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Characteristics of lead. Lead is one of the most durable metals that is used in building, historically showing that it can perform satisfactorily for up to a few hundred years. It is a soft, heavy, metal which is extremely resilient and malleable. These characteristics make it ideal for widespread external use in construction, especially where it is necessary to keep out rainwater at the complex junctions between building details that would otherwise prove difficult to be kept weather-tight. In addition to performing an exceptional range of functional requirements, its malleable qualities have also made it possible to readily work the material into architectural features such as scalloped detailing, raised bosses and ball finial decorations.
Freshly cut lead has a bluish white colour but thisconverts to a dull grey hue when exposed to the air. As this happens a natural resistance to corrosion is produced. In some circumstances the initial whitish finish may be unacceptable, and this can be avoided by the external application of patination oil. But, there is a need to carry out the patination quickly, as uneven smearing and discolouration may otherwise occur. In general terms, the thicker the sheet, the more durable the material will be. The great ability of lead to be easily cut and worked can also be its disadvantage. Because it can expand and contract significantly, lead work detailing needs to allow for the material to move as weather conditions change.
Types of sheet lead: Sheet lead can be manufactured by three
methods:
- Sand casting;
- Machine casting;
- Milling (rolled).
By pouring molten lead across a prepared bed of sand and spreading it out by hand to the required thickness, a distinctly rough appearance was created on the finished sheet. Sand cast sheets of lead were manufactured by the Romans to create water storage tanks and pipes but, in medieval times, many church and cathedral roofs were covered with lead made in a similar manner.
A number of specialist firms can still carry out the process of sand casting. The manufacture of machine made cast lead sheets has a much more modern pedigree, with the technique being invented during the 1950’s and first introduced into the country during the 1980’s. The sheet is produced by rotating a cool metal drum in a bath of molten lead. This solidifies onto the cooled surface of the drum, and is subsequently peeled from it in a continuous sheet.
Different thicknesses are created by varying the speed at which the drum rotates, the depth by which it penetrates into the molten lead, and the temperature difference between the drum and the molten material. As a result of the process, the finished sheet has a relatively smooth surface where it has previously been in contact with the drum.
Milled lead sheet is created by rolling a block of lead between cylindrical rollers. The rollers are brought progressively closer together until the required thickness of lead is obtained. Producing a consistent thickness of sheet with a fine smooth finish on both faces, the rolling technique was first started around the mid 18th century.
Rolled milled sheet is the most common form of lead available today, and the related trade association offers excellent guidance and technical advice on how to use the material in a wide range of circumstances. Range of defects and remedial work Although lead resists corrosion well, it can be damaged or stained by alkalis from new cement, acids from some timbers (oak in particular) and the run-off from lichen, moss and algae surface growths. It is therefore best to try to avoid situations emerging where these circumstances can occur.
Temporary protection may be necessary when working with cement or lime mortars in the vicinity of lead, an appropriate barrier may be necessary between it and the timber, and biological growths should be prevented from establishing themselves in the vicinity and building up on the surface.
Despite the excellent properties of the material a range of other physical defects may
have to be dealt with including:
- Wind lift and distortion;
- Surface ripples and creep;
- Rips and tears;
- Restricted thermal movement;
- Topside and underside corrosion.
The physical and visual effects of any of these defects should become obvious if a regime of routine inspection and maintenance is followed. Undertaking repairs requires an appropriate knowledge to assess and diagnose the cause of the defect before making recommendations, and carrying out the work. This should consider the overall condition of the lead, how long it has been in place, whether there are any inherent design faults, and whether or not there is any interaction occurring between other nearby materials or growths.
Roofs should be generally inspected after any severe storm to determine whether or not strong winds may have lifted or distorted the lead work from its original position. This type of failure is usually caused by inappropriate, loose or inadequate fixings. This should be remedied when repair works are carried out in resetting the lead. To prevent lifting and distortion the free edge of all lead flashing should be appropriately clipped in place. The number of clips used will vary dependent upon the size of the piece of lead-work, its function, and the orientation of the building and its exposure. Clips are normally made from copper, stainless-steel or lead.
Large sheets of lead should be supported on a smooth decking with a suitable underlay positioned between the lead and the deck. The selected underlay should
- Act as sound deafening;
- Allow for thermal movement;
- Not contain any material that is detrimental to the lead;
- Provide a barrier against corrosion;
- Provide an even support surface;
- Reduce the risk of trapped moisture and condensation below the lead sheet.
Inappropriate materials, such as bituminous roofing felt, laid in this position could “glue” the layers together during hot weather and cause the lead sheet to buckle and fracture. An appropriate building paper or polyester geotextile material is to be preferred.
Applications and use
With different thicknesses and weights (Codes) being used for different functions, the thicker and heaver sheets will last longer. They are also best suited to areas where there is a need to ensure that rainwater is properly channelled off the building and disposed. Lead is likely to be found in traditional building construction at a variety of locations including:
- Access hatch covers;
- Apron flashings;
- Bay windows;
- Chimney flashings;
- Cover flashings;
- Dormer flashings;
- Flat roofs;
- Gable flashings;
- Lining parapet gutters;
- Parapet wall capping;
- Rainwater downpipes;
- Rainwater outlets;
- Roof hips;
- Roof lights;
- Roof piercings;
- Roof ridges;
- Secret gutters;
- Valley gutters;
- Vertical cladding;
- Weathering to cornices.
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Lead Roofing | Lead Roofs | Lead Roofing - Find local lead roofers and explore the world of lead roofing and lead roofs.
Lead Roofing | Lead Roofs | Lead Roofing - Find local lead roofers and explore the world of lead roofing and lead roofs.
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