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Projects: Projects for Investigator
Reference Number	InnUK/131817/01
Title	Lightweight Energy Absorbing Aluminium Structures (LEAAST)
Status	Completed
Energy Categories	Energy Efficiency(Transport) 20%; Not Energy Related 80%;
Research Types	Applied Research and Development 50%; Final stage Development and Demonstration 50%;
Science and Technology Fields	PHYSICAL SCIENCES AND MATHEMATICS (Metallurgy and Materials) 100%
UKERC Cross Cutting Characterisation	Not Cross-cutting 100%
Principal Investigator	Project Contact No email address given Jaguar Land Rover Limited
Award Type	Collaborative Research & Development
Funding Source	Innovate-UK
Start Date	01 May 2015
End Date	30 April 2018
Duration	36 months
Total Grant Value	£1,295,889
Industrial Sectors
Region	West Midlands
Programme	Competition Call: 1403_CRD2_HVM_MILWL - Make it lighter, with less. Activity Make it lighter, with less
Investigators	Principal Investigator	Project Contact , Jaguar Land Rover Limited (11.576%)
	Other Investigator	Project Contact , Advanced Forging and Forming Research Centre (30.931%) Project Contact , Luxfer Gas Cylinders Limited (2.091%) Project Contact , T. A. Savery & Co Limited (9.358%) Project Contact , Norton Aluminium Limited (4.616%) Project Contact , Grainger & Worrall Limited (11.722%) Project Contact , Sarginsons Industries Limited (4.757%) Project Contact , Innoval Technology Limited (7.696%) Project Contact , Constellium UK Limited (17.253%)
	Industrial Collaborator	Project Contact , Brunel Centre for Advanced Solidification Technology (0.000%)
Web Site
Objectives
Abstract	Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.Lightweight crash management systems are of increasing importance for most forms of ground transport. Automotive OEMs like JLR have advanced aluminium automotive body designs but still depend on steel for bumper beams. For rail applications steel based crash systems predominate. Constellium has developed considerably stronger extrusion alloys based on the AA6xxx alloy system that are fully recycling compatible with the sheet used for automotive structures and body panels. Brunel University has developed alloys and casting technologies that enable extrusions and castings to be combined in novel ways to produce a new generation of compact lightweight crash management systems. The envisaged work programme will include a high strength alloy being combined with casting alloys using overcasting techniques and the use of bonded and riveted joints to demonstrate the potential for both increased crash resistance and weight saving. The project will demonstrate and evaluate optimised designs for crash management systems for both automotive and rail transport.
Publications	(none)
Final Report	(none)
Added to Database	08/10/15