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The Bloodhound Project Airbrakes

Airbrakes

The airbrakes in BLOODHOUND SSC are located either side of the Car in front of the rear wheels. They are made from carbon fibre and will experience around 5 tonnes of load at speeds of up to 800mph.

One of the prime advantages of airbrakes is that they are mechanically straightforward to operate. But the problem with using them in BLOODHOUND is that in order to stop the Car in the available distance of 5.5 miles (8.8km), they must virtually double the cross-sectional area and drag of the car, and that represents a significant technical challenge.

The result is that BLOODHOUND’s airbrakes are the biggest ever seen in land speed racing.

How they work

The airbrake doors need to be moved out into the airflow at a very specific rate in order to maintain the G force on the Car at just under 3g – which is the equivalent of slowing it down by 60mph every second.

Each door is moved by a separate huge hydraulic ram. However, it’s also vital that they open symmetrically, so the twin hydraulic pistons drive a single slider plate, which in turn is connected to both airbrake doors so that both move together.

For safety, each door also has its own separate accumulator that acts as a form of backup in case the main hydraulics fail.

Perforations in the airbrakes help break up the airflow, which will reduce the trauma on the rear wheel assemblies.

Engineering News

Parker hydraulic power packs

Thursday, 26 November, 2015

News

Two new hydraulic power packs delivered to the BLOODHOUND Supersonic Car (SSC) team this week will make safety and operational testing much easier, in the run-up to the project’s world land speed record bid.

Engineering News

How do you stop a 1,000mph car?

Thursday, 15 January, 2015

News

Find out how Parker are helping to stop the BLOODHOUND Supersonic Car at speeds of upto 800mph and below

Engineering News

Airbrake motion

Thursday, 17 May, 2012

News

Ever since Andy published his diary in April 2012, we've had many questions about how the airbrake works.