It is 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....
Expansion or modification of electrical cabling is rarely considered yet occurs during the lifetime of most buildings. Expansion of in-wall cabling requires additional work, trades, and possibly electrical service interruption, but cable tray facilitates removal and addition of cabling. This course reviews two types of cable tray—ladder tray and wire mesh tray—their components, characteristics, and applications and code-related installation information....
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This course is part of one or more "Course Collections". Click here to view the details.
With the coming of the 2009 and 2012 International Energy Conservation Codes (IECC), insulating sheathing has played a growing role in the drive to make homes more energy efficient and comfortable for their occupants. The pressure is on for builders, home designers, and architects to find cost-effective construction methods and materials to meet these ever-growing performance standards. Educating one’s self and remaining current on building science trends, technologies and materials has proven to be a powerful measure of success in today’s residential construction markets. The following presentation “Why Use Insulating Sheathing”, aims to educate attendees on the flexibility of using foam sheathing in various Type V construction assemblies in order to meet stricter energy code minimums. Additional learning takeaways from this presentation include investigating common faults in Type V wood-framed walls from a framing, moisture, thermal bridging, and air sealing perspective; and how insulating sheathing can help correct these faults. Attendees will walk away with a thorough understanding of the advantages of using insulating sheathing in residential walls and be able to effectively communicate these advantages to their customers. Additionally, attendees will also leave with a solid understanding of the basic science behind any insulating material and how to better utilize these materials in various environments....
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This course explores design choices to meet energy code and thermal insulation selection strategies to maximize long term building performance. Factors influencing the performance of an insulation in its application include production, R-values, moisture, temperature, aging, and quality of installation will be discussed....
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Understanding building physics is critical to proper building envelope design. Examined here are practical concepts for the building designer, including how cladding systems perform across different climate zones and applications. Environmental control layers and hygrothermal loads are reviewed, as is the concept of perfect/universal wall design. The course focuses on how single-component insulated metal panels (IMPs) function as a perfect/universal wall, simplifying wall system design and installation....
This course explores the below-grade use of polyisocyanurate (POLYISO) insulation to meet energy code and maximize thermal performance of the building foundation. Let us help dispel the myths that have been created relative to POLYISO insulation while discussing its thermal performance, water absorption, and load capacity – the three primary characteristics for below grade insulation. In addition, we will discuss how the insulation can provide protection for the foundation waterproofing system....
View the Rmax - A Division of the Sika Corporation Course Library
The building envelope must withstand the effects of long-term exposure to the elements. This course explores rainscreen wall design and the control of hygrothermal loads. The traditional multicomponent backup wall assembly is compared with the single-component, insulated metal composite backup wall system, outlining key differences in design and construction and their overall effect on installation and performance....
Continuous insulation is part of building standards and state and energy codes due to its ability to reduce thermal bridging and the associated heat loss and energy consumption. This course looks at the use of polyisocyanurate as a continuous insulation in Type V and residential construction and its use as a multifunctional envelope component—air barrier, weather-resistive barrier, and vapor retarder—by reviewing code requirements for the building envelope....
View the PIMA - Polyisocyanurate Insulation Manufacturers Association Course Library
PIMA - Polyisocyanurate Insulation Manufacturers Association
The planet is currently in a water scarcity crisis which is significantly affected by toilet water usage. This course examines the current plumbing codes, standards, and regulations that address toilet water usage, the need for, and benefits of, going beyond current standards as well as the goals of a variety of beyond the code voluntary standards and rating systems. It explains the various types of low and ultra-low flow toilets, their pros and cons, and their selection criteria. It concludes with a sampling of successful cost and water-saving installations....
This seminar will help you understand the impact of air leakage on building enclosure performance, current codes and standards for air leakage control with continuous air barriers and recent advances in implementing airtight buildings in practice. Air leakage can impact building energy performance, envelope durability and occupant's comfort. Air leakage control is generally addressed by energy codes. The US energy codes have only recently recognized the importance of air leakage. For example ASHRAE 90.1, IECC, ASHRAE 189.1, and IgCC have only recently introduced quantitative requirements for air barrier materials, assemblies or whole building airtightness. The US Army Corps of Engineers (USACE) recently introduced an air barrier program for building enclosure airtightness, which requires blower door test for whole building airtightness. This seminar will provide examples of successful implementation of USACE program....
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Knowing your building’s ideal water pressure and how to achieve that pressure is essential to your overall plumbing effectiveness and safety, patrons’ health and safety, and your water conservation efforts. Determining ideal water pressure is not straightforward and many factors should be considered including building use, physical characteristics, codes, and plumbing components. Many of today’s innovative plumbing products can contribute to water conservation and cost savings but it’s also essential that specific water pressure levels are provided for optimal operation....
Understanding building physics is critical to proper building envelope design. Examined here are practical concepts for the building designer, including how cladding systems perform across different climate zones and applications. Environmental control layers and hygrothermal loads are reviewed, as is the concept of perfect/universal wall design. The course focuses on how single-component insulated metal panels (IMPs) function as a perfect/universal wall, simplifying wall system design and installation....
As part of a well-designed rainscreen system, single-skin metal panels offer unique aesthetic options combined with the assurance that the building envelope will withstand the effects of long-term exposure to the elements. This course compares common cladding types; presents single-skin metal panel materials, coatings, finishes, and design options; and examines using single-skin metal panels with a single-component barrier wall to form a complete rainscreen assembly. This course is one of two identical courses titled Single-Skin Metal Panel Building Envelope Solutions . You will receive credit for taking only one of these courses. ...
As energy codes continue to push building envelopes to higher R-value performance, architects and designers are challenged with also managing the moisture flow within the envelope to minimize the risk of condensation and the potential for mold and corrosion. Advanced testing and analysis demonstrate how specifiers can utilize mineral wool as an exterior continuous insulation, and significantly reduce the risk of condensation and subsequent mold/corrosion damage in all climate zones....
This presentation provides a comprehensive examination of the risks inherent in mid-rise construction and their direct impact on long-term building performance, safety, and occupant welfare. Participants will explore the shortcomings in current building codes that may allow for vulnerabilities and damages in these structures. The session will also address how natural movements within wood frame assemblies can compromise the integrity of the building envelope, creating pathways for moisture intrusion, structural stress, and premature material failure. In addition, the course will highlight the challenges of material compatibility at critical construction junctures—including parapets, balconies, roof-to-wall intersections, and transitions between dissimilar claddings—where failures frequently occur. Finally, attendees will gain insight into the external industry pressures, such as reduced budgets, accelerated schedules, and shifting market trends, that often undermine construction quality and limit the implementation of best practices. Through this exploration, architects, engineers, and construction professionals will gain strategies to recognize risk factors, improve design and detailing, and safeguard the health, safety, and welfare of building occupants."...
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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....
Acoustical doors are vital in managing sound transmission in various architectural and industrial settings. This course discusses evaluating, specifying, and integrating acoustical doors into projects that demand effective noise control, speech privacy, and occupant comfort. It also examines how acoustical doors may help meet credit requirements in the LEED® v5 Building Design and Construction rating system and the WELL Building Standard™ version 2. Compliance with fire safety codes and SCIF specifications is also discussed....
Bathing facility code compliance does not have to result in an institutional look. Assisted living and healthcare facilities, hospitality installations, universities, multifamily buildings, and large commercial projects all have unique demands, and most require barrier-free, ADA, UFAS, ANSI, California Title 24, or Massachusetts compliant bathing and showering facilities. This course provides an overview of intelligent design solutions that simultaneously address these code requirements and the aesthetic and functional demands of each situation....
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This course is part of one or more "Course Collections". Click here to view the details.
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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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....
The trend toward greater resilience in roof design has come into sharp focus in recent years. The forces driving this trend include the decline in skilled labor among roofing contractors and allied trades; changes in the building code that have been influenced by severe weather patterns; and the increasing application of sustainable and “green" technologies. The urgency of this trend has challenged both design and construction professionals to find both human and technological solutions in a dynamic work environment. This presentation will explore how the trend toward greater roof resilience has affected the application and performance of roofing systems over time. It will also discuss ways to meet the changing demands....
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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This presentation focuses on wind design requirements for commercial low-slope roofing. The presentation covers building code history, ASCE 7, future tornado wind design requirements and agency approvals for wind uplift resistance for low-slope roofing....
The spread of smoke in mid- and high-rise building fires is recognized as a major threat to the safety of the building occupants and responding fire personnel and the effectiveness of firefighting operations. This course explains how smoke migrates in a multistory building fire and discusses how building codes have evolved to address this danger and why they mandate smoke containment in specific areas of a structure. Product applications and assemblies designed to meet building code requirements and limit vertical smoke migration via elevator hoistways and lobbies are examined....
NFPA 285 is defined as: the Standard Fire Test Method for Evaluation of Fire Propagation Characteristics of Exterior Non-Load-Bearing Wall Assemblies Containing Combustible Components. NFPA 285 assembly tests are required when exterior non-combustible walls contain combustible components per the International Building Code (IBC). The scope of materials classified by the IBC requiring NFPA 285 testing is increasing. Combined with more stringent energy code requirements, the use of combustible materials is also growing in exterior walls. The most common contributing factors to non-compliance of designs requiring NFPA 285 assembly testing include: −Lack of understanding of applicability of test on exterior wall assemblies. −Recent building and energy code changes causing new triggers for the test. −Lack of understanding of assembly vs. product results for NFPA 285 tests. This seminar will discuss the impact of the NFPA 285 Test on buildings using IBC-2018, the parameters and history of NFPA 285, which building envelope components are combustible and require NFPA 285 testing per IBC, and the paths to NFPA 285 code compliance that a designer can take. These elements all combine to integrate NFPA 285 compliant assemblies into building envelope systems....
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