Timber Frame Fire Engineering
Timber Frames
Expertise in Fire and Structural Engineering
At Capall Mara Consulting Ltd, we are renowned as timber frame fire engineering specialists, blending fire and structural engineering to provide unparalleled services in timber frame construction. Our unique approach to fire safety in timber buildings is evident in our commitment to bespoke fire risk management, especially during the critical construction phase.
Timber Frame & Fire Engineering: An Essential Overview
Recognizing timber’s environmental benefits and adaptability, we focus on addressing fire safety, a crucial aspect often overlooked. As experts in fire standards for timber structures, our role extends beyond conventional practices, embracing extensive research, testing, and modelling to mitigate fire risks in timber construction.
Tailored Off-Site Fire Spread Risk Assessments (OSFRA)
As professional fire engineers for timber frame compliance, we conduct thorough OSFRA, creating customised protection strategies. This service is particularly beneficial for architects and developers looking for specialised timber frame fire safety engineering firms to ensure project-specific safety enhancements.
Collaborative and Efficient Approach
Our collaboration with fire risk assessment professionals in timber framing and other industry experts positions us as a leading fire engineering consultancy for timber frame projects. Our mobile, efficient structure ensures service accessibility throughout the UK, reflecting our commitment to affordability and quality.
Exceptional Track Record and Rapid Service
Our successful collaborations and rapid, reliable solutions stem from our proficiency in regulatory guidance, marking us as timber construction fire protection experts. We’re proud of our 100% success rate, a testament to our expertise and collaborative approach with various professionals.
Innovative and Adaptable Solutions
Understanding the nuances of risk, we employ a performance-based design philosophy. This approach, aligning with the needs of consultants in fire prevention for timber construction, focuses on meeting building codes’ functional requirements, offering flexible and cost-effective solutions.
Our Unique Methodology
Each site presents unique challenges, and our site-specific approach ensures comprehensive assessments and targeted protection strategies.
get In Touch Today!
Ready to ensure your project is safe, compliant, and innovative? Contact Capall Mara Consulting Ltd today for a consultation.
Detailed Project Overview:
We begin with a thorough description of the proposed construction site, covering any phasing aspects and identifying surrounding risks. This ensures a complete understanding of the project's context and potential challenges.
Surrounding Area Review:
An examination of the area surrounding the site is conducted, focusing on identifying any isolated escape routes and potential hazards in the vicinity. This step is crucial for comprehensive risk assessment.
This is the RT Radiant Heat Flux Tool Analysis:
Utilising the Fire-Q RT Radiant Heat Flux Tool, we conduct an in-depth assessment of the proposed site. This analysis focuses on the surrounding risk points and the effectiveness of any isolated escape routes, ensuring a meticulous evaluation of fire-related risks.
RT Radiant Heat Flux Tool Analysis:
Utilising the Fire-Q RT Radiant Heat Flux Tool, we conduct an in-depth assessment of the proposed site. This analysis focuses on the surrounding risk points and the effectiveness of any isolated escape routes, ensuring a meticulous evaluation of fire-related risks.
Customised Protection Strategy Development:
Based on our findings, we develop a site-specific protection strategy. This bespoke approach is tailored to address the unique characteristics and risks of your project site.
Residual Radiant Heat Risk Analysis:
We perform a detailed analysis of any residual radiant heat risks. This analysis is then integrated into the overall protection strategy, ensuring that all potential fire hazards are thoroughly addressed.