IQ Glass Solutions LTD, Sky House, Raans Road, Amersham, HP6 6FT
When looking at specifying roof glazing, either in the form of overhead roof lights or larger structural glass roofs, the safety of these glass installations is paramount. Glass roofs are required to perform similar functions to the building elements they are installed within as they place demands on the fabric of the building. These demands range from the structural loads forced on the glass unit to how well insulating it is (including sound and heat insulation).
The safety, security and durability of these roof glazing installations are paramount and must be considered by the specifier at the point of design. Read on to find out about the various aspects of roof glazing safety that should be considered.
Using Toughened AND Laminated Glass for Roof Glazing
Design Safety for Occupants with Roof Glazing
What is Laminated Safety Glass?
How is the Strength of Roof Glazing Tested?
Do Glass Roofs have Wind Load Requirements?
First of all, it is important to know that Toughened and toughened laminated security glass should always be specified for any overhead roof glazing. Not all glazing companies will specify this as standard as it is not yet a legal requirement, however, we strongly advise that any roof glazing installed on your project satisfy the requirements for “non-fragile” roof installations and use toughened AND laminated glass to the internal face (security glass).
All roof glazing installations are designed to provide natural light, and sometimes ventilation, into the interior of a building. The glass specification that is used, is manufactured with a loading allowance for maintenance and not regular foot traffic. If roof glazing is desired to be a walk-on-rooflight then the glass specification needs to be manufactured to meet the load demand to ensure the glass can withhold the predicted weight.
Glass is heavy. If singular toughened glass is specified in your roof and the glass breaks it will fall onto the occupants below and has the ability to cause extensive damage to the space and people below.
Depending on the intended purpose of the roof, “non-fragile” rooflights are installed to prevent people or objects from falling through the glass if an accident were to occur on the roof. Non-fragile glass refers to a glass unit that’s designed to be accessible but doesn’t support frequent footfall. Just because a glass roof is classed as “non-fragile” doesn’t mean that it is strong enough to be used as walk-on glass, this requires an enhanced glass specification. All roof glazing from IQ Glass uses a toughened glass outer pane and a toughened laminated inner. This means that should the glass roof ever break the broken glass will be held in place by the interlayer, therefore not fall onto the occupants below.
At the design stage of a project, it’s important to consider and discuss with IQ Glass what the roof access requirements are so that the glass can be carefully specified. Always specify security, toughened laminated glass for your roof glazing and ensure the roof structure is non-fragile. Most rooflights tend to be designed as non-fragile systems and meet the same non-fragility as the surrounding roof structure but it’s best to get advice from a glazing contractor to confirm this.
When specifying roof glazing, it’s important to understand that how the glass is manufactured is the most critical part to achieve the desired performance of the product. As mentioned before, IQ Glass use toughened laminated safety glass for their roof glazing. Laminated glass is when two or more sheets of glass are bonded together with a strengthening interlayer. This interlayer is specially designed to hold the glass together if any or all of the glass should break. It’s therefore considered to be a safety glass as the broken glass is held together and won’t fall from overhead into the room below.
Laminated glass is also typically used where security is a priority as when the glass is smashed it doesn’t fall through, which delays and even prevents burglars from managing to get through the glass before emergency services arrive.
Both hard and soft body impact testing is carried out to test which Class a glass unit falls into; these classes go from Class 0 through to Class 3. Class 0 denotes glass roofs that are designed for unrestricted access by the buildings occupants, as the Class number increases more restrictions are put in place, especially Class 3 that is deemed a fragile roof where additional safety measures need to be put in place.
So, what is a hard body and soft body test? These are drop tests using a sandbag for the soft body testing or a steel ball for the hard body testing. During the “hard body” test, a steel ball of 4.11kg is dropped from a height of 1.2m to generate the force equivalent to a person stumbling on to the glass rooflight while carrying something (creating an impact energy of 448J). The “soft body” test is designed to simulate somebody falling onto the rooflight, so a 45kg sandbag is dropped from 1.2m high to create an impact energy of 530J.
To further test the strength of the glass, any glass that isn’t broken is then shattered and a sandbag weighing 180kg is placed on the glass to represent an injured person and somebody who has come to help them. With this weight on the glass, a timer is set for 30 minutes to see if the broken glass can stay in place for this long. The whole test procedure is then repeated 2 more times to ensure the results are consistent.
Throughout all these tests, minimal glass must fall onto the ground and nothing must pass through the glass. If small fragments of glass fall from the tested glass, then they need to be collected and weighed to calculate how much of a risk it will cause to the people potentially below the “glass roof”.
When observing the test results of glass, it’s important to take into account that the results are only accurate for the size and glass specification used during the test and also the frame support system used. This is especially something to consider when using bespoke rooflights on a project.
All of IQ's structural glass roofs and rooflights are also designed and engineered for a standard maintenance load. This is in line with the requirements for a 'Class 1' non-fragile roof structure. This means that the surface of the structural glass roof or rooflight has been designed to be durable and resilient. Glass roofs can also be designed to be walked on and would then be classed as a glass floor.
Higher levels of loading for glass roofs are possible under the correct specification. The team at IQ work from the architect's specification to create a glass specification for a rooflight that adheres to the project's requirements.
The safety concerns about structural glass roofs often leave architects with the question “how will I clean a glass roof?”.
The answer is that the maintenance load allowance is put in place just for this reason. The strength of the glass specification used can take the load of one human in order for them to clean and carry out general maintenance on the glass roof.
Yes. It’s not only loads imposed by people that need to be considered, it’s also important to ensure that the glass is suitable for the loads created by the elements in the project location. All year round, a roof is exposed to wind loading, so therefore the glass specification needs to be tested using the method outlined in BS EN 12211 which measures wind resistance, frame deflection and pressure resistance.
Site location is one of the most important factors when determining the wind load requirements, as some areas are more exposed to harsh weather conditions that others and this needs to be carefully considered.
Snow loading is another important loading aspect to take into account, but it is hard to predict how much snow loading will be required. Snow is more of a seasonal occurrence compared to wind, but snow can linger and create substantial weight. A glass specification is tested for “long duration loading” to check whether it is suitable for snow loading. It’s measured by testing whether there is any deflection in the centre of the glass and whether this poses any risks.
Only roof glazing that has been specifically designed to be used for foot traffic can be considered a “walk-on rooflight”, meaning that it must be designed to floor loadings.
As standard IQ Glass ensure that their rooflights are designed and manufactured with a maintenance loading – but this doesn’t mean it’s suitable for regular foot traffic. This means that if a window cleaner, maintenance worker or builder ever need to, they will be able to walk on IQ’s structural glass roofs for access, cleaning and maintenance.
This maintenance allowance also means that our glass roofs can be used as fire escape access in the event of an emergency, which is extremely important in inner-city homes where there may be no other means of escape from upper floor bedrooms.
Walk on glass (also referred to as floor lights or glass floors) has a heavier glass specification compared to structural glass roofs, and the surrounding structure needs to be designed to support the loads created by the weight of the walk on glass. Usually, walk-on glass is created using three panes of glass: a toughened outer pane with a laminated interlayer. The thickness of the glass is dependent on the location and expected usage/ footfall.
Anti-slip finishes can be applied to walk on glass to reduce the risk caused by wet and slippery glass surfaces caused by rain and melting snow.
One method to create an anti-slip surface is to sandblast the surface of the outer pane which not only adds slip resistance but also adds privacy to the space below and diffuses harsh light. Sandblasting is the ideal solution if privacy and light obscurity is desired, but if a clearer finish is better for the architectural design then there is the option of a ceramic frit. The frit is screen printed in your choice of pattern onto the surface of the glass and fired to permanently affix the frit in place, resulting in an anti-slip walk on rooflight.
When specifying roof glazing you should not just consider the likely scenarios, but the unforeseen, emergency ones too.
If you are specifying an opening rooflight (such as the sliding MARS rooflight or the auto venting ARES rooflight) then you must also consider safety.
The glass specification of these two opening rooflights follows the same safety requirements as fixed structural glazing (using TXD-LAM glass internally and TXD to the external). This protects internal spaces from falling glass in the event of a glass failure. The glass in these two opening rooflight systems is also structurally bonded into the opening frame. This adds another layer of safety and security to your opening roof glazing.
This roof glass specification is also suitable for maintenance loading (so that the opening rooflight can be walked one for access or maintenance). However, project-specific safety concerns must also be considered. If you have an opening rooflight in an area that is frequently walked on (such as a roof terrace) then the opening must be protected with glass balustrades to ensure safety from falling when the rooflight is open.
Contact the team at IQ for in depth information about your roof glazing specification. Our team are ready to answer your questions and provide technical advice. Visit our Contact Us page for all the ways you can get in touch.
Here are some other pages you may find interesting:
Water Drainage for Structural Glass Roofs
Roof Glazing Thermal Performance
MARS Sliding Rooflight: Common Questions Answered
Structural Glass Roof Light Designs