Tamaris Roofing specialise in providing cutting-edge cold applied liquid roofing systems designed to meet the highest standards of durability, safety, and performance.
We are certified installers of Axter Starcoat PMMA systems, which are entirely flame-free and provide a highly durable, safe waterproofing solution for roofs, terraces, balconies, walkways, and car parks. Additionally, these systems offer a practical option for decorative finishes and intricate detailing.
Axter Starcoat cold applied liquid waterproofing systems are designed to provide a fast-curing, flexible, and elastomeric waterproof membrane that adapts to any roof shape and intricate details. Starcoat liquid membranes are fully bonded to the substrate without the need for mechanical restraints, welding, or torching, making them extremely safe, especially on projects where naked flames are prohibited. Once cured, Starcoat liquid membranes achieve a seamless finish with no joints or breaks.
Starcoat liquid waterproofing is a lightweight solution with excellent elasticity, allowing it to absorb structural movements and accommodate shrinkage or expansion due to temperature changes. The ease and speed of application make Starcoat liquid waterproofing ideal for complex roofing projects.
© Copyright Tamaris Roofing Ltd – 2024
© Copyright Tamaris Roofing Ltd – 2024
Self-Adhesive Roofing Felt requires no flames during installation, enhancing safety and simplifying the application process. It is manufactured from a polyester base with an SBS (Styrene Butadiene Styrene) bitumen coating.
The release film protects the underside of the sheet and can be easily removed during installation, in compliance with BS 8217: 2005, ‘Code of Practice for Reinforced Bitumen Membranes for Roofing.
The self-adhesive properties eliminate the need for gas torches, hot works, hot bitumen, and other messy sealants, making installations simpler and less time-consuming.
Single layer or multi-layer systems are ideal for roofing applications such as porches, garages, extensions, and dormer windows. They are also suitable for larger-scale projects due to their easy, no-fire installation.
Whether roller-applied, poured, or sprayed, the adhesives used to create warm roof insulated systems are flexible and feature high bond strengths. As a responsible and diligent roofing company, Tamaris Roofing is committed to ensuring the safest possible installation methods for our employees, clients, and the industry.
When a fully built-up system is utilised, primers, activators, torch-free membranes, and insulation adhesives can all be employed. Primers must be suitable for application in any season to ensure an adequate bond that resists wind uplift, with activators available to strengthen this bond.
Advanced self-adhesive technology is used in bitumen membranes for bonding to the substrate. The factory-applied adhesive is protected by a thin release film to prevent sticking inside the roll. During application, the installer uses the peel-back release film to unroll the membrane onto the surface.
The laps are welded using heat, and a visible bitumen bead from the welded laps indicates a secure and robust installation.
The major harmful emissions from burning LPG are similar to those from other internal combustion engines: Carbon monoxide (CO) Hydrocarbons (HC) Nitrogen oxides (NOx). 1 kg of LPG produce 3 kg of CO 2 .
Learn more about the Hot Melt Code of Practice
The buildings and construction sector stands as the foremost contributor to greenhouse gas emissions, representing an overwhelming 37% of the total global emissions. Given its significant contribution to climate change, addressing emissions within our projects is paramount to achieving sustainability goals and mitigating the impacts of global warming.
The built environment, with the construction sector playing a pivotal role, presently accounts for approximately 40% of the UK’s carbon emissions. Moreover, estimates suggest that the construction sector contributes up to 11% of global carbon emissions. This underscores the significant impact of construction activities on carbon footprints, highlighting the urgent need for sustainable practices and innovations within the industry to mitigate climate change.
Lifetime emissions from the site should be net zero. Although these sites are generally considered to have a positive impact on emissions reduction because of the production of renewable electricity, there is still the need to ensure that lifetime emissions from the construction, operation and decommissioning of sites are minimised, by for example electrifying the construction and maintenance fleet or by offsetting embedded emissions from the production and construction of the site.
All ancillary buildings onsite should also aim to be net zero. Low carbon construction materials and practices should also minimise the carbon footprint of the development e.g. by local procurement and minimising transport of materials; also supporting the local economy and green growth and seeking to maximise social value benefits throughout the project lifetime in procurement, construction and operation processes. Solar developments should also contribute to the greening of the local economy through increasing green jobs, and green sector skills through upskilling their workforce for example, as these skills will be transferable for both large- and small-scale solar installations. This will also support the Essex Climate Action Commission recommendation to “make Essex a centre of innovation for emerging renewable technologies (e.g. small scale nuclear, & manufacturing of renewables products such as solar tiles)”.
For the full article visit The Essex Design Guide. Also visit Essex Climate Commission to learn more.
