Designing the Sydney Opera House (original) (raw)

Back to projects

Designing the Sydney Opera House

Location

Sydney, Australia

Clients

New South Wales Department of Public Works

The Sydney Opera House is one of the world’s most famous buildings and its history is deeply interconnected with our own. In the mid-1950’s Bennelong Point, known to the Traditional Owners as Tubowgule, set between Sydney Harbour and the Sydney Botanic Gardens, was chosen as the site for Sydney’s new arts and culture building. Danish architect Jørn Utzon won the international design competition for the Sydney Opera House design.

In 1957, we were appointed as the project’s consulting engineers and our founder, Sir Ove Arup, travelled to Australia to set up a site office, establishing our Australian practice. From start to completion, we provided structuralengineering for all elements of the building, including the foundation, the roof’s iconic pre-cast shells, the concourse and glass walls.

The Opera House’s complex design presented a unique opportunity for close collaboration between engineering and architecture. It also pushed engineering boundaries, creating technical innovation and establishing design conventions we still use today.

A unique collaboration between engineering and architecture

The Opera House was, at the time considered unbuildable. This complexity created a unique opportunity for Sir Ove Arup and architect Jørn Utzon to collaborate closely – a break from conventional architectural practice at the time.

The crowning achievement of this collaboration is the Opera House’s most recognisable design component, the concrete roof sails, which hold 1,056,006 ceramic tiles. There was no precedent anywhere is the world for building the sails, which needed to be self-supporting.

Working together, they created 12 trial schemes before landing on a spherical solution consisting of ten roof sails built from segments of the same sphere, 75 metres in diameter. Each sail is made from pre-cast concrete supported by concrete ribs. The simplicity of this solution enabled the ribs to be mass produced on site and then lifted into place, offering design coherence and economies of scale.

Engineering problems are under-defined, there are many solutions, good, bad and indifferent. The art is to arrive at a good solution. This is a creative activity, involving imagination, intuition and deliberate choice.

Sydney Opera House under construction

The Sydney Opera House under construction

The Opera House epitomises the late 20th century’s daring use of modern concrete design and construction techniques. The building is famous for its innovative use of exposed structural concrete as a key architectural feature.

The concourse, which provides pedestrian and vehicle access to the building, is the most notable feature of the building’s concrete base. Ove Arup designed folded pre-stressed concrete beams to support the base structure. By integrating the techniques of folded plate structures and prestressing, he enabled the creation of expansive open spaces inside the podium, such as the Box Office Foyer, without the need for structural columns.

The wind loads for the sail’s curved surfaces were unknown and had to be determined. Our team pioneered the use of wind tunnel testing for buildings which is now common practice in design for large buildings all over the world.

The Opera House’s glass walls enclose the openings between the roof sails and the podium structure. Laminated glass was chosen for its toughness and ability to be shaped on site, yet little was known about its use for architectural design. Our team undertook a research programme to understand the structural behaviour of architectural laminates. Equipped with this knowledge, we designed the first large-scale example of using glass as a structural load bearing material in a building.

Sir Ove Arup on the site of the Opera House's construction

From left: Michael Lewis, Sir Ove Arup and Jack Zunz on site in 1966 © Max Dupain

Initial sketches for the roof's design

Sir Ove Arup and architect Jørn Utzon collaborated on designs for the structure to be realised. Twelve trial schemes were analysed to determine the design of the concrete roof sails.

Continued evolution of the roof's design as sketches

Sir Ove Arup and architect Jørn Utzon collaborated on designs for the structure to be realised. Twelve trial schemes were analysed to determine the design of the concrete roof sails.

The spherical solution consisting of ten roof sails built from segments of the same sphere.

The spherical solution consisting of ten roof sails built from segments of the same sphere.

Wind tunnelling to determine the wind loads for the sail’s curved surfaces.

Wind tunnelling to determine the wind loads for the sail’s curved surfaces.

Sketches for the glass wall

The plans for the glass walls.

Preserving and evolving the Sydney Opera House’s legacy

The structural engineering of the Opera House becomes increasingly more complex over time as it is progressively altered to accommodate modifications, upgrades and renewal projects, which are necessary to maintain the place as a functional public building and leading performing arts centre.

From repairs and maintenance to major upgrades, our team continues Ove’s work preserving and evolving the Sydney Opera House for future generations of visitors, artists and performers so everyone can enjoy this global icon.

Discover more

Find out more about our ongoing work with the Sydney Opera House

Partners & collaborators

Rudder Littlemore & Rudder Jorn Utzon / Hanson & Todd / Stephen George & Partners / Hall Todd & Littlemore / CP Weatherburn

Arup is a proud sponsor of Sydney Opera House.

Get in touch with our team