This course is useful to each and every people irrespective of their academic background and interests. The Wood Frame Construction Manual (WFCM) for One- and Two-Family Dwellings (ANSI/AWC WFCM-2018) is referenced in the 2018 International Building Code (IBC) and 2018 International Residential Code (IRC). Returning User. Deck and balcony collapses injure occupants every year. Understand the limitations of wood shear walls and diaphragms. Calculate wood-frame diaphragm deflection using the 2015 SDPWS. Be familiar with the design of lateral, shear, gravity, and uplift connections related to headers. Wood has been successfully used as a structural building material for hundreds of years. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. Learn how fire resistance ratings of wood assemblies and mass timber are calculated. This webinar builds on the three previous Load, Load Path, and Connections webinars to describe how loads must be transferred through the building to reach the foundation system. Describe the application of NDS Chapter 16 which can be utilized to design up to 2-hours of fire-resistance for exposed wood members. Also included is information on fire testing, an introduction to cross laminated timber (CLT), and an overview of proposed changes to the 2021 IBC regarding tall mass timber buildings. The 2018 International Building Code (IBC) and 2018 International Residential Code (IRC) published by the International Code Council are now available. Determining the allowable building code construction type based on for a building’s occupancy and size is fundamental to proper design. Analyze individual components of the deflection equations to determine their magnitude of impact on total deflection. NLT, glulam, SCL, and solid sawn timbers have been adopted in the International Building Code (IBC) and utilized throughout the world for several decades on a wide variety of buildings. Be able to identify and analyze shear walls per 2015 WFCM, 2015 WFCM High Wind Guides, and 2015 SDPWS and understand the differences between them. Modern timber bridges combine the use of solid wood, plywood, laminated timbers like glued-laminated timber, laminated veneer lumber (LVL), parallel strand lumber (PSL) and cross-laminated timber (CLT). Discuss how a wood bridge can be installed while addressing environmental concerns. Students in this program may not take Engineering Economics (ENGG/ECON 209) for credit. Become familiar with the Prescriptive Residential Wood Deck Construction Guide (DCA6). - describe wood as a raw material and its critical importance to the world economy, and the lives of the people that make that economy work. Be familiar with the resources that are available to obtain more information. Design provisions and equations from the 2015 NDS and reference design values from the 2015 NDS Supplement will be used to calculate capacities for these elements under various loading conditions. Specify the relevant new provisions for fastener design. This program provides guidance that is based on compliance with Chapter 33 of the 2018 International Fire Code, Chapter 33 of the 2018 International Building Code, and NFPA Standards 1 and 241. Be familiar with tabulated values and their basis in WFCM Chapter 2 for gravity loads. All mass timber products offer sustainable qualities as they are manufactured from a renewable resource and store carbon. Glued-laminated timber is often used as a primary load carrying member of buildings. The 2008 SDPWS incorporates both a 3-term and 4-term deflection equation that accounts for these variables. Many regions of the United States are at risk of high winds from hurricanes, downbursts, and thunderstorms. Understand the process by which the allowable heights, areas, and number of stories permitted for the proposed mass timber types of construction were developed and will be able to utilize the information for building design. Whether they’re making it faster, smarter, or more economical, engineers are responsible for imagining solutions to complex problems across a range of exciting industries. This presentation will provide an overview of the significant changes in the 2018 WFCM relative to the previous 2015 edition. It is strongly encouraged to view the recorded webinar of STD350 - Significant Changes to the 2018 WFCM prior to this course. Equivalencies: 2.0 Hour of Instruction = 0.2 Continuing Education Units (CEU) = 2.0 Professional Development Hours (PDH) = 2.0 Learning Units (LU). For past educational offerings, go to the. This presentation will demystify diaphragm design by providing wind and seismic design examples for in-plane lateral design of wood- and gypsum-sheathed diaphragms including high-load diaphragms. Engineered approaches such as those outlined in AWC's 2015 Special Design Provisions for Wind and Seismic (SDPWS) typically result in more efficient designs. This course will introduce an overview of a variety of current and new wood products and techniques. Wood is as important to society today as it ever was, despite the development of many man-made substitute materials, changing resource availability, and the changing needs of society. Diagnose common challenges faced when designing and building residential wood decks and how to overcome them. This seminar presents current wood connection design philosophy, behavior, serviceability issues, and connection design techniques for small and large wood members, panel products, and wood assemblies, using dowel-type and specialized components. CE 629 - Wood Engineering I. Prerequisites: A structural analysis course and a structural design course. Be familiar with the ever-growing family of traditional and engineered wood products (EWP's) and their unique characteristics, including: Be familiar with the standards that form the basis for the manufacture, development of design stresses, and design procedures for each product. Identify and detail high capacity shear walls and diaphragms. Discuss existing state of in-plane CLT shear wall design provisions. Course Summary: Wood frame construction is the predominant method of building homes and apartments in the United States, enabling this nation to have the world’s best house population. Identify the main risks and hazards on construction sites that lead to fires in structures under construction. It will be compared to the adjustment factor approach which permits distribution of shear in proportion to strength where reduced strengths are determined by use of the 2bs/h factor for wood structural panels. Wood frame buildings are economical to build, heat, cool and provide maximum comfort to occupants. Discuss shaft wall assembly types, evaluating their applicability to elevator, stair and mechanical shafts. Learn to use checklists and detailing summaries to ensure a complete load path is prescriptively designed. Per the International Building Code (IBC), structures using wood shear walls and diaphragms to resist wind and seismic lateral loads shall be designed and constructed in accordance with AWC's Special Design Provisions for Wind and Seismic (SDPWS). Identify methods specified by the code for establishing fire resistance of wood assemblies and elements, and fire precautions during construction. A whole building LCA will be conducted using REVIT software. If you only want to read and view the course content, you can audit the course for free. Identify solutions that other countries are implementing for mid-rise wood construction. Engineering concepts from the 2015 Wood Frame Construction Manual (WFCM), used to develop the 2015 WFCM High Wind Guides, will be covered, along with updates on changes to the 2015 WFCM. This 90-minute webinar will introduce attendees to several of the recent major fires and their causes, the many fire-related hazards that exist on a construction site, the International Building and Fire Code and NFPA requirements for fire protection safeguards during construction and solutions for developing simple fire safety strategies. Looking for Online PDH courses for engineering credits? - identify the ways in which wood's properties can lead to its efficient and sustainable use. Many courses do, however, require a basic understanding of engineering principles. In early 2016, the ICC Board of Directors approved the creation of an ad hoc committee to explore the building science of tall wood buildings with the scope being to investigate the feasibility of and take action to develop code changes for tall wood buildings. Proper design of wood structures to resist high wind loads requires the correct use of wind load provisions and member design properties. Identify new fastener provisions developed to address increased wind loads. Regionalized programs throughout Canada working towards advancing the use of wood in … 2 Architectural Engineering degrees. The study evaluated internal forces generated during testing and assessed the effects of opening sizes, full-height pier sizes, and different construction techniques, including the segmented, perforated, and FTAO methods. Be able to analyze format and content within the 2012 WFCM. In this course, participants will learn about format of the SDPWS and how to apply design provisions to shear walls and diaphragms as well as changes from previous editions. wall subject to wind and gravity loads. They are grouped by continent. This presentation reviews building code fundamentals for fire performance and establishing fire resistance, the basis for using the DCA-3 assemblies for code compliance, and the correct use of the tables and assemblies in fire design. It addresses a range of topics such as roadwork safety, rigging, fall arrest, excavation safety etc. This webinar builds on the two previous Load and Load Path webinars and describes how connectors are used to create load paths in the structure and how the 2012 Wood Frame Construction Manual (WFCM) and calculated loads are used to determine connector type and size. Recognize how cross-laminated timber and other glued engineered wood products are manufactured. This webinar will present state-of-the-art assessment methods for existing wood and timber structures. Part 1 will provide an overview of the 2-story example structure, loads to be resisted, and applicability limitations of the WFCM. Manufacturers, distributors, and builders are all reporting a critical need for training as they rebuild from the recession and hire new employees. Maintenance of existing materials is as important as proper material selection. Describe Code Conforming Wood Design, and highlight its use as a resource for designers when analyzing single-occupancy structures. Recognize the items examined during a special inspection. This article will provide an introduction to historic wood structures and modern innovative wood structures. Understand the addition of deformed-shank fasteners and other criteria to address new wind load provisions, Describe changes to the 2018 WFCM and their impact, Evaluate new roof wind provisions based on ASCE 7-16, Recognize the addition of deformed-shank fasteners and other criteria to address new wind load provisions, Design with new 2018 WFCM shear wall aspect ratio limits for wind. Participants will conclude that research results obtained from this study can be used to support different design methodologies in estimating forces around openings accurately. The information applies to the design and planning stages as well as the actual construction phase of buildings. In January 2019, the International Code Council (ICC) approved a set of proposals to allow tall wood buildings as part of the 2021 International Building Code (IBC). Where noted, the country's accreditation board standard has been used and cited. Special inspection provides a quality control measure intended to ensure that certain critical features are incorporated into a structure and are constructed properly. AWC's 2008 Special Design Provisions for Wind and Seismic (SDPWS) contains provisions for wood structural panel shear walls designed to resist shear and uplift forces simultaneously, as well as wind uplift forces alone. One of the methods for determining fire resistance per section 703.3 in the 2018 International Building Code is fire-resistance designs documented in approved sources. Identify IBC methods for establishing fire resistance of wood assemblies and elements. Course Information. When you purchase a Certificate you get access to all course materials, including graded assignments. Be familiar with 2015 SDPWS updates to referenced standards. Topics will include connection design philosophy and behavior, an overview of 2015 NDS provisions related to bolt design including Appendix E for local stresses in fastener groups, and a detailed design example.