Displaying 1 - 19 of 19 results.
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https://redirect.aecdaily.com/s379494/www.aecdaily.com/course/391748
Single-family attached residences (residences that share one or more walls between neighbors) are required to utilize area separation walls between units. A key design criterion of any firewall—besides its fire rating—is that it be structurally independent in a fire. This course evaluates two-hour fire-resistance-rated walls used in single-family attached and multifamily residential construction, the options available in today’s marketplace, firewall installation requirements, and fire-resistance testing.
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https://redirect.aecdaily.com/s1108429/www.aecdaily.com/course/1133994
Fire control for high-rise building facades requires active and passive systems to work in tandem. This course explains how passive fire protection systems for building envelopes should be used to create fire containment compartments to control fire spread; also addressed are the codes, standards, testing, and compliance routes that apply to verify material and system performance. The course provides detailed illustrations of how the materials must be designed and installed to create effective fire containment compartments and explains how they relate to active fire prevention systems.
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https://redirect.aecdaily.com/s2955/www.aecdaily.com/course/808876
Explosion relief systems reduce damage and loss when an explosion occurs within facilities where potentially dangerous material is being handled or produced. These systems function by immediately reducing pressure during an explosion and are imperative to protecting a company’s assets and employees. Explosion relief systems are also referred to as explosion relief panels, pressure relief panels, or explosion relief vents. This course discusses pressure relief in low-strength enclosures, industries requiring pressure relief venting, and the function, design, and installation of these systems.
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https://redirect.aecdaily.com/s1081629/www.aecdaily.com/course/1106239
Wildfires are becoming more common and severe, posing a significant threat to communities worldwide. Architects and the building industry must adopt a proactive approach to address this issue. In this course, we explore innovative and eco-friendly wildfire defense systems, which can play a vital role in protecting our communities and the environment from the harmful effects of wildfires and addressing the current home insurance crisis.
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https://redirect.aecdaily.com/s403098/www.aecdaily.com/course/1123475
This course discusses the code requirements for thermal and ignition barriers for spray polyurethane foam, the testing required, code requirements for vapor retarders depending on climate zone, and how these coatings are installed.
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https://redirect.aecdaily.com/s13048/www.aecdaily.com/course/1127123
Urbanization and increasing land costs creating a tight housing market are driving densification and multifamily residential development. There is increased interest in midrise timber construction due to the 2021 International Building Code®, which permits mass timber buildings up to 18 stories high. This course discusses current IBC® requirements for the fire design of wood structural elements in Type III and Type IV buildings. Learners will review the use of continuous rod tiedown systems for light wood frame shearwalls and uplift restraint for wood structures up to 6 stories.
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https://redirect.aecdaily.com/s5023/www.aecdaily.com/course/1067507
This course explains the NFPA 285 test method, its origin, its procedures, when it is required, and design considerations necessary for compliance. Criteria in ASHRAE 90.1 for continuous insulation and air/water-resistive barriers are reviewed and identified as contributors to the rise of NFPA 285 requirements. The course also addresses code compliance in light of recent material changes, code changes, and additional testing.
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https://redirect.aecdaily.com/s1773/www.aecdaily.com/course/858685
The use of life safety dampers is driven by requirements in various building codes. There are many different applications for which fire, fire/smoke, smoke, and/or ceiling radiation dampers can be used, each having its own specific purpose and unique installation requirements. This course gives an in-depth look at the different types of dampers and explains how and where they're each used and installed.
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https://redirect.aecdaily.com/s5023/www.aecdaily.com/course/1119498
A growing number of high-rise fire incidents around the world have raised awareness about the fire safety performance of taller structures. Timing for containing a high-rise fire is critical, as high numbers of occupants have limited means of escape. Vertical fire spread along the exterior facade may quickly overwhelm firefighters at ground level, especially if it advances to heights beyond the reach of their ground attack. This course looks at issues surrounding high-rise fires, how they spread, and how following building codes and proper material testing can lessen the risk or impact of these blazes.
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https://redirect.aecdaily.com/s19863/www.aecdaily.com/course/1077571
Firestopping is the process of sealing openings around penetrants or in joints or gaps between fire-rated assemblies to restore hourly fire resistance ratings. It is a critical part of fire containment and a balanced fire and life safety plan. This course outlines resources and code requirements that architects and designers should be aware of while preparing specifications for firestop systems in their projects. The course also reviews common mistakes to avoid.
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https://redirect.aecdaily.com/s425610/www.aecdaily.com/course/901840
It’s imperative to have a dependable, well-designed fire protection system that helps save lives and property. This course is designed to advance awareness and understanding about the wide range of components, functionality, and benefits of today’s most innovative standpipe fire systems and how to select the optimal system for your design based on building type, codes, and other requirements.
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https://redirect.aecdaily.com/s7934/www.aecdaily.com/course/945391
Today's complex steel structures present numerous design challenges, including the challenge of fireproofing appropriately in order to ensure the safety and well-being of building occupants as well as protection of the structure itself. This course outlines the code and testing standards that inform fireproofing choices and the various passive fire protection products and methodologies that can address a comprehensive range of design challenges; insight into the proper specification of fire protection products as well as their ability to improve LEED® certification levels is also provided.
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https://redirect.aecdaily.com/s775747/www.aecdaily.com/course/815408
For some applications, building codes provide for the use of fire-retardant-treated (FR) wood products as an alternative to noncombustible materials. To ensure that FR wood products are properly specified, it is important to understand how these products are made, their formulations, and the building code references that guide their use in construction. This course offers a review of FR wood products, including their manufacture, the applications and types of fire retardants that are available, and the factors that must be considered to ensure FR wood products are properly specified for code compliance.
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https://redirect.aecdaily.com/s795432/www.aecdaily.com/course/1094359
Life-safety systems encompass both passive fire-protection features, like compartmentation and firestopping, and active ones, such as sprinklers and alarms. Portable fire extinguishers are an integral part of life-safety systems and must meet code-mandated number and placement requirements in most building types. This course looks at how fire extinguishers can be stored safely and securely in cabinets and addresses specification considerations. Also reviewed are the many options available to customize fire extinguisher cabinets so they are tailored to each project’s needs and design goals.
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https://redirect.aecdaily.com/s1152/www.aecdaily.com/course/886891
Specialty door and frame assemblies have been developed that are designed specifically for the built healthcare environment where performance criteria are critical. Reviewed in this course are specialty door and frame assemblies that meet the challenges of infection prevention, building cleanliness, patient privacy, and increased security, as well as containment of radio wave and radiation interference in hospitals and clinics.
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https://redirect.aecdaily.com/s9727/www.aecdaily.com/course/870419
The modern aesthetic of metal facades is in high demand for applications ranging from education, healthcare, and office to residential and multistory mixed use. Recent high-profile fires have reinforced the importance of choosing the right metal cladding system that meets thermal performance requirements while not compromising life safety. This course compares various core materials and focuses on what the code requires for metal cladding in terms of fire performance testing and results and includes case studies from fire events around the globe.
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https://redirect.aecdaily.com/s1059942/www.aecdaily.com/course/1073612
Firestopping is more than installing sealant in an opening. It is a critical component of a building’s overall life-safety system. This course discusses how a properly installed firestop system not only protects property but, more importantly, also saves lives by inhibiting the spread of fire from compartment to compartment and buying valuable time for occupants to exit the structure in the event of a catastrophic fire.
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https://redirect.aecdaily.com/s904648/www.aecdaily.com/course/1091537
Fire safety is an important building enclosure design factor and needs to be addressed hand-in-hand with energy code requirements. NFPA 285 is a critical consideration with modern building assemblies incorporating combustible materials in noncombustible construction. This presentation reviews the history and scope of the NFPA 285 test standard and its adoption into the International Building Code® (IBC®). The compliance criteria are outlined, and triggers and contributors under the standard are identified. The course also reviews how the selection of building components such as insulation, air-/water-resistive barriers, and claddings affects the fire performance of an assembly, and solutions and common paths for compliance are presented.
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https://redirect.aecdaily.com/s1039189/www.aecdaily.com/course/1089159
With limited exceptions, the International Building Code® (IBC®) requires testing and compliance with NFPA 285 for exterior wall assemblies of buildings of Types I, II, III, and IV construction containing foam plastic insulation. This course examines three methods for demonstrating that an exterior wall assembly design complies with NFPA 285, including engineering analysis. The course also discusses how and where to locate NFPA 285 information for each compliance method.
Displaying 1 - 19 of 19 results.