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.

Sustainability from the Top: Blue, White, & Green Roof Benefits ( ~ 1 hour ) 

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Assesses the urban environmental issues of stormwater runoff and heat islands and describes how their damaging impacts can be mitigated by blue, white, and green roofs. The considerations and additional benefits of each roof type are also discussed.

High-Performance Coatings and Exterior Restorations ( ~ 1 hour ) 

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High-performance coatings are a necessity when it comes to protecting building exteriors and restoring them after harsh weathering and UV degradation; the right coatings prolong a building exterior’s life span and divert materials from landfills. New PVDF coating systems provide superior protection while satisfying aesthetic and environmental considerations. Their various characteristics and benefits are explored, and application methods are discussed.

Combining Adhered and Anchored Brick Veneer ( ~ 1 hour, 15 minutes ) 

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Typically, all the brick selected for a given project will be either full bed depth (anchored) or thin brick (adhered); however, situations may benefit from combining the two types of masonry veneer on a project. The intent of this course is to differentiate between the types of brick masonry veneer, discuss the unique detailing required when combining veneer types, and provide project examples demonstrating where both types of masonry veneer have been successfully integrated. This course will focus on exterior applications of anchored and adhered masonry veneer.

Green Roofing 101 ( ~ 1 hour ) 

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Green or vegetative roofs have long been considered excellent for mitigating stormwater runoff and the heat island effect and reducing the energy load of building HVAC systems. However, their installations have also resulted in many additional benefits, such as increased tenant retention, improved human experience, and longer lifespan of the roof’s waterproofing membrane. This course provides an introduction to green roofs and describes the different types and components, including waterproofing membranes, drainage, and vegetation-free zones. It also examines how green roofs may help meet credit requirements in the LEED® v5 Building Design and Construction and SITES® v2 rating systems.

Insulated Concrete Forms ( ~ 1 hour ) 

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The construction of residential and commercial buildings that use less energy to operate and are long lived is a key part of sustainable design. Insulated concrete forms (ICFs) provide the necessary U-factor, airtightness, resiliency, and durability for all building types. Insulated concrete forms in residential and commercial construction projects offer excellent thermal performance and reduced energy consumption and operating costs, while maintaining a very comfortable and healthy interior environment. This course examines the ICF wall, including materials and components, and discusses design considerations and construction.

Upward-Acting Commercial Sectional Door Systems ( ~ 1 hour ) 

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Upward-acting commercial sectional door systems can be a major contributor to controlling energy costs in buildings. This course evaluates the materials and construction of various door types and discusses the selection criteria and operation features that are available to enhance door performance for a range of applications.

Enhancing Building Performance with Fiberglass Fenestration ( ~ 1 hour ) 

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In response to a stronger emphasis on natural resources, building efficiencies, and occupant welfare, manufacturers continue to improve design service offerings, product performance, and installation solutions. Fiberglass fenestration meets these demands for residential and commercial design in the built environment. This course explores the performance attributes of fiberglass fenestration, energy efficiency and structural benefits, testing and verification processes, and contributions to healthy building occupancy.

Designing with Architectural Decorative Glass ( ~ 1 hour ) 

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Due to advancements in architectural decorative glass technology, the number of design options available to help designers and architects achieve the specific aesthetics and performance requirements they desire has dramatically increased. This course provides a review of architectural decorative glass including product options, applications, features, and specification considerations. Also discussed is how decorative glass can contribute to sustainable design and LEED® initiatives.

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.

Standing Seam Metal Roofing: Prepainted Architectural and Structural Panel Systems ( ~ 1 hour, 15 minutes ) 

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A metal roof combines performance and aesthetics to give commercial and residential buildings strength, longevity, and character. This course examines the features and benefits of standing seam metal roofing and explains the factors to consider when selecting a project-specific metal roofing system.

Sustainable Building Envelope Performance with Self-Sealing Fasteners & Anchors ( ~ 1 hour ) 

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Sustainable building envelopes demand high performance from and proper installation of continuous insulation and air, water, and vapor control layers. What happens when thousands of holes are made in these materials as they are installed with blind fasteners, one layer on top of another by different subcontractors? Sequencing issues can generally not be avoided; instead, this course focuses on self-sealing fasteners as a solution to avoid damage and thermal bridging in insulation and control layers. Various fasteners and anchors are described, and recommendations are presented for how to specify and what testing data to look for.

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.

High-Performance Building Envelope Designs with Insulating Concrete Forms ( ~ 1 hour, 30 minutes ) 

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Insulating concrete form (ICF) products use a cost-effective and robust structural material option (reinforced concrete) to turn a building envelope into a high-performing thermal, moisture, and air enclosure with disaster resistance and built-in compliance with energy code requirements. As a result of ICF performance, building owners can complete a whole structure with ICFs and reinforced concrete, including intermediate suspended floors, rooftops, and multistory designs. This course examines the advancements in ICF technology and discusses the potential contribution of ICFs to supporting improved sustainability and resilience.

12 Ways to Recover an Existing Sloped Roof Using a Standing Seam Roof System ( ~ 1 hour ) 

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Metal roofing is often preferred for retrofitting a low-slope roof due to its durability, ease of installation, energy efficiency, and water channeling capabilities. This course examines why metal roofs fail, the types of structural standing seam panels, and the pros and cons of different methods for recovering an existing low-slope roof.

Advantages of Cold-Applied Roofing Systems ( ~ 1 hour ) 

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When the asphalt fumes, open flame, and kettles that accompany hot-applied roofing are not permissible, cold-applied roofing is an option. There are a variety of types of cold-applied roofing that offer easy portability of materials to the roof, smaller roofing crews, ease of application, and a low-VOC option. In this course, we focus on the adhesive application of modified bitumen membranes using bituminous cold-process adhesives, the adhesive types, their components and characteristics, application methods, and design and use considerations.

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.

Cold Storage and Controlled Environments Using Insulated Metal Panels ( ~ 1 hour ) 

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https://redirect.aecdaily.com/s9727/www.aecdaily.com/course/811766

Thermally controlled environments such as cold storage freezers and coolers, and food processing and packaging facilities take many different forms. Their performance and functionality depend on their project-specific requirements and can be affected by the conditions the materials and systems are subjected to. This course discusses how insulated metal panels (IMPs) perform the necessary functions to provide an effective energy-efficient building envelope and why they are suitable for use within temperature-controlled hygienic environments—where performance is critical.

Single-Skin Metal Panels for Pressure-Equalized Rainscreen (PER) Applications ( ~ 1 hour ) 

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Various control strategies are used to prevent rain from penetrating a building envelope and entering a building assembly. This course compares exterior wall metal cladding systems and takes an in-depth look at the design options, testing, specifications, environmental implications, and the detailing of single-skin metal panel systems as used in a pressure-equalized rainscreen (PER) application.

Thermoplastic Roofing: Materials & Systems ( ~ 1 hour ) 

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Roofing technologies have come a long way from labor-intensive BUR systems that achieved watertightness through redundancy. Today’s single-ply membranes are thin, light and reliable, and installation is safe and efficient. This course focuses on thermoplastic single-plies, particularly those that are PVC based, and explores their benefits and limitations as well as the important factors to consider when selecting a roof system, ranging from fastening techniques to warranties to sustainability.

The Art of Insulated Metal Panels ( ~ 1 hour ) 

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Insulated metal panels (IMPs) are known for their superior heat loss control, moisture and air resistance, and striking aesthetic capabilities. This course highlights how these attributes can be integrated to create beautiful, healthy, and safe buildings. It explains how IMPs achieve air, water, vapor, and thermal control via an advanced and cost-effective single-component system that accelerates construction time and offers design flexibility. The course includes essential design details and case studies that showcase the functional and aesthetic capabilities of IMPs. 

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.

Mineral Wool as a Continuous Insulation Solution ( ~ 1 hour, 15 minutes ) 

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https://redirect.aecdaily.com/s5023/www.aecdaily.com/course/899778

Insulation can help increase overall energy efficiency, minimize the spread of fire, manage risks associated with moisture and mold, and improve occupant comfort. Choosing the right insulation and putting it in the right location is becoming one of the most important decisions in design, construction, and retrofit. Reviewed in this course are the features, benefits, and design and installation considerations related to mineral wool continuous insulation.

New Code Requirements for Fire-Rated Doors and Hardware ( ~ 1 hour, 30 minutes ) 

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https://redirect.aecdaily.com/s20103/www.aecdaily.com/course/881135

The role of a fire-rated door is to maintain the integrity of a fire-rated enclosure in the event of a fire, giving building occupants enough time to exit the burning building. This course is an introduction to fire-rated doors and a general review of the fire codes that relate to fire doors and hardware, referencing 2012, 2015, and 2018 IBC; NFPA (National Fire Protection Association) regulations; and the ADAAG (Americans with Disabilities Act Accessibility Guidelines).

Concrete-Faced Continuous Insulation Systems ( ~ 1 hour ) 

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Concrete-faced insulated products are composite prefinished panels that are used to construct walls and roofing assemblies to maximize the energy efficiency, durability, and performance of a building envelope. This course discusses the design criteria used in designing energy-efficient buildings using concrete-faced continuous insulation systems for low-slope roofing, walls, and foundations. The functional and physical features of protective membrane roof (PMR) systems, concrete-faced insulated panels for walls and foundations, and concrete structural insulated panels (CSIPs) are evaluated.