the façade specialist

Glasgow Medical School

Supported by shaped and laminated glass beams, spaced at 1.5 metre centres, the double glazed roof units present a toughened outer leaf subtended by a laminated inner to arrest any falling object or fragments of glass, should the outer pane be broken.

Conventional structural glazing technology uses friction grip splice connectors with fibre gaskets to prevent glass to metal contact and to control stress levels. The beams for Glasgow's new School of Medicine are up to 16 metres in length and had to be assembled from four sections whose size is limited by the glass toughening process.

Unfortunately with safety considerations as well as the load conditions demanding the use of laminated glass, the squeezing pressures exerted by these splice connectors would have caused the poured resin interlayer to flow and create localised, potentially catastrophic stress patterns.

The solution arrived at by HansenFacades and its consultants, Arup Façade Engineering, was to introduce aluminium plates between the layers of glass, limited to the area of the connectors. Although this innovation required refinement of the resin formulation and its curing characteristics to counter delamination of the poured interlayer around the aluminium inserts, full scale testing carried out in the University of Glasgow's own civils laboratory confirmed the beams' ability to withstand tensile as well as bending stress under maximum design loading conditions.

The design team employed established glass friction coefficients to determine the correct beam depths while a bespoke stainless steel spring washer was also devised to help distribute the loading and, in particular, temperature related stresses.

These washers were computer modelled then produced in wax using rapid prototyping before going into production. HansenFacades and Arup also employed CAD based 3D finite element analysis to determine the behaviour of these complex connections, assembled using accurately torqued M20 grade bolts.

As part of the façade work undertaken by HansenFacades, the Hansen ThermoSpan™ system was also utilised to create a highly energy efficient, thermal wall. This includes a metre wide cavity between the inner skin of curtainwalling and the external skin of laminated ThermoSpan™ glazing, making use of the 'stack effect' to exhaust hot air out from vents at the top and thus reduce solar gain in the summer months. In winter time the secondary glazing effect and wide cavity cut heat loss to a minimum.

Project Name: University of Glasgow Medical School
Location: Glasgow, Scotland
Client: University of Glasgow
Architect: Reiach and Hall Architects
Main Contractor: University of Glasgow's Estates and Building
Product: Hansen ThermoSpan
Company: HansenFacades

 Da EnHansenGroup Ltd, Cedar House, Sandbrook Park, Rochdale OL11 1LQ UKCompany No. 02802131 VAT No. 775762483
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