Difference between revisions of "7.8 - Thermal mass"
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Following a study at Oxford Brookes University; BRE, The Concrete Centre and CIBS all acknowledge that approximately 100mm is the maximum thickness of concrete that can be mobilised within a typical 24-hour cycle of heating and cooling – refer graph below. | Following a study at Oxford Brookes University; BRE, The Concrete Centre and CIBS all acknowledge that approximately 100mm is the maximum thickness of concrete that can be mobilised within a typical 24-hour cycle of heating and cooling – refer graph below. | ||
− | [[File:7.8a.jpg|400px]] | + | [[File:7.8a.jpg|400px|link=]] |
− | Composite slabs on R51, TR60+ or TR80+ in the region of 130mm-150mm thickness all provide an effective concrete volume that meets this 100mm optimum thickness. | + | Composite slabs on R51+, TR60+ or TR80+ in the region of 130mm-150mm thickness all provide an effective concrete volume that meets this 100mm optimum thickness. |
− | + | '''[http://www.steelconstruction.info/Special:SearchResults?q=Thermal%20mass Refer SteelConstruction.info for further information]''' | |
− | '''[http://www.steelconstruction.info/ | + | |
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The building on completion achieved a BREEAM ‘Very Good’ Rating. | The building on completion achieved a BREEAM ‘Very Good’ Rating. | ||
− | + | '''[http://www.steelconstruction.info/St_Johns_Square,_Seaham Refer SteelConstruction.info/St_Johns_Square,_Seaham for further information]''' | |
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− | + | Back to '''[[Contents]]''' Page | |
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− | + | = '''Need Further Guidance?''' = | |
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− | + | Contact us on +44 (0)1202 718 898 or email our [mailto:technical@smdltd.co.uk?Subject=Technical%20Info%20Query(online)&body=%20 Technical Team] | |
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Latest revision as of 15:28, 14 August 2018
Following a study at Oxford Brookes University; BRE, The Concrete Centre and CIBS all acknowledge that approximately 100mm is the maximum thickness of concrete that can be mobilised within a typical 24-hour cycle of heating and cooling – refer graph below.
Composite slabs on R51+, TR60+ or TR80+ in the region of 130mm-150mm thickness all provide an effective concrete volume that meets this 100mm optimum thickness.
Refer SteelConstruction.info for further information
7.8.1 Case Study: St Johns Square, Seaham
Part of the SMD contract at St John’s Square, Seaham working for Hambleton Steel, utilises the thermal mass of the composite slab by exposing the slab soffit and providing natural ventilation through a series of stacks that penetrate the metal deck and floor slabs.
The building housing a Public Library with Offices and a Café, involved the design, supply and installation of 2,700m² of SMD R51 x 1.0mm gauge profile with slab thicknesses of 130mm and 160mm.
The building on completion achieved a BREEAM ‘Very Good’ Rating.
Refer SteelConstruction.info/St_Johns_Square,_Seaham for further information
Back to Contents Page
Need Further Guidance?
Contact us on +44 (0)1202 718 898 or email our Technical Team