Solid Surface: A Design Professional’s Guide ( ~ 1 hour ) 

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Solid surface material is a durable and sustainable solution for custom architectural solutions. Explore the extensive design possibilities of this nonporous, thermoformable material and review key performance characteristics and fabrication guidelines.

Sustainable Design Strategies for Specialty Metals and Gratings ( ~ 1 hour ) 

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Sustainable design has become a key responsibility in building practices. The decisions that architects, designers, and landscape professionals make at the early stages of design extend far beyond aesthetics and structure. They shape environmental performance, material life-cycle costs, and occupant comfort. This course explores sustainable design strategies focusing on specialty metals and gratings, with a strong emphasis on performance, life-cycle benefits, specification insights, applicable codes and standards, and real-world results. Specialty metals and gratings are also examined for their structural integrity and appearance, resource efficiency, longevity, and performance attributes that contribute to sustainable architectural outcomes.

Differentiated Performance and Long-Life Architectural Coatings ( ~ 1 hour, 15 minutes ) 

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Building owners have come to rely on weatherable coatings to provide long-term protection to their buildings. With an increased focus on sustainability, performance, and durability, PVDF resin-based coatings can help architects and painting contractors exceed their clients’ design goals. This course covers the key components and functions of high-performance weatherable coatings and looks at how these coatings contribute to sustainable design.

Fundamentals of Sustainable, Energy-Efficient PVC & KEE Single-Ply Roofing Membranes ( ~ 1 hour ) 

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PVC and KEE single-ply roofing membranes are widely used in sustainable building design due to their durability, material efficiency, and recyclability. This course provides an overview of installation, warranties, and maintenance requirements and explores the role of membranes in reflective and vegetated roof systems. Also examined are their potential contributions toward LEED® v5 Building Design and Construction and Sustainable SITES® v2 credits addressing urban heat island mitigation, solar panel readiness, stormwater management, and construction and demolition waste reduction.

Elevate Your Designs: Strategies for Creating Rooftop Amenity Spaces ( ~ 1 hour ) 

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This course addresses critical aspects of designing safe and functional rooftop environments. Rooftop deck installation techniques are reviewed, with a focus on adjustable pedestal systems that create a stable platform for a variety of surface materials. Additionally, the course examines how these systems effectively address wind uplift, enhance occupant health and comfort, benefit building owners and businesses, and minimize environmental impacts.

Contemporary Wood-Burning Fireplaces, Inserts, and Stoves ( ~ 1 hour ) 

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The fireplace has always been a focal point in any home, providing warmth and a place for friends and family to gather. Today’s wood-burning fireplaces, inserts, and stoves have become increasingly efficient and clean burning. This course examines using wood as a fuel source and discusses the many characteristics that can affect heat production, efficiency, and burn time. New burning technologies that meet EPA certification requirements for released particulate matter are summarized, as are design and installation specifications.

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.

Selecting Materials for Outdoor Applications: Choice of Materials—and Product Suppliers—Matters on Many Levels ( ~ 1 hour, 15 minutes ) 

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Architects and designers have many options for specifying site furniture products for their projects. Selecting materials and finishes is an integral part of this process, yet making material selections has become more and more complex. The course examines conditions and constraints of outdoor environments; evaluates materials commonly used in outdoor applications; discusses using green building standards and rating systems, and the role of suppliers as resources for material selection; and provides examples of products that adhere to a higher environmental standard.

Urban Shade Solutions: Advancing Comfort, Health, and Climate Resilience ( ~ 1 hour ) 

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This course explores the critical role of shade in urban design, public health, and climate resilience. It examines how natural, built, and combined shading systems reduce heat exposure, support thermal comfort, and enhance the usability of outdoor spaces. Through case studies, technical analysis, and planning frameworks, participants will learn how to evaluate shade needs, select appropriate solutions, and integrate shade into parks, plazas, transit stops, and other public environments.

Hardwood Flooring Systems for Durability, Moisture Control, & Sound Reduction ( ~ 1 hour, 15 minutes ) 

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Selecting flooring is an important decision, but equal emphasis should be placed on proper surface preparation to avoid costly flooring failures. This course reviews best practices for a typical hardwood flooring installation and discusses the innovative options that consolidate products and steps, saving time and money while enhancing certain performance characteristics.

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.

Biophilic Design and Resilient Flooring ( ~ 1 hour ) 

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The recent shift towards protecting the environment has also brought about a better understanding of our innate need to reconnect with our natural surroundings. This is known as biophilia. In this course, we will examine the elements of biophilic design and how to implement biophilic design strategies, known to improve physical and mental well-being of occupants. The use of resilient flooring in commercial applications offers an opportunity to implement biophilic design.

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.

The Role of Composite Cladding in Superior Building Envelope Design and Performance ( ~ 1 hour ) 

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Wood-plastic composite cladding offers a pleasing aesthetic and exceptional durability as part of a rainscreen assembly, enhancing the performance and longevity of the building envelope. Presented here are the functions and components of Lstiburek’s “perfect (universal) wall” design and a drained and ventilated rainscreen assembly. The course explores the composition, manufacture, benefits, design possibilities, and installation of wood-plastic composite cladding, as well as compliance with building codes and standards.

Bathroom Lighting: Design Criteria, Aesthetics, and Well-Being ( ~ 1 hour ) 

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Natural and artificial lighting surrounds us at all times. Light helps us to work safely, enhances design, creates atmosphere, and influences our well-being. This course discusses the circadian rhythm, occupant health, and lighting color temperature, and it examines LED lighting requirements and options for lighting-integrated bathroom mirrors and cabinets.

Heat Recovery Ventilation: Why Efficiency Matters ( ~ 1 hour ) 

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In the last couple of decades, houses have become progressively more airtight due to energy efficiency and cost concerns. While air infiltration and exfiltration rates have been significantly reduced, the need for an efficient ventilation system has become extremely important. This course evaluates different types of mechanical ventilation systems and discusses why heat recovery ventilation (HRV) and energy recovery ventilation (ERV) systems are characterized by a high level of energy efficiency and as an effective means for improving indoor air quality.

Composite Decking: Sustainability, Durability, and Applications ( ~ 1 hour ) 

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While natural wood has traditionally been viewed as an ideal material for decking boards and tiles, wood-plastic composite (WPC) has emerged as a durable, easy-to-maintain, and sustainable alternative. This course provides insights into the advantages of composite decking, especially fully capped products, and explores topics including its environmental benefits; contribution to occupant wellness and safety; resistance to fading, staining, and other potential defects that decking experiences; various applications; and attractive aesthetics.

Effective Waterproofing ( ~ 1 hour, 15 minutes ) 

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Critical to concrete waterproofing are the products used in combination to create a system that ensures complete control of moisture migration. Presented here are effective concrete waterproofing technologies and how they improve the durability and lifespan of structures. Discussions include water penetration, system selection, membrane protection, and cementitious waterproofing.

Spray Foam Sustainability Through Modern Applications ( ~ 1 hour ) 

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The building envelope is the physical separator between the conditioned and unconditioned environment of a building and provides resistance to air, water, heat, light, and noise transfer. As a thermal barrier, spray polyurethane foam (SPF) offers numerous opportunities to contribute to building envelope performance and indoor air quality in several project types. This course presents the sustainable aspects of SPF, SPF fire and strength testing, and the benefits of SPF in below- and above-grade and rooftop applications.

Universal Design: Applied to Bathroom and Kitchen ( ~ 1 hour, 15 minutes ) 

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Universal design is not a new concept; however, it is time for a paradigm shift. Considering ADA design, universal design, and living in place, should designers now be offering universal design solutions to all clients, regardless of age or ability? This course reviews both ADA and universal design guidelines and discusses compelling reasons for recommending universal design in your kitchen and bathroom projects. Various kitchen and bathroom applications are discussed in detail.

Louver Design and Selection: What Every Architect Should Know ( ~ 1 hour, 15 minutes ) 

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Today’s louvers not only are functional but also offer enhanced architectural design to the façade of many buildings. More than just a hole in a wall, louvers are responsible for reducing or eliminating water infiltration and offer protection from heavy storms and hurricanes. Different types of louvers and their applications are discussed in this course as well as specific terminology, AMCA/BSRIA testing procedures, and the Certified Ratings Program.

Managing Water Efficiency with Dual-Flush Toilets ( ~ 1 hour ) 

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Efficient water use and conservation are key parts of sustainable development. Toilets account for the greatest water usage within a residential home (typically 30 percent). Dual-flush toilets are an option to reduce water usage by up to 20 percent while meeting the LEED® v4 Water Efficiency requirements. This toilet option can also be incorporated into accessible bathrooms and use touchless flush plates. The most attractive feature of the dual-flush toilet is that it does not require significant behavioral changes for benefits to be realized.

The Importance of Balanced Ventilation with Energy Recovery Ventilators (ERVs) ( ~ 1 hour ) 

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An energy recovery ventilator (ERV) system provides occupants with filtered, balanced, and tempered air within their living space. Airborne contaminants can be greatly reduced with ERV systems. This course provides knowledge about the need, use, design, and installation of ERVs in the modern dwelling unit and when retrofitting existing structures. The course also addresses the environmental advantages of sustainable and healthy solutions for indoor air quality.

Redwood Lumber: Attributes, Applications, & Environmental Benefits ( ~ 1 hour ) 

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Redwood offers warmth, character, durability, and strength in products from sustainably managed and harvested forests. This course provides insights into forestry practices and the environmental benefits of redwood lumber, and compares redwood with other common decking materials. Details are presented on how to differentiate and specify grades of redwood; finishing options and methods are also discussed. The course concludes with examples of applications that showcase the unique beauty and attributes of redwood.

Optimizing Energy Efficiency with Polycarbonate Sheeting Systems ( ~ 1 hour, 15 minutes ) 

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Research indicates that the quality of light directly affects the quality of life in a space; access to daylight and outdoor views promotes happiness and productivity. Reviewed in this course are the features of polycarbonate sheeting systems and how they contribute to energy-efficient daylighting design, as well as the overall health and well-being of the building occupants.