Jaguar Land Rover unveils UK’s largest engineered timber roof

Jaguar Land Rover’s Advanced Product Creation Centre has the largest engineered timber roof in the UK, reflecting the design quality and company values associated with one of Britain’s most iconic automotive businesses

Encompassing 1,512m³ of glulam beams certified by the Programme for the Endorsement of Forest Certification (PEFC) and 2,674m³ of cross laminated timber (CLT) panels manufactured by Binderholz, the engineered timber roof for Jaguar Land Rover’s Advanced Product Creation Centre makes a huge design statement covering an area of over 50,000m2.

In fact, this award-winning roof structure with outstanding green credentials has already achieved two prestigious Structural Timber Awards for ‘Commercial Project of the Year’ and ‘Solid Wood Project of the Year’.

Construction partners B&K Structures designed, engineered and installed the timber roof to encompass a diverse range of spaces and facilities for Jaguar Land Rover. 

The CLT and glulam structure was designed to deliver permanent quality and long-term energy efficiency, requiring little or no maintenance to meet the sustainability objectives. The engineered timber industrial system was specified as it allows for rapid assembly and offers excellent airtightness through robust cross laminated timber panels. The solid wood structure met the natural look and feel that Jaguar Land Rover required, together with the low thermal resistance and airtightness that the structure demanded to meet the challenging design brief.

The timber roof will require only minimal maintenance during the building’s lifetime as the solid timber sections prevent dust getting trapped as it would with steel sections. 

The timber structure is designed for 90 minutes of fire resistance.

The project represented the largest PEFC-certified CLT roof deck constructed by B&K Structures. The design of the steel to glulam connections were a primary factor in the accuracy of the frame. 

Adopting a hybrid approach, the structure is designed to be as lean and efficient as possible. Maximising performance in this way has resulted in a roof with the lowest possible amount of embodied carbon.

Photo credits: Bennetts Associates/B&K Structures

Source: PEFC