Most roofs in Singapore are constructed using reinforced concrete which is known to have pores or capillary tracts.
Depending on the designed strength, density and installation techniques, the number of pores can vary. These pores
are interconnected within the concrete and water will penetrate through such capillary tracts aided by osmotic effect.
Concrete is known to be inherently weak in tension; cracks and voids can also form due to thermal expansion, contraction and shrinkage. As a result, water will seep through these voids. Therefore, waterproofing is required to keep the roof water-tight since they are exposed to the weather.
DESIGN AND CONSTRUCTION OF FLAT ROOF
The proper design of falls in a flat roof is an essential consideration in the overall drainage of the roof. Falls create flow paths to direct the drainage of rain-water away from the roof to suitable discharge points. To be effective, it is essential to clear surface water as rapidly as possible from the flat roof to avoid ponding or stagnation of water on the roof itself.
Waterponding on a flat roof is a prime cause of deterioration because variations in temperature between wet and dry areas of the roof can cause differential thermal movement. Together with the accumulation of acids left by evaporating rain, this would cause a breakdown on the roof surface. In general, a minimum fall of 1 in 80 will
help to prevent ponding of water.
During construction, precautions must be taken to prevent excessive moisture from being trapped between the reinforced concrete roof structure and membrane. This is one of the common causes of flat roof waterproofing failure. Large amount of water vapour can evaporate from reinforced concrete or a wet screed. Once the
waterproofing membrane is laid, drying out of the structural slab will mostly take place from the underside of the deck. Cross ventilation beneath the deck is usually quite restricted due to erected partition walls. Any trapped moisture subjected to increased temperature from the sun will form vapour which will exert itself directly
beneath the waterproofing membrane. If this vapour pressure is not released or vented sufficiently, the build-up pressure will begin to form a blister on the membrane itself and residual dampness on the underside of the roof. When the waterproofing membrane has suffered an irreversible stretch, subsequent cooling will not cause the
air pocket to return to its original size. Therefore, if a dry surface cannot be achieved within a reasonable period of time, direct membrane adhesion should be postponed or an alternative method of laying should be considered.
ROOF MEMBRANE SYSTEMS
The waterproofing membrane is considered to be most important component of the roofing system as it serves the main function of keeping water out of the building. Below are some common roof waterproofing membranes used locally:
a. Liquid-applied membranes
Liquid-applied membranes are applied on site in a liquid form which is allowed to set and form into a water impermeable membrane. Bituminous-based (except those containing coal tar) and polymeric-based membranes can be applied when they are cold while those containing coal tar are usually applied when heated.
Liquid-applied membranes are seamless, semi-flexible, easy to apply, detail, maintain and repair. However careful supervision and control during application is needed, particularly in ensuring proper curing of concrete, consistent thickness and uniform application.
b. Pre-formed sheet membranes
One type of pre-formed membranes is the polymer-modified bitumen membranes and they are applied by heat or attached with an adhesive. These blended or ‘modified’ asphaltic product are bonded to a high strength fabric of polyester or fiberglass and produced into rolls. They have elongation and recovery properties which make them
suitable to protect against stresses created by wind, temperature fluctuation and normal structural expansion and contraction of the building. Some of these products are also modified to increase their resistance to fire, thus increasing their fire-rating. Styrene-butadiene-styrene (SBS) rolls are modified with ‘rubbers’ and compatible
with petroleum products. Atactic Polypropylene Polymer (APP) rolls are modified with ‘plasticizers’ and not compatible with all petroleum-based products, grease and oils.
Another type of pre-formed membrane is made of Polyvinyl Chloride (PVC). Although PVC is a hard resin, it is modified with the addition of plasticisers to make it more supple and pliable for use as roofing membranes. PVC membranes are mainly produced by either the calendering or extrusion process. In the calendering process,
a reinforcement layer of glass fibre or polyester scrim is normally incorporated into the membrane to provide greater strength and dimensional stability. Like all thermoplastic membranes, they turn soft when subjected to heat. Some proprietary membranes are formulated with heat reflective compounds capable of lowering the surface
temperature of the roof membrane by as much as 15%.
GOOD DETAILING PRACTICES FOR LIQUIDAPPLIED MEMBRANES
As liquid-applied membranes are not very elastic and do not bridge over cracks and gaps well, it is good practice to fix a lax bitumen membrane over building’s expansion and movement joints.
GOOD DETAILING PRACTICES FOR PRE-FORMED MEMBRANES
Proper design of falls in reinforced concrete flat roofs is most important in creating flow paths to suitable discharge points. For a roof to be effective, surface water should be discharged quickly without ponding or stagnation. Next, it is important to select the appropriate waterproofing membrane. As the roof is constantly exposed to direct sunlight and rain, it is likely to experience tremendous thermal stresses that will affect its physical properties and performance. Pre-formed waterproofing membranes generally will perform better than liquid applied membrane as it can bridge over cracks and gaps better. Also, as they are more resistant to indentations caused by traffic, they
are suited for large flat roofs areas exposed to foot traffic. However, liquid-applied membrane is still preferred for small roofs and roofs with a lot of obstructions.
Source from BCA Singapore