Commercial building interiors see all kinds of wear and tear on a daily basis. Various forms of wall protection can combat this wear and tear to help extend the longevity of a space, maintain a clean look, and cut down on maintenance costs. This course discusses the different wall protection products available, how to identify which wall protection products fit certain applications, and which building codes apply to these products....
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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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This course is part of one or more "Course Collections". Click here to view the details.
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....
ICF construction is cost effective and sustainable, and is a superior way to build stronger, quieter, healthier, and more energy-efficient commercial structures. This course explores insulated concrete form (ICF) construction, describing the forms themselves and their construction, performance, and sustainable benefits. Also presented are design guidelines, the installation process, flooring systems, and commercial project applications....
Polyisocyanurate (polyiso) insulation is one of North America’s most widely used, readily available, and cost-effective insulation products. While polyiso is currently most commonly known for its use on roofs and walls, this course focuses on the many benefits of using it in below-grade installations in order to meet energy codes, maximize the building foundation’s thermal performance, and extend the overall life of the structure. The course explores the requirements for three primary characteristics of any below-grade insulation—thermal performance, water absorption, and load capacity—and describes how polyiso meets or exceeds those requirements and protects the foundation waterproofing system....
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In the wake of the green movement, combined with rising energy costs, building sustainability has become an important topic. This course examines how foil-faced polyisocyanurate (polyiso) continuous insulation can function as a multiple control layer, providing a building with an air and water-resistive barrier and a thermal control layer. Additionally, this course reviews building codes and standards for meeting the continuous insulation requirements in steel stud building envelope designs, the benefits of using polyiso insulation in wall assemblies, and how polyiso insulation meets NFPA 285 requirements....
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Uncorrected thermal bridging can account for 20–70% of heat flow through a building's envelope. Improving details to mitigate both point and linear thermal bridges will significantly improve energy performance. This course reviews types of thermal bridges, examines how they appear in codes and standards, and explores some mitigation concepts and principles. Calculation methods to account for thermal bridging in your projects are introduced, and a sample design project is used to demonstrate code compliance....
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ICF construction is cost effective and sustainable, and is a superior way to build stronger, quieter, healthier, and more energy-efficient commercial structures. This course explores insulated concrete form (ICF) construction, describing the forms themselves and their construction, performance, and sustainable benefits. Also presented are design guidelines, the installation process, flooring systems, and commercial project applications....
This course covers how to comply with the most stringent Energy Code requirements using pre-fabricated wall panels and components featuring next generation concrete masonry unit designs....
Wind forces always influence building design and detailing. This course focuses on one particular force, wind uplift, and its influence on roof paving system design and selection. It examines how wind loads and building configuration affect the design of roof paving systems; the codes, regulations, and calculation approaches that inform and control such designs; and the various options designers can use to design safe, appealing outdoor roof paving systems that will withstand even the strongest winds....
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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This course reviews the importance of weather-resistive barriers (WRBs): why they are critical and the technology considerations specifiers should use when evaluating WRB’s performance. It will also outline several of the most important building code and industry requirements related to air barriers and what they mean....
Protected Roof Membrane Assemblies (PRMA) have unique design requirements since they are loosely laid, held in place with stone ballast, pavers, or vegetative materials. The International Building Code contains prescriptive requirements to guide design and specification of such systems. The standards reviewed in this program provide methods to design wind uplift resistance of ballasted and vegetated roofing systems. The standards are intended to be used as references for designing, specifying, and installing ballasted roofing systems, and are to be used in conjunction with the installation specifications and requirements from the manufacturers of the specific products in the system. For roofs that exceed the boundaries of these standards (meaning designs that are not covered in this document) the authority having jurisdiction is the only source for approval. ASCE 7 gives guidance on how non-standard conditions should be evaluated. See other references, or, utilize professional wind engineering consultants, or, conduct wind tunnel studies in accordance with ASCE 7 for information to determine requirements for designs or systems not covered....
Maximizing Envelope Performance with IMP-Integrated Components explores an advanced insulated metal composite panel building envelope system, components that have been engineered to integrate with the system - including windows, daylighting panels, sunshades, and louvers - and how the IMP system and integrated components combine to create a high-performance building envelope....
According to the IBC, “…Construction documents shall be of sufficient clarity to indicate the location, nature and extent of the work proposed and show in detail that it will conform to the provisions of this code…as determined by the building official.” Failure to properly to do so can jeopardize life safety and property and result in serious liability. This course is intended to provide architects and specifiers of firestop products and systems with the information and resources they need to meet the intent of the code. Being aware of the requirements for proper firestop specifications and drawings during the design phase cannot be overstated. Fully understanding the unique challenges of proper specification are critical to avoid costly changes, delays, and liability downstream....
Wind forces always influence building design and detailing. This course focuses on one particular force, wind uplift, and its influence on roof paving system design and selection. It examines how wind loads and building configuration affect the design of roof paving systems; the codes, regulations, and calculation approaches that inform and control such designs; and the various options designers can use to design safe, appealing outdoor roof paving systems that will withstand even the strongest winds....
Recent changes in North America energy codes for the building envelope include higher insulation R-values, continuous insulation, and continuous air barriers for air leakage control. New, code compliant wall assembly design options may be susceptible to increased moisture sensitivity due to lower drying rates, which are inherent to energy efficient assemblies but could be further impacted by design detailing and materials choices. Improved energy efficiency does not need to come at the expense of the long term performance and durability of buildings. This seminar will address design options and materials choices for energy efficient and durable wall design. Design tools for advanced moisture analysis (WUFI®, Wärme und Feuchte Instationär, or Transient Heat and Moisture Analysis) will be used to show how to predict performance of untested new assemblies, how materials substitution could impact the overall performance of the building envelope, and how design detailing could increase moisture management capabilities....
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This course provides an introduction to code compliance requirements for low-slope roofing systems as it relates to Wind Uplift, Impact Resistance, and Fire Resistance. Participants will explore the relevant provisions of the 2021 International Building Code (IBC), with emphasis on the referenced standards outlined in Chapters 15 and 16. Participants will review real-world documentation used to demonstrate compliance, enhancing their ability to specify and design roofing systems that meet regulatory standards....
Ensuring compliance with increasingly stringent energy codes is a leading architectural challenge. This course explores the latest edition of the International Energy Conservation Code (IECC) with a focus on the building envelope and how to achieve – and exceed – energy performance requirements when building with masonry....
This course is aimed to define what exactly continuous insulation is, and the key benefits of using it. The course will also show participants how continuous insulation complies with building and energy code requirements within that field....
Stairs are an essential component of a movement and wayfinding strategy in a structure and a primary means of egress, exit, and floor-to-floor access in the event of a fire or emergency for buildings with multiple floors or a change in rise. This course discusses stair and egress system design and evaluates why the design and fabrication of pre-engineered steel stairs create safe stair environments that comply with building codes....
How to Achieve Superior Building Envelope Performance in Rainscreen Wall Design explores rainscreen wall design theory, how rainscreen walls control hygrothermal loads, and shortcomings of today’s multi-component backup wall assemblies used in rainscreen wall construction. The course will compare and contrast the common multi-component backup wall assembly with the single-component insulated metal composite backup wall system, and demonstrate how the latter overcomes deficiencies of the former in creating a building envelope with superior performance as well as other key benefits....
Locating mechanical and electrical equipment on a roof is often necessary for space and efficiency in a building design. However, it can be challenging to provide a means for safe maintenance access while preserving the roof membrane and structural integrity and not interfering with other rooftop equipment. This course presents the components that comprise rooftop support systems designed to solve these challenges, as well as system design considerations and compliance with the International Building Code® (IBC®) and the International Mechanical Code® (IMC®)....
Architectural insulated metal panels (IMPs) are an increasingly popular choice for building developers and architects, presenting a compelling solution that combines functionality, efficiency, and aesthetic appeal. This course reviews the architectural IMP, its applications and benefits, and comparisons to other materials. It explores current trends and developments that are paving the way for increased aesthetic possibilities and building envelope performance....
Birds provide billions to our economy, yet bird populations are crashing, with collisions with glass a primary cause. Whether looking through glass at habitat beyond, or flying towards reflected habitat, birds collide at flight speed with fatal results, often days later, from internal injuries. Birds collide with glass on structures of every size, from shacks to skyscrapers, in urban, suburban and rural areas. Advances in technology are increasing use of glass curtain walls and other large glass features, increasing the rate of mortality. We will describe materials that can make buildings safe for birds without sacrificing light, appearance or view clarity. In 2011, San Francisco was the first U.S. city to require bird-friendly design for some new construction. The LEED Pilot Library added a credit for reducing bird collisions the same year and that has since been added to the primary credit system. Over 20 jurisdictions at levels from state to town, have now mandated bird-friendly construction and more are pending. Notably New York City, in 2019, adopted code requiring bird-friendly design for all new construction. We review use of the LEED credit and important features of legislation across the U.S. and Canada. This class explains how to recognize and remediate hazards to birds in the built environment. We illustrate how many strategies for controlling heat and light, and even security, can also reduce bird mortality. Techniques now in use for evaluating the relative threat level to birds of different materials are described, along with typical results. Resources, like American Bird Conservancy’s searchable database of bird-friendly materials are reviewed....
