Precast concrete pavers and roof deck systems enable designers to deliver on aesthetics and design objectives while achieving safety and durability requirements. Patented roof deck systems allow for the creation of safe and stable roof deck patios and green roofs that maintain sustainability requirements. This course examines the raw materials used in these systems, reviews the different finishes available, and discusses different paver applications and their methods of installation.
https://redirect.aecdaily.com/s987165/www.aecdaily.com/course/1035082
This course contains sustainable design information. See the course details page for more information.
This course contains accessible design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
One of the more complicated issues today in building science is addressing moisture movement, since moisture can penetrate a building in several different ways and result in material degradation, air quality issues, and failure of the building enclosure. This course examines the ways moisture can enter a structure and discusses the role of different moisture control layers that, when correctly placed and installed, can prevent unwanted moisture infiltration.
https://redirect.aecdaily.com/s9572/www.aecdaily.com/course/953062
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s9572/www.aecdaily.com/course/890325
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s13907/www.aecdaily.com/course/903646
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Protected roof membrane assemblies (PRMAs), and vegetative roof assemblies (VRAs) in particular, place extreme requirements on the components below the surface, from waterproofing to insulation and everything in between. Each element must meet specific standards for energy efficiency and durability. This course reviews the benefits and design considerations of VRAs. It also describes the high-performance attributes of VRA components and defines the building code/performance standards and best specification practices for optimal fire, wind, thermal, and moisture performance.
https://redirect.aecdaily.com/s5023/www.aecdaily.com/course/1009062
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
As interest in cross-laminated timber (CLT) buildings grows, the market for building enclosure products as a whole has yet to fully provide the water-resistant barriers, vapor retarders, and air barriers to optimally support the unique characteristics of wood. Furthermore, there are few building enclosure design guides specific to detailing wood-framed walls and roofs. This comprehensive course fills the gaps, providing detailed information on mass timber, building enclosure issues, the vapor-permeable technology available to address wood’s unique moisture characteristics, and a how-to guide on detailing the walls and roof of the enclosure.
https://redirect.aecdaily.com/s480282/www.aecdaily.com/course/970413
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s680223/www.aecdaily.com/course/901794
This course contains sustainable design information. See the course details page for more information.
This course is part of one or more "Course Collections". Click here to view the details.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Over the past century, designers and owners have benefited from the use of structural lightweight concrete. In recent decades, some designers have turned away from specifying it due to incomplete evaluation of the full life-cycle benefits of lightweight concrete and substantial misunderstandings surrounding concrete moisture vapor emissions compared to normal-weight concrete slabs. This course explores the full sustainable aspects of using lightweight aggregate concrete and illustrates how structural lightweight concrete is the sustainable design option.
https://redirect.aecdaily.com/s706760/www.aecdaily.com/course/1075387
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s632921/www.aecdaily.com/course/969584
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Glass block adds light and beauty to exterior and interior projects through a wide array of patterns, sizes, and colors. This course reviews these options as well as the energy efficiency and fire ratings of glass block, installation methods, sustainable benefits, and prefabricated options for projects demanding durability, security, and resistance to extreme weather. The course concludes with case studies that demonstrate the unlimited design possibilities of this versatile product.
https://redirect.aecdaily.com/s958811/www.aecdaily.com/course/964937
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Understanding the performance of building materials in real-world conditions is key to a successful building design. Recent studies have shown that the commonly reported R-values of polyisocyanurate foams at room temperature may overstate their real-world performance in cooler temperatures, potentially resulting in gaps in designed building enclosure assembly performance and quality. Through a theoretical framework and empirical data, this course shows that optimized polyisocyanurate foam insulation results in better performance, leading to improved energy savings and reduced potential for condensation. Participants are encouraged to explore innovative insulation materials, understand differences between them, and match optimal materials to specific applications while meeting modern construction codes and regulations. By matching the right insulation materials to the application, architects can contribute to energy-efficient and cost-conscious construction practices and help buildings reduce their impact on the environment.
https://redirect.aecdaily.com/s904648/www.aecdaily.com/course/1091510
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Explosion relief systems reduce damage and loss when an explosion occurs within facilities where potentially dangerous material is being handled or produced. These systems function by immediately reducing pressure during an explosion and are imperative to protecting a company’s assets and employees. Explosion relief systems are also referred to as explosion relief panels, pressure relief panels, or explosion relief vents. This course discusses pressure relief in low-strength enclosures, industries requiring pressure relief venting, and the function, design, and installation of these systems.
https://redirect.aecdaily.com/s2955/www.aecdaily.com/course/808876
This course is part of one or more "Course Collections". Click here to view the details.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s1096186/www.aecdaily.com/course/1100786
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Protected membrane roof (PMR) assemblies have been widely adopted in low-slope commercial buildings since the late 1960s. Also known as inverted or upside-down roofs, PMR assemblies move the waterproofing membrane from the top of the roof assembly to the surface of the structural deck. This course explores how PMR assemblies provide several advantages over conventional roof assemblies, offering superior protection against water penetration and enhanced energy efficiency. The course also shows how PMR assemblies allow for the creation of green roofs or blue roof systems. With a proven record of reliability, PMR assemblies present a compelling solution for architects seeking innovative, sustainable, and efficient roofing options.
https://redirect.aecdaily.com/s904648/www.aecdaily.com/course/1091539
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
With the increasing prominence of glass in new buildings and retrofits, the use of window film can raise the style, performance, and safety of today’s building projects. This course examines the use of various types of window film (decorative, solar control, and safety/security) and their role in improving occupant comfort and safety, lowering energy costs, and enhancing privacy.
https://redirect.aecdaily.com/s741679/www.aecdaily.com/course/764404
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Building science experts have acknowledged the need for both drainage and ventilation in exterior wall systems in order to eliminate moisture issues and extend the life of buildings. This presentation reviews the concepts of rainscreen technology and the solutions for compliance with a focus on engineered rainscreen drainage and ventilation mats used in direct-applied and ventilated wall designs.
Prerequisites: No
Course Level: Introductory
https://redirect.aecdaily.com/s671/www.aecdaily.com/course/980729
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Main entrance air curtains are used by architects and engineers in commercial, institutional, and industrial settings to both improve energy efficiency and protect occupant comfort and well-being. This course reviews the research that led to air curtains being approved as an alternative to vestibules in ASHRAE 90.1-2019 and other building codes, as well as how air curtains on main entries contribute to sustainability goals around energy conservation, public health, and indoor air quality.
https://redirect.aecdaily.com/s2356/www.aecdaily.com/course/957597
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Provides an overview of the types, features, and benefits of designing with cellular PVC trim, including a discussion on the installation guidelines and manufacturing processes.
https://redirect.aecdaily.com/s443055/www.aecdaily.com/course/570420
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Demand for safety, energy efficiency, and contemporary aesthetics is driving building envelope design that incorporates increased amounts of combustible material in cladding, insulation, and water-resistive barriers. This course outlines the difference between insulated metal panels (IMPs) and aluminum composite material (ACM) panels, discusses reaction to fire and fire resistance, addresses building code and building envelope fire testing, and provides global case studies demonstrating the impact of IMPs on the building envelope after exposure to fire.
https://redirect.aecdaily.com/s9727/www.aecdaily.com/course/847886
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Vacuum insulation panels (VIPs) offer higher thermal resistance per unit thickness than traditional insulation materials. This means a building envelope can meet the effective R-values for enclosures required by the energy codes without having to increase the thickness of the walls, roof, or floors. This course discusses how VIPs work, why they are effective, and the impact the properties of the materials used to construct a VIP can have on its performance. VIP installations and the latest developments in VIP technology are reviewed to illustrate the advantages of using VIPs as thermal insulation in the design of energy-efficient buildings.
https://redirect.aecdaily.com/s806330/www.aecdaily.com/course/827398
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
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.
https://redirect.aecdaily.com/s18795/www.aecdaily.com/course/787410
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Rooftop decks create valuable living and recreational space for building owners, residents, and clients. Accommodating restaurants, hotels, healthcare facilities, and everything from residential to government buildings, rooftop deck systems offer the design flexibility to create versatile, unique outdoor spaces over any structural surface. This course explores the features, surface materials, and design options for rooftop deck systems and provides an overview of recommended planning and installation guidelines.
https://redirect.aecdaily.com/s17339/www.aecdaily.com/course/829062
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Integrated fire and smoke door systems meet all life safety and compartmentalization requirements without sacrificing an architect’s vision. This course explains how multiple codes and standards apply to an opening, elevator lobby, and elevator shaft and discusses how integrated door systems provide building owners with a complete turnkey door system that uses components engineered to work as a unified whole.
https://redirect.aecdaily.com/s20103/www.aecdaily.com/course/1010555
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
At their root, metal roofs and walls made from steel, copper, zinc, or aluminum have a lower environmental impact because of their ability to be recycled and reused. This course focuses on the green aspects of standing seam metal roofs, and in particular, their cool roof characteristics. Also addressed are the implications of heat islands, what constitutes construction of cool roofs/walls and how they work, some rules of thumb for understanding cool metal roofing, roof slope impacts on performance, and codes, ratings, and standards that apply to designing cool roofs/walls.
https://redirect.aecdaily.com/s935649/www.aecdaily.com/course/960004
This course contains sustainable design information. See the course details page for more information.
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
Outdoor decks are commonly desired by homeowners and commercial property owners for both new and existing properties. Wood has long been the structural choice for outdoor deck materials. However, wood has disadvantages that can be mitigated with steel deck framing structural construction. In this course, we will discover that light-gauge steel (LGS) is lighter in weight than structural wood, is less susceptible to deterioration due to the elements and pests, requires less maintenance over time, is a sustainable material, and offers unparalleled safety features for dead loads, live loads, and environmental loads such as snow, earthquakes, and wind. Steel deck framing is quick to erect and provides for longer spans than wood of similar cross-sectional size. Structural materials can be easily lifted, and waste is reduced.
https://redirect.aecdaily.com/s555712/www.aecdaily.com/course/972529
This course is ONLINE: SELF-PACED. Experience it on your own schedule, at your convenience.
