Homeowner maintenance includes cleaning the leaves
and debris from the roof’s valleys and gutters. Debris in the valleys can cause
water to wick under the shingles and cause damage to the interior of the roof.
Clogged rain gutters can cause water to flow back under the shingles on the
eaves and cause damage. Whatever the roofing material may be including
composition shingle, wood shake, tile or metal. The best way to preserve your
roof is to stay off it. Also, seasonal changes in the weather are usually the
most destructive forces.
There are two types of roofs—flat and pitched (sloped). Most
commercial, industrial, and apartment buildings have flat or slightly sloping
roofs. Most houses have pitched roofs. Some roofers work on both types; others
specialize. Most flat roofs are covered with several layers of materials.
Roofers first put a layer of insulation on the roof deck. Over the insulation,
they then spread a coat of molten bitumen, a tarlike substance. Next, they
install partially overlapping layers of roofing felt, a fabric saturated in
bitumen, over the surface. Roofers use a mop to spread hot bitumen over the
surface and under the next layer. This seals the seams and makes the surface
watertight. Roofers repeat these steps to build up the desired number of layers,
called “plies”. The top layer either is glazed to make a smooth finish or has
gravel embedded in the hot bitumen to create a rough surface. An increasing
number of flat roofs are covered with a single-ply membrane of waterproof rubber
or thermoplastic compounds. Roofers roll these sheets over the roof’s insulation
and seal the seams. Adhesive, mechanical fasteners, or stone ballast hold the
sheets in place. The building must be of sufficient strength to hold the
ballast.
Most residential roofs are covered with shingles. To apply
shingles, roofers first lay, cut, and tack 3-foot strips of roofing felt
lengthwise over the entire roof. Then, starting from the bottom edge, they
staple or nail overlapping rows of shingles to the roof. Workers measure and cut
the felt and shingles to fit intersecting roof surfaces and to fit around vent
pipes and chimneys. Wherever two roof surfaces intersect, or shingles reach a
vent pipe or chimney, roofers cement or nail flashing-strips of metal or shingle
over the joints to make them watertight. Finally, roofers cover exposed
nailheads with roofing cement or caulking to prevent water leakage. Roofers who
use tile, metal shingles, or shakes follow a similar process. Some roofers also
waterproof and dampproof masonry and concrete walls and floors. To prepare
surfaces for waterproofing, they hammer and chisel away rough spots, or remove
them with a rubbing brick, before applying a coat of liquid waterproofing
compound. They also may paint or spray surfaces with a waterproofing material,
or attach waterproofing membrane to surfaces. When dampproofing, they usually
spray a bitumen-based coating on interior or exterior surfaces.
A number of roofing materials are available...
Asphalt
Asphalt is the
most commonly used roofing material. Asphalt products include shingles,
roll-roofing, built-up roofing, and modified bitumen membranes. Asphalt shingles
are typically the most common and economical choice for residential roofing.
They come in a variety of colors, shapes, and textures. There are four different
types: strip, laminated, interlocking, and large individual shingles. Laminated
shingles consist of more than one layer of tabs to provide extra thickness.
Interlocking shingles are used to provide greater wind resistance. And large
individual shingles generally come in rectangular and hexagonal shapes.
Roll-roofing products are generally used in residential applications, mostly for
underlayments and flashings. They come in four different types of material:
smooth-surfaced, saturated felt, specialty-eaves flashings, and
mineral-surfaced. Only mineral surfaced is used alone as a primary roof covering
for small buildings like sheds. Smooth-surfaced products are used primarily as
flashing to seal the roof at intersections and protrusions, and for providing
extra deck protection at the roof's eaves and valleys. Saturated felt is used as
an underlayment between the roof deck and the roofing material. Specialty-eaves
flashings are typically used in climates where ice dams and water backups are
common. Built-up roofing (or BUR) is the most popular choice of roofing used on
commercial, industrial and institutional buildings. BUR is used on flat or
low-sloped roofs and consists of multiple layers of bitumen and ply sheets.
Components of a BUR system include the roof deck, a vapor retarder, insulation,
membrane and surfacing material. A modified bitumen membrane assembly consists
of continuous plies of saturated felts, coated felts, fabrics or mats between
which alternate layers of bitumen are applied, either surfaced or unsurfaced.
Factory surfacing, if applied, includes mineral granules, slag, aluminum or
copper. The bitumen determines the membrane's physical characteristics and
provides primary waterproofing protection, while the reinforcement adds
strength, puncture resistance and overall system integrity.
Metal
Most metal roofing products
consist of steel or aluminum, although some consist of copper and other metals.
Steel is invariably galvanized by the application of a zinc or zinc/aluminum
coating, which greatly reduces the rate of corrosion. Metal roofing is available
as traditional seam and batten, tiles, shingles, and shakes. Products also come
in a variety of styles and colors. Metal roofs with solid sheathing control
noise from rain, hail, and bad weather just as well as any other roofing
material. Metal roofing can also help eliminate ice damming at the eves. And in
wildfire-prone areas, metal roofing helps protect buildings from fire should
burning embers land on the roof. Metal roofing costs more than asphalt, but it
typically lasts 2 to 3 times longer than asphalt or wood shingles.
Wood
Wood shakes offer a natural look
with a lot of character. Because of variations like color, width, thickness, or
cut of the wood, no two shake roofs will ever be the same. Wood offers some
energy benefits, too. It helps to insulate the attic, and it allows the house to
breathe, circulating air through the small openings under the felt rows on which
wooden shingles are laid. A wood shake roof, however, demands proper maintenance
and repair, or it will not last as long as other products. Mold, rot, and
insects can be a problem. The life cycle cost of a shake roof may be high, and
old shakes can't be recycled. Most wood shakes are unrated by fire safety codes.
Many use wipe or spray-on fire retardants, which offer less protection and are
only effective for a few years. Some pressure-treated shakes are impregnated
with fire retardant and meet national fire safety standards. Installing wood
shakes is more complicated than roofing with composite shingles, and the quality
of the finished roof depends on the experience of the contractor as well as the
caliber of the shakes you use. The best shakes come from the heartwood of large
old cedar trees, which are difficult to find. Some contractors maintain that
shakes made from the outer wood of smaller cedars, the usual source today, are
less uniform, more subject to twisting and warping, and don't last as long.
Concrete and Tile
Concrete tiles are made of
extruded concrete that is colored. Traditional roofing tiles are made from clay.
Concrete and clay tile roofing systems are durable, aesthetically appealing, and
low in maintenance. They also provide energy savings and are environmentally
friendly. Although material and installation costs are higher for concrete and
clay tile roofs, when evaluated on a price versus performance basis, they may
out perform other roofing materials. Tile adorns the roofs of many historic
buildings as well as modern structures. In fact, because of its extreme
durability, longevity, and safety, roof tile is the most prevalent roofing
material in the world. Tested over centuries, roof tile can successfully
withstand the most extreme weather conditions including hail, high wind,
earthquakes, scorching heat, and harsh freeze-thaw cycles. Concrete and clay
roof tiles also have unconditional Class A fire ratings, which means that, when
installed according to building code, roof tile is non-combustible and maintains
that quality throughout its lifetime. In recent years, manufacturers have
developed new water-shedding techniques and, for high-wind situations, new
adhesives and mechanical fasteners. Because the ultimate longevity of a tile
roof also depends on the quality of the sub-roof, roof tile manufacturers are
also working to improve flashings and other aspects of the underlayment system.
Under normal circumstances, properly installed tile roofs are virtually
maintenance free. Unlike other roofing materials, roof tiles actually become
stronger over time. Because of roof tile's superior quality and minimal
maintenance requirements, most roof tile manufacturers offer warranties that
range from 50 years to the lifetime of the structure.
Concrete and clay tile roofing systems are also energy
efficient, helping to maintain livable interior temperatures (in both cold and
warm climates) at a lower cost than other roofing systems. Because of the
thermal capacity of roof tiles and the ventilated air space that their placement
on the roof surface creates, a tile roof can lower air conditioning costs in
hotter climates and produce more constant temperatures in colder regions, which
reduces potential ice accumulation. Tile roofing systems are made from naturally
occurring materials and can be easily recycled into new tiles or other useful
products. They are produced without the use of chemical preservatives, and do
not deplete limited natural resources.
Single-Ply
Single-ply membranes are flexible sheets of compounded synthetic
materials that are manufactured in a factory. There are three types of
membranes: thermosets, thermoplastics, and modified bitumens. These materials
provide strength, flexibility, and long-lasting durability. The advantages of
pre-fabricated sheets are the consistency of the product quality, the
versatility in their attachment methods, and therefore, their broader
applicability. They are inherently flexible, used in a variety of attachment
systems, and compounded for long lasting durability and watertight integrity for
years of roof life. Thermoset membranes are compounded from rubber polymers. The
most commonly used polymer is EPDM (often referred to as "rubber roofing").
Thermoset membranes make successful roofing materials because they can withstand
the potentially damaging effects of sunlight and most common chemicals generally
found on roofs. The easiest way to identify a thermoset membrane is by its
seams, it requires the use of adhesive, either liquid or tape, to form a
watertight seal at the overlaps. Thermoplastic membranes are based on plastic
polymers. The most common thermoplastic is PVC (polyvinyl chloride) which has
been made flexible through the inclusion of certain ingredients called
plasticizers. Thermoplastic membranes are identified by seams that are formed
using either heat or chemical welding. These seams are as strong or stronger
than the membrane itself. Most thermoplastic membranes are manufactured to
include a reinforcement layer, usually polyester or fiberglass, which provides
increased strength and dimensional stability. Modified bitumen membranes are
hybrids that incorporate the high tech formulation and prefabrication advantages
of single-ply with some of the traditional installation techniques used in
built-up roofing. These materials are factory-fabricated layers of asphalt,
"modified" using a rubber or plastic ingredient for increased flexibility, and
combined with reinforcement for added strength and stability. There are two
primary modifiers used today: aPP (atactic polypropylene) and SBS (styrene
butadiene styrene). The type of modifier used may determine the method of sheet
installation. Some are mopped down using hot asphalt and some use torches to
melt the asphalt so that it flows onto the substrate. The seams are sealed by
the same technique.
Are You at
Risk?
If you aren't sure whether your house is at risk from natural
disasters, check with your local fire marshall, building official, city
engineer, or planning and zoning administrator. They can tell you whether you
are in a hazard area. Also, they usually can tell you how to protect yourself
and your house and property from damage. Protection can involve a variety of
changes to your house and property, changes that can vary in complexity and
cost. You may be able to make some types of changes yourself. But complicated or
large-scale changes and those that affect the structure of your house or its
electrical wiring and plumbing should be carried out only by a professional
contractor licensed to work in your state, county, or city. One example is fire
protection, by replacing flammable roofing materials with fire-resistant
materials. This is something that most homeowners would probably hire a
contractor to do.
Replacing Your Roof 
...and Insurance?
to keep
the building free of moisture. Roofs also provide protection from the sun. In
fact, if designed correctly, roof overhangs can protect the buildings exterior
walls from moisture and sun.The concerns regarding moisture, standing water,
durability and appearance are different, reflected in the choices of roofing
materials.