How to Specify & Detail Architectural Metal Wall Panels ( ~ 1 hour ) 

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Architectural metal panels (AMPs) provide exceptional design versatility, enhancing both the aesthetics and functionality of a building. This course explores different types of panels, their applications, finishes, key design and specification considerations, and best practices to ensure the durability and performance of the panel system. Additionally, several project examples are presented to showcase the creative applications of AMP systems.

Architectural Design with Cast Stone ( ~ 1 hour ) 

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Learners will receive information about cast stone and how it is made, testing requirements, applications, design recommendations, and how it differs from related materials. Learners will describe appropriate specification, design details of cast stone for architectural applications, and how to determine quality cast stone production.

Glass Fiber Reinforced Concrete (GFRC) ( ~ 1 hour ) 

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Throughout history, concrete mixes and carved natural stone have combined to create substance, beauty, and longevity in our architecture. Glass fiber reinforced concrete (GFRC) was created to ensure that the attributes of concrete and stone continue to be enjoyed but with efficiency in the application that is expected in today's world of design. This course covers the creation of GFRC, its components, fabrication, applications, and design capabilities. It compares GFRC to other types of architectural concrete and presents GFRC performance and sustainable design advantages.

Structural Laminated Decking ( ~ 1 hour ) 

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Structural laminated decking allows the beauty of the wood structure to be exposed, creating a unique architectural experience for its occupants. Aesthetics, strength, and durability are combined in one engineered product. Structural laminated wood decking is an environmentally sustainable and cost-effective alternative to solid timber and other roof systems. This course discusses the characteristics of laminated wood decking and reviews recommended design, specification, and installation practices.

Performance Parameters: A Guide to Selecting the Appropriate Roof Underlayment ( ~ 1 hour ) 

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Roof underlayments play a vital role in enhancing roof durability by preventing moisture intrusion and extending the life of the roofing system. This course compares traditional felt roof underlayments with modern synthetic roof underlayments across various parameters and discusses ASTM standards and material testing. The course examines the four critical performance factors that influence product selection and concludes with a checklist of items to address to ensure the appropriate underlayment is specified.

Attic Ventilation: Performance Starts from the Top ( ~ 1 hour, 30 minutes ) 

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Attic ventilation is an important component in proper structural design. By encouraging airflow, attic ventilation plays a key role in maintaining structural integrity, ensuring roof component durability, providing a healthy indoor environment, and minimizing energy consumption. Additionally, proper attic ventilation hinders or prevents mold growth, reduces interior pollutants, and acts as a pivotal fire prevention tool. This course looks at how attic ventilation systems work, the benefits they provide, and the associated building codes and regulations.

Fire Code Compliance and Insulated Metal Panels ( ~ 1 hour ) 

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Understanding how insulated metal panels comply with fire safety regulations under the code is critical to their proper use in creating highly energy-efficient and sustainable buildings. This course takes a relatively complex subject and addresses the most important fire safety aspects to allow building designers to make an informed decision on the use of these popular cladding systems. Also reviewed are how these products have been addressed in the development of the International Building Code and the various third-party product listings, evaluation reports, and engineering judgements used to show compliance.

Ponts thermiques et solutions de rupture thermique ( ~ 1 hour, 15 minutes ) 

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Le besoin d’évaluer les ponts thermiques dans la conception et le rendement d’un bâtiment a gagné en importance en raison des exigences grandissantes en matière d’efficience énergétique des bâtiments. Ce cours sert d’introduction aux ponts thermiques, aux exigences du code de l’énergie et à l’usage de barrières thermiques conçues pour améliorer l’efficience énergétique de l’enveloppe du bâtiment.

Designing Metal Wall and Roof Systems ( ~ 1 hour, 15 minutes ) 

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Metal roof and wall systems have long been specified for commercial, residential, and industrial buildings because they have a lengthy history of durability, reliability, and resilience. This course examines the attributes of metal panel systems and the design options that make metal-clad buildings sustainable, attractive, and suitable for a variety of applications and environmental conditions.

Sun Control Devices for Energy-Efficient Design ( ~ 1 hour ) 

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Exterior shading devices offer a number of advantages that contribute to a more sustainable building, including minimizing cooling costs, reducing peak electricity demand, and controlling glare. These benefits result in greater occupant comfort and improved productivity. This course provides a review of exterior aluminum shading device systems, including the components, finishes, and design and engineering considerations, as well as a discussion of how shading strategies contribute to LEED® certification.

Redwood Lumber & Timbers: Advanced Specification Details ( ~ 1 hour ) 

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Redwood lumber and timbers from sustainably managed and harvested forests offer warmth, durability, and strength in indoor and outdoor projects. This course covers the performance characteristics, environmental benefits, and applications of Redwood, including several case studies that highlight the beauty and versatility of Redwood products. Details are presented on differentiating the grades of Redwood, specifying the right grade for the project type, and the specification resources that are available.

Designing Sustainable Materials for Building Integration (Recorded Webinar) ( ~ 1 hour ) 

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The 2022 Inflation Reduction Act shines a light on how low-carbon building material selection is one of the keys to reducing greenhouse gas emissions in the US. High-performance, sustainable products and thoughtful assemblies designed with the building life cycle in mind are critical to the future of our sustainable communities. This course provides a look at how low-carbon and sustainability considerations are activated from product to building design. Factors impacting a sustainable building life cycle are discussed to help architects and owners with building performance that meets the design intent not just on paper but also in use.

Polyiso: The Next Generation Air and Water-Resistive Barrier ( ~ 1 hour, 15 minutes ) 

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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.

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.

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.

Rainscreen and Ventilation Solutions for Healthy Walls ( ~ 1 hour ) 

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The construction industry has experienced a significant increase in moisture-related problems in exterior walls. This presentation explains how a rainscreen wall system prevents moisture accumulation within walls by providing a means for drainage and ventilation, thereby prolonging the life of buildings. Discussion topics include air and moisture movement in the building envelope, building code and water-resistive barriers, and stucco and thin veneers in rainscreen systems.

Embodied Carbon and the Building Envelope ( ~ 1 hour ) 

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In the fight against climate change, efforts intensify against the planet’s number one enemy—carbon dioxide. The building industry will play a significant role in these efforts. Embodied carbon—the global greenhouse gas emissions generated from sourcing raw material and processing, manufacturing, transporting, and installing building materials—will be the target over the next decade. This course will define embodied carbon, its impact on greenhouse gas emissions, the construction industry's impact, and the methods and tools that building designers can employ to limit embodied carbon.

Metal Roofing Installations: Key Considerations ( ~ 1 hour ) 

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In this video series course, we cover common metal roofing installation considerations. The first video discusses typical metal roof penetrations and details for proper installation. The second video presents metal enhancement options and design and installation tips to prevent premature corrosion in marine environments. The final video explores the expansion and contraction of standing seam metal roofs and how points of fixity accommodate thermal movement.

Maximizing Envelope Performance with IMP-Integrated Components ( ~ 1 hour ) 

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The facade is one of the most significant contributors to the energy consumption and comfort parameters of any building. This course explores high-performance building envelopes and the use of advanced insulated metal panel systems featuring integrated daylighting and ventilation components that combine to provide weathertightness and maximum thermal performance.

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.

Insulated Composite Backup Panels: A Simpler Solution ( ~ 1 hour ) 

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Exterior wall systems are the dividing line between the exterior and the interior and must address several fundamental performance goals of the building envelope. This course reviews traditional rainscreen design and examines why, with its single-component construction, an insulated composite backup wall system is a vast improvement over traditional multicomponent building technology.

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.

New Technologies for Tiling Decks and Balconies ( ~ 1 hour ) 

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Outdoor living space has become an important residential design consideration in the last several years. Decks create welcoming spaces to relax and entertain with family and friends, and a well-built deck can add more living space and value to a home. This course discusses deck surfaces, maintenance, and costs and explores porcelain tile as an alternative to wood and composite deck surfaces that is well suited to exterior environments. Also discussed is how porcelain tile can be used with a new pultruded fiberglass and composite underlayment, called structural ribbed self-supporting boards, and the sustainable features of this technology.

Achieve Net Zero Building Goals with Carbon Fiber Reinforced Precast Sandwich Walls ( ~ 1 hour ) 

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Concrete is an essential part of modern buildings. As net zero energy buildings become more common, it is crucial to find ways to reduce concrete’s carbon footprint without losing the performance characteristics that make it valuable to the building team. This course explains the sources of concrete’s carbon footprint and explores strategies for reducing embodied carbon and operational carbon in precast sandwich wall panels and insulated architectural cladding.

Insulate Ukraine ( ~ 30 minutes ) 

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The war in Ukraine has left thousands living in substandard housing conditions, insufficient for winter weather. This course reviews a solution developed by a British engineer that addresses the pressing problem of delivering replacement windows in a war zone to improve thermal comfort in Ukrainian homes.