Single-Skin Metal Panel Building Envelope Solutions ( ~ 1 hour, 15 minutes ) 

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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.

Laminated Rigid PVC Exterior and Interior Panel Systems for Sustainable Design ( ~ 1 hour ) 

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Vinyl has long been a material of choice for construction products for interiors and exteriors because of its durability, cleanability, affordability, and suitability for a vast range of applications. This course furthers the conversation by discussing vinyl’s recyclability and sustainability and the attributes of laminated rigid PVC exterior and interior wall panels and siding and soffit products.

Spray Foam 101: Taking Construction to the Next Level ( ~ 1 hour ) 

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This introductory course on spray polyurethane foam (SPF) covers component chemistry, different types of SPF, and the proper use of SPF in construction applications. In addition, the course addresses code compliance related to SPF for residential and commercial construction, as well as safe SPF installation practices. Participants will come away with a strong knowledge of how the proper use and application of spray foam can improve the indoor environment and the durability of the built environment.

Daylight and Window Management with Automated Controls ( ~ 1 hour ) 

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Automated-shading systems are designed to maximize natural daylight, increase building energy efficiency, and ensure occupants have a comfortable environment with views to the outside. This course will explain how an automated shading system predicts, monitors, and responds to the daily microclimate surrounding a building to effectively manage daylight, solar-heat gain, occupant comfort levels, and energy use demands.

Commercial Design and Construction with Insulated Concrete Form (ICF) ( ~ 1 hour, 15 minutes ) 

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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.

Successful, Sustainable Precast Enclosure Projects: Designs for Education, Healthcare, Offices, and More ( ~ 1 hour ) 

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High-performance, fully composite insulated wall panels deliver all the benefits of factory precasting with load-bearing and energy efficiency performance from the lightest, thinnest panels possible. This course describes the makeup and cost efficiencies of composite precast panels, their benefits when made with carbon fiber grid shear trusses, and considerations for selecting among the insulation options. The majority of the course focuses on case studies of successful precast enclosure projects in a wide variety of building types across a range of markets.

Mineral Wool IMPs: Sustainable, Fire–Resistant Construction ( ~ 1 hour ) 

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A sound building envelope should be sustainable and provide fire resistance, good thermal performance, and protection from the elements. Mineral wool, fire rated insulated metal panels (IMPs) can improve building performance and contribute to a sustainable design strategy. Included in this course are discussions on mineral wool IMP characteristics and design options, performance advantages, and installation considerations. The course details how fire resistance is specified in the International Building Code and provides examples of fire wall and fire partition construction assemblies.

Threat Mitigation: Protecting People and Property ( ~ 1 hour ) 

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In today’s rapidly evolving world, safety is a critical factor in architectural design. This course examines how fenestration systems enhance building protection through bullet resistance, fortified glazing, and advanced barrier solutions. Learn how potential threats influence the selection of these systems and how they integrate seamlessly into architectural projects.

Data Centers: Why, Where, and Addressing Noise ( ~ 1 hour ) 

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This course focuses on the rapidly growing data center industry and how critical it is to control noise for facility employees and residents living in neighboring areas and to follow city ordinances. The noise issues data centers pose for their workers and their external surroundings are examined, and practical solutions are reviewed.

Sustainable Design With Recycled Rubber Surfaces ( ~ 1 hour ) 

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Recycled rubber flooring is an environmentally responsible material that outlasts many types of traditional commercial flooring products when exposed to normal foot traffic stress. Interior and exterior recycled rubber surfacing products are explored in terms of their sustainable design benefits and applications. The program includes discussions on rubber manufacturing, postconsumer tires, and green building certification systems.

Specifying Glazing Systems for Performance & Sustainability ( ~ 1 hour ) 

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Architectural glazing systems are vital to building performance, influencing energy efficiency, structural integrity, and aesthetics. This course compares storefront and curtain wall systems, explores performance optimization strategies, and examines their contribution to sustainability. Participants will gain the technical knowledge needed to develop effective product specifications.

Metal Roof & Wall Systems: Specifying for Aesthetics, Durability, and Energy Efficiency ( ~ 1 hour ) 

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Standing seam metal roofing has been used successfully in the United States for centuries, and proper specification is key to realizing its intended performance. Examined here are: the factors driving the demand for standing seam metal roof and wall systems; standing seam panel basics; gauge and grade; oil canning; specification considerations; testing standards; and forming, delivery, storage, handling and warranty.

Metal Roofing Color Considerations to Save Energy & Meet Green Building Requirements ( ~ 1 hour ) 

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Metal roofing offers longevity, durability, and visual appeal. Today, a range of color and finish options are available that afford specifiers broad design flexibility. This course explores key solar reflectance and sustainability considerations when evaluating metal roofing colors and how selection relates to requirements in codes and green building programs such as LEED® v4.1 Building Design and Construction, Sustainable SITES Initiative® v2, and the WELL Building Standard™ version 2. Case studies demonstrate how metal roofing colors have been used to meet design and sustainability objectives.

IMPs, EPDs, and HPDs: Sustainable Performance ( ~ 1 hour ) 

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The use of sustainable materials and products during building design will become the standard within the construction industry, and environmental product declarations (EPDs) and Health Product Declarations (HPDs) help architects and owners make informed decisions for their projects. Insulated metal panels— a prime example of a sustainable product—are one of the most cost-effective solutions to reduce energy and greenhouse gases.

Biomimicry: Design by Nature ( ~ 1 hour ) 

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Animals, plants, and microbes are engineers of what works and lasts on earth. Biomimicry is a practice in which nature’s designs, patterns, and strategies are examined to find sustainable solutions to our technical and design problems. This course discusses how applying the concepts of biomimicry can better connect our designs and buildings with nature and examines the relationship between nature’s solutions to light, heat, glare control, and shading design principles.

The Advantages of Polyiso Insulation in Below-Grade Installations ( ~ 1 hour ) 

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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.

Thermal Breaks in Cladding Support Attachment Assemblies (Recorded Webinar) ( ~ 1 hour ) 

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Net zero energy ready buildings are a popular topic in today's world of climate change. This course explores how energy efficiency has expanded toward exterior wall assemblies, where thermal bridging and thermally broken subframing systems are becoming the new norm.

Designing Buildings for Heat Resilience & Energy Efficiency ( ~ 1 hour ) 

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Urban warming negatively impacts human health and quality of life, energy use, air quality, social equity, and economic prosperity. This course describes how solar reflective cool roof and wall materials help protect individuals and communities from the impacts of extreme heat and discusses the factors that influence energy savings and performance. The course also notes various climate resilience initiatives, green building programs, and energy codes that require or promote the use of cool roofs or walls and concludes by explaining the important role of third-party product ratings and the educational resources available online.

Protective Treatments for Masonry and Concrete ( ~ 1 hour ) 

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As some of the earliest building materials, masonry and concrete have been used for their durability and strength. However, masonry architecture, both historical and contemporary, has been left vulnerable to water—the single most damaging element to masonry in our environment. This course identifies common water-related problems for masonry and concrete, describes protective treatments that increase masonry durability, and explains the process for safely selecting and applying a protective treatment.

Thermal Spacers for Code Compliance and Improved Energy Efficiency in Metal Buildings ( ~ 1 hour, 30 minutes ) 

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The key to an energy-efficient metal building is the implementation of a continuous insulation system that virtually eliminates thermal bridging and prevents condensation. This course discusses how using thermal spacer blocks and metal building insulation in the building envelope increases energy performance, protects against condensation, and meets stringent energy code requirements.

From the Ground Up: A Guide to Foundation Waterproofing ( ~ 1 hour ) 

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Asphaltic-rubber membranes play a crucial role in the successful implementation of below-grade foundation waterproofing by forming a monolithic, flexible layer that protects the foundation and supports its long-term structural integrity. Presented is an overview of dampproofing and waterproofing, preparation requirements for foundation design, hydrostatic pressure, and positive- and negative-side waterproofing. Also discussed are the design of below-grade, vertical foundation waterproofing applications and guidelines for proper specifications. The course compares waterproofing membrane technologies and addresses insulation, drainage, and backfill requirements.

The Solar-Ready Roof: Optimize the Design ( ~ 1 hour ) 

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With the demand for sustainable power on the rise, building owners and homeowners alike are turning to solar power as a supplemental power generator. Choosing the right platform for the solar panels is a critical step in the design process and can have a significant impact on both initial and long-term costs. This course discusses the basics of photovoltaic systems, including the components and rooftop applications. Comparisons between traditional roofing and standing seam metal roofing platforms are examined, and the benefits of a nonpenetrating clamping system are discussed.

The History & Benefits of Thermoplastic Single-Ply Roofing Systems ( ~ 1 hour ) 

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Thermoplastic single-ply roofing systems have over a half century of proven performance. This course outlines their history and the various types of membranes that have been developed and identifies the individual attributes and benefits of each type. This highly illustrated course also discusses the cooling benefits of white and green roofs, the numerous single-ply attachment and warranty options, and descriptions of sample installations.

Considerations for Advanced Green Facade Design ( ~ 1 hour ) 

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Green facades can contribute to building energy efficiency, durability, aesthetic value, sustainability, and cost effectiveness in the performance of ecological system services. This course examines the considerations required for successful green facade installations and includes discussions on system selection, design, plant selection, maintenance, and client/owner education.

Selecting and Specifying Architectural Louvers ( ~ 1 hour ) 

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Louvers are functional elements that permit airflow and protect against water intrusion. Selecting the right louver for a project requires balancing multiple factors. This course provides an overview of the various types of louvers and their performance characteristics, the AMCA’s role in ensuring reliable, high-performing products, and relevant standards and testing protocols. Finish options, as well as installation, design, and structural considerations, are addressed. Guidance is provided on selecting and specifying appropriate louvers to meet project needs.