designers often make use of PET for its translucent finish, with Marjan van Aubel turning it into solar panels that resemble stained glass windows while Beyond Space created a cavernous interior in an Amsterdam office using a kilometre’s worth of semi-sheer polyester.

PET is also the most widely recycled plastic, at which point it is called rPET and can be used to create everything from backpacks (above) to Emeco’s Navy chair.

See projects featuring PET ›


Trash to Chair by Peggy Gou and Space Available

High-density polyethylene (HDPE)

HDPE is a variation of polyethylene, the most common type of plastic in use today. While its low-density equivalent LDPE is used to make plastic bags, HDPE is sturdier and more rigid, lending itself to everything from milk jugs to packaging for cleaning products and toiletries.

The material is also used to create plastic bottle caps and even when brands such as Evian claim they’ve created bottles from “100 per cent recycled plastic”, their lid is generally made from virgin HDPE to guarantee durability.

However, the material can ultimately be recycled after use, with architecture firm Bulot+Collins using the waste plastic to form 1,400 thermochromic tiles for a floating diving platform while Space Available and techno DJ Peggy Gou turned 20 kilograms of HDPE collected from Bali’s beaches into a chair.

See projects featuring HDPE ›


Overtreders W and Bureau SLA Music Pavilion at Sint-Oelbert Gymnasium with Pretty Plastic cladding by Overtreders W and Bureau SLA

Polyvinyl chloride (PVC)

Derived from chlorine and ethylene, PVC makes up about 20 per cent of all plastic produced. Due to its strength and durability, the material is commonly used to create pipes, gutters and window frames, which designers have variously recycled into flower vases and cladding (above).

With the addition of a phthalate plasticiser, PVC can be turned into flexible vinyl and used to form flooring, shower curtains and imitation leather. Swiss studio Bureau A made use of the material’s pliability to create an inflatable nightclub while Formafantasma played with its translucency in a “deconstructed” stage design for fashion label Sportmax.

Due to additives like phthalate, vinyl is among the least recyclable plastics and has been linked to a number of health concerns. But latex made from the sap of the rubber tree can offer a renewable, plant-based alternative.

See projects featuring PVC ›


Bell Chair by Konstantin Grcic for Magis

Polypropylene (PP)

Polypropylene is derived from propylene gas, a byproduct of the gasoline refining process, and is commonly used to form more rigid, hardwearing items such as Tupperware, kid’s toys and outdoor furniture.

Designers began experimenting with the material in the 1950s to create monobloc chairs, injection moulded and formed from a single piece of material. Among the most notable designs are Verner Panton’s Panton chair, the Air-Chair by Jasper Morrison and more recently the recycled polypropylene Bell Chair by Konstantin Grcic for Magis, which is manufactured in less than a minute.

The thermoplastic can also be spun into fibres to create surgical masks, which South Korean designer Haneul Kim has recycled to create a series of stackable stools, or used as a 3D-printing filament as in the performance sports tiles on Yinka Ilori’s Bank Street Park basketball court.

See projects featuring PP ›


Au Gré des Champs by La Shed

Polycarbonate

Polycarbonate is a thermoplastic with carbonate groups in its chemical structure, making the material exceptionally resistant to impacts and temperature changes.

Often used to create bulletproof windows, it can be engineered to be almost as clear as glass while being lighter and up to 250 times stronger.

Polycarbonate sheets are popular among architects and interiors designers for their ability to maximise natural light while maintaining privacy, as well as improving a building’s thermal insulation.

Francesc Rifé Studio used the sheeting to divide an old textile factory into offices for the team behind Michelin-starred restaurant El Bulli while La Shed Architecture clad an entire barn (above) in the translucent material to give cows “a better quality of life”.

See projects featuring polycarbonate ›


ElectroDermis by Carnegie Mellon University

Polyurethane (PU)

Polyurethanes are a diverse class of plastic polymers derived from isocyanic acid. Most commonly, PU takes the form of a flexible foam used for mattresses and upholstery while a more rigid variety is turned into trainer soles for brands from Adidas to Allbirds.

As a coating, lacquer or varnish, it can waterproof fabrics and protect wooden furniture as well as helping leather alternatives such as Piñatex withstand wear and tear.

Design studio Layer made use of PU’s adhesive qualities to create a heat-sealing tape that bonds textiles without the need for stitches. And spun into fibres, it forms the main ingredient in spandex, which is used to make sportswear as well as more boundary-pushing items such as fabric-cast concrete moulds and wearables that can be stuck to the body like plasters (above).

Polyurethanes are not easily recycled and can contain potentially carcinogenic compounds that irritate the skin and respiratory system.

See projects featuring PU ›


Fibreglass

Also known as glass-reinforced plastic or GRP, fibreglass is made by taking thin glass filaments, either loose or woven into cloth, and encasing them within a petrochemical resin.

The composite material is lighter and stronger than steel while being cheaper and more flexible than carbon fibre. As a result, fibreglass is used to create products where performance is key, including skis as well as the rotor blades of helicopters and wind turbines.

Architects have made use of the material to create tall, lightweight structures such as BIG’s 2016 Serpentine Pavilion (above), which was formed from 1,900 translucent blocks, and a tubular installation designed by Neri Oxman and erected by a swarm of autonomous robots.

See projects featuring fibreglass ›


Soil House by ADC architects

Polystyrene

In its original form, polystyrene is a hard, solid resin used to make disposable cutlery. But when solid beads of the plastic are exposed to hot steam, they puff up like popcorn to create expanded polystyrene (EPS) foam, mostly known by its brand name Styrofoam.

The rigid, closed-cell foam is 98 per cent air and has a low thermal conductivity, making EPS a widely used packaging for fragile items as well as for hot foods and drinks.

Once discarded, designers have been able to repurpose this packaging into sculptural chairs and beckoning cats, as well as melting it to create moulds. In architecture, it can be used for insulation or more experimental applications as in ADX’s Soil House (above), which features walls of loose soil fixed in place with a foam spray.

See projects featuring polystyrene ›


Sky Pool at Embassy Gardens in Battersea by HAL

Acrylic

Acrylic is a catchall term used to describe a range of different resins derived from acrylic acid. These can be suspended in water to create paint or spun into fibres that can be used to make clothing or as precursors for carbon fibre.

When cast into sheets, the thermoplastic is known as plexiglass and used as a low-cost, shatter-resistant alternative for glass due to its exceptional optical clarity. This application was pioneered during the second world war when it was used to form fighter jet windows and submarine periscopes.

More recently, English architecture firm HAL used giant plexiglass panels to form a 35-metre-high swimming pool bridge connecting two buildings in London (above) while designer Christophe Gernigon turned the material into suspended hoods for socially distanced dining.

Furniture made from acrylic can reflect light or disappear into its surroundings, as demonstrated by the see-through counter that Yota Kakuda created for Bake Kitasenju brasserie and Say Architects’ ghostly interior for the Lika Lab boutique in Hangzhou.

See projects featuring acrylic ›


Phan Thao Dang transforms sewage pipes into graphical furniture items

Acrylonitrile butadiene styrene (ABS)

Acrylonitrile butadiene styrene, much like polystyrene, is a hard thermoplastic derived from a clear, liquid petrochemical called styrene. In ABS, this is combined with butadiene rubber to create a stronger, more durable material that can withstand compression better than concrete and has been injection moulded to form billions of hardwearing Lego bricks since 1963.

Due to its low melting point and the fact that it can be easily painted and glued, the plastic is also one of the most common additive manufacturing filaments and was used to form the world’s first 3D-printed gun.

Extruded ABS pipes are more resilient than their PVC counterparts, making them suitable for constructing sewer systems and being repurposed into a corrugated seating collection by designer Phan Thao Dang (above).

See projects featuring ABS ›


Nylon

As the first fully man-made fibre, created in a US lab in the 1930s, nylon spawned an era of innovation in synthetic fabrics.

Although initially synonymous with stockings, the term nylon has since expanded to include a whole family of plastics composed of polyamides. These can be found in toothbrush bristles, films for food packaging and moulded components in cars and electronics.

However, the material’s primary application remains in fibres, with SO-IL using nylon webbing to form a colourful hammock around 130 trees and Studio Drift crafting it into a kinetic sculpture for the Dutch National Touring Opera (above).

In recent years, a number of fashion brands including Prada have moved from virgin to regenerated nylon, also known under the brand name Econyl, in a bid to mitigate the material’s environmental impact. Rayon can offer an alternative that is based on plant-based cellulose fibres rather than fossil fuels.

See projects featuring nylon ›


Plastic alternatives

With growing concerns around pollution and efforts to create a circular economy not reliant on fossil fuels, architects and designers are increasingly looking to substitute virgin and petroleum-based plastics for more sustainable alternatives.

This includes recycled plastic, which presents a huge source of untapped potential as only nine per cent of the 8.3 billion tonnes of plastic waste produced across the world have so far been turned into new products.

The material can be sourced from recycling plants or companies such as The Ocean Cleanup and Parley for the Oceans, which are fishing marine plastic from our oceans and waterways before teaming up with brands to turn it into sunglasses, trainers and more.

Bioplastics that use natural materials rather than crude oil as feedstocks present another possible alternative. Polylactic acid (PLA), the most common type of bioplastic, is generally made from corn starch or sugar cane while others are derived from algae or chitin.

Many are designed to be compostable or biodegradable under specific conditions to reduce the amount of plastic waste in the environment, although some experts have raised concerns that this could ultimately lead to soil and water acidification.

The post The Dezeen guide to plastic in architecture, design and interiors appeared first on Dezeen.

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