This presentation will focus on the engineered design of large wood panelized roof diaphragms in tilt-up concrete and masonry wall buildings, with focus on design requirements for strength, stiffness, and proper development and resistance of wall anchorage forces. Due to COVID-19, construction sites are being shut down all over the country. An overview of appropriate loads to apply to residential structures will be provided. Discussion will focus on fire resistance-rated design parameters but will also include other architectural and structural considerations related to shaft walls. Develop strategies and tactics to suppress a fire on a construction site of a large area building. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. Understand applicable gravity loads from ASCE 7-10 for structures within the WFCM scope. This seminar will focus on recent glulam innovations — such as the use of fiber reinforced polymers to increase strength and stiffness — as well as sustainability considerations related to product selection and endurance. Attendees will learn about the engineering basis of prescriptive tables used to size wood members and connections to resist high wind, seismic, and snow loads in the wall and floor systems. The purpose of this article is to explore code provisions for larger Recognize how mass timber for mid- and high-rise structures provides for higher quality buildings to be constructed faster and safer. Understand the difference between segmented and perforated shear wall design. available. This methodology is based on a joint research project of APA – The Engineered Wood Association, University of British Columbia (UBC), and USDA Forest Products Laboratory that examined variations of shear walls with code-allowable openings. Wood, D.H. (2018) Application of extended vortex theory for blade element analysis of horizontal-axis wind turbines, Renewable Energy. -identify wood's positive role in boosting the world economy and ability to lead to unexpected vocations. Be familiar with relevant new provisions for Cross-Laminated Timber. Health Sciences. Be familiar with shear, uplift, and overturning wind loads for various building components. To encourage compliant deck design and construction, American Wood Council (AWC) has published Design for Code Acceptance No. The 2015 WFCM includes design information not only for lateral loads, but for gravity loads including snow, roof live, floor live, and dead loads on buildings up to 3 stories. 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. For WFCM load calculations, Minimum Design Loads for Buildings and Other Structures (ASCE 7-10) is used. This article reviews the prescriptive engineered design tools and standards, progression and overview of provisions, tabulated values for uplift capacity, and requirements for installation and illustrations for nailing per the 2008 SDPWS. AWC's National Design Specification (NDS) for Wood Construction 2015 is the dual format Allowable Stress Design (ASD) and Load Resistance Factor Design (LRFD) document referenced in US building codes and used to design wood structures worldwide. Be aware of updated language relating to Structural Composite Lumber. 12 ECTS for Optional Courses 50 ECTS for Internship Study Plan - Bachelor in Wood Engineering - Wooden Buildings 1st Year 6 CP Mathematics 6 CP Fundamentals of Information Science and Microcontroller programming 6 CP Economy, Law, Contracts 4. During the work of the ICC Tall Wood Building Ad Hoc Committee (TWB), special test programs were developed and performed with the input of the fire service. All course requirements for the BComm/BSc(Eng) combined program are specified in the University of Calgary Calendar program details. This presentation will provide an overview of the allowable heights and areas for the three new types of mass timber construction: Types IV-A, IV-B, and IV-C. Construction fire safety requirements and owner responsibilities related to the fire resistance elements of the building will also be discussed. Building with CLT has increased in popularity for many reasons including: just-in-time fabrication and job site delivery, speed and efficiency in construction, reduced job site noise and on-site labor force, substitution of high embodied materials with a renewable resource that sequesters carbon, and creating a living or work space that has the aesthetics of exposed wood. The current editions, designated ANSI/AWC NDS-2015 and ANSI/AWC SDPWS-2015, were approved as ANSI American National Standards in 2014. Familiar with dowel-type and specialized components and adhesives. Member, connection, and fire design as outlined in AWC's National Design Specification (NDS) for Wood Construction will also be discussed. The WFCM and High Wind Guides provide designers with time-saving tools using prescriptive solutions (based on structural engineering principles) for wood structures to resist anticipated wind loads. Be familiar with reference design values from the, Be familiar with design value adjustment factors from the. An overview of 2018 International Building Code (IBC)and 2018 National Design Specification® (NDS®) for Wood Construction provisions related to the use of cross-laminated timber (CLT)will be provided that includes a step-by-step structural and fire design example for a roof and floor application. 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. This article provides an overview of a bolt design example utilizing AWC's 2015 National Design Specification® (NDS®) for Wood Construction. Programs Courses. Examine evidence confirming the positive human response to wood for its aesthetic qualities and connection to nature. Using Design of Wood Frame Buildings for High Wind, Snow, and Seismic Loadings (2012 WFCM Workbook) this 2-part hands-on session provides a design example, helpful checklist, and background information for design of a wood-frame structure in accordance with the 2012 WFCM. Wood Structure & Moisture Content: Part A, Construction Engineering and Management Certificate, Machine Learning for Analytics Certificate, Innovation Management & Entrepreneurship Certificate, Sustainabaility and Development Certificate, Spatial Data Analysis and Visualization Certificate, Master's of Innovation & Entrepreneurship. The difference between the segmented and perforated shear wall design approach and an overview of various hold-down design methods is discussed. Discuss the special provisions of International Building Code Section 510 and give examples of their applications in common building configurations. Perth: ON: Passion for Wood: Acton: ON: … Describe how to design fire protection for mass timber connections. Understand conditions necessary for wood-destroying organisms to thrive. © 2020 Coursera Inc. All rights reserved. Be knowledgeable about the use of these products through examples of a wide range of building applications. Design provisions and equations from the 2015 and 2018 NDS and reference design values from the 2018 NDS Supplement will be used to calculate capacities under various loading conditions. Become acquainted with the unique fire resistive characteristics of nail-laminated timber, glued-laminated timber and cross-laminated timber as it influences the use of wood in building construction. 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). Able to identify the similarities and differences with respect to design values, tabulated values, and behavioral equations. resistance. This article will highlight the changes in the 2018 NDS and Recall the efforts of the ICC Tall Wood Building Ad Hoc Committee and Group A proposals, Compare existing IBC construction types with requirements for new construction types, to include fire protection features, Visualize representative allowable building sizes as prescribed by the TWB Ad Hoc Committee, Summarize and discuss standards updates and next steps for tall mass timber construction. Apply special provisions for design of wood structures that involve compartmentalization and sprinkler systems. This article provides and overview of the 2015 Code Conforming Wood Design (CCWD) document, Invent creative solutions. Engineered approaches such as those outlined in AWC's Special Design Provisions for Wind and Seismic (SDPWS) typically result in more efficient designs. Identify applications for using CLT and develop solutions using the highlighted resources. ENTER GRADES. ASD wind pressures for Main Wind-Force Resisting Systems (MWFRS) and Components and Cladding (C&C) are computed. For those seeking practical application of the provisions of the National Design Specification® (NDS®) for Wood Construction (ANSI/AWC NDS-2015) which is referenced in the 2015 International Building Code, this presentation provides several design examples including beams, columns, and structural elements under combined bending and axial loading. Understand the 6 lateral design value yield modes and material properties used to calculate capacity. CED Engineering offers PDH Courses Online in the categories of Wood and many others for PE renewal. The 2015 Wood Frame Construction Manual (WFCM) is referenced in the 2015 International Building Code and 2015 International Residential Code. Equivalencies: 1.0 Hour of Instruction = 0.1 Continuing Education Unit (CEU) = 1 Professional Development Hour (PDH) = 1 Learning Unit (LU). CLT has been recently incorporated in AWC's National Design Specification® (NDS®) for Wood Construction 2015 as well as ICC’s 2015 International Building Code (IBC). One of Wood’s greatest strengths is engineering expertise. Online Degrees and Mastertrack™ Certificates on Coursera provide the opportunity to earn university credit. This webinar will provide an overview of DCA 6 along with its Commentary and include several examples showing application of the deck guide. This webinar will provide an overview of DCA 6 along with its Commentary and Appendices and include several examples showing application of the deck guide. Identify code acceptance of mass timber products. I do recommend to have this course in order to get the basic concept of wood science and its use as a building material. September 28, 2002. Graduates of engineering degrees are in high demand across the globe, with developing and developed nations alike calling out for highly qualified specialists to keep their economies growing. The presentation will include an overview of the manufacturing of glued engineered wood products and the applicable code-referenced standards. Analyze wood- and gypsum-sheathed diaphragms using prescriptive and engineered procedures. This presentation will provide background and examples for calculation of these forces which will enable designers and code officials to quickly determine gravity design loads for projects. The International Code Council’s (ICC) International Building Code (IBC) Chapter 17 is titled Structural Tests and Special Inspections. The standard five-year MEng is also available for the three Mechanical Engineering courses. This course will provide a brief overview of code and standards development to give context to current building code allowances and design procedures as well as future code pursuits. There are several design tools and standards to assist engineers, architects, and building officials with the design of shear walls. Included in this course is information on the application and advantages of: This course is an introduction to the ever-growing family of traditional and engineered wood products (EWP) that are used for structural framing members in both residential and commercial construction. Thank you for sharing that knowledge. Packing List. Become familiar with the decay and termite hazards included in risk assessment for wood products. Reset deadlines in accordance to your schedule. Discuss application of NDS design provisions for beams, columns, connections, and calculating design values. wood products. World-class faculty are exploring everything from pulsars to nanoscale technology. Be familiar with the significant changes between the 2012 and 2015 WFCM. Utilize the example deflection calculation in future design work as a model for their own calculations. The WFCM prescriptive method will is used to illustrate the magnitude and applied location for loads applicable to low-rise wood frame construction. Wood handbook--Wood as an engineering material. Heavy timber construction (Type IV in the International Building Code) is one of the oldest building types used in the United States. This course will feature techniques for designing connections for wood members utilizing AWC's 2015 National Design Specification® (NDS®) for Wood Construction and Technical Report 12 - General Dowel Equations for Calculating Lateral Connection Values (TR12). Accordingly, a number of full-scale compartments constructed of mass timber building elements and furnished with real furniture and contents were fire tested. Please take note that this is determined according to their employability rate and approval by the Council for the Regulation of Engineering in Nigeria (COREN). - identify the ways in which wood's properties can lead to its efficient and sustainable use. The use of CLT alone or in combination with other mass timber elements, such as glued laminated timber (GLT), nail laminated timber (NLT), or structural composite lumber (SCL), is becoming more common in buildings complying with the current code. Be familiar with relevant new provisions for connection design. New provisions were introduced for CLT connection design in the 2015 edition of the NDS and clarified in the 2018 edition. Engineering courses are a key focus of the timber industry’s educational program, with the aim of assisting structural lecturers to teach the concepts of timber engineering, and materials lecturers to present the benefits of wood. Visit the Learner Help Center. Included will be design examples for calculating fire-resistance for exposed wood members and the component additive method for assemblies. We have the in-house capability and experience to be involved in engineering from concept studies and pre-front-end engineering design (pre-FEED) activities through detailed engineering that sets the stage for execution excellence. Understand the proposed code change that addresses the performance requirements for cross laminated timber, and state its impact on mass timber construction. Able to locate and analyze content within the 2018 IBC wood provisions. Learn about EPDs developed by the American Wood Council (AWC) and Canadian Wood Council (CWC) and how to use them in green building codes. Wood-frame shear wall and diaphragm code issues are discussed including deflection equations, detailing requirements, and limitations on the use of wood in seismic design. Locate the fundamental IBC structural provisions for wood design and identify the IBC-referenced wood design standards. Owen Sound : ON: Mohawk College Woodworking Courses: Stoney Creek: ON: Algonquin College Woodworking Techniques: Ottawa: ON: Rosewood Studio 6 and 12 week progames and 1 to 6 day courses from leading North American furniture makers. Originally this course was given as a series of six online webinars and have now been adapted as a self-paced online learning course. Be knowledgeable of the basic requirements for a, Understand material requirements for use in a, Be aware of related standards required to design a. Be familiar with the significant changes between the 2008 and 2015 SDPWS. Restate goals and objectives of work groups and committees interested in mass tall timber construction. that can be used to search for more information regarding the change on the ICC website (iccsafe.org), Recognize advantages and disadvantages to various wood framing methods. Using Design of Wood Frame Buildings for High Wind, Snow, and Seismic Loads (2012 WFCM Workbook) this hands-on session provides a design example, helpful checklist, and background information for design of a wood-frame structure in accordance with the 2012 WFCM. Become familiar with current wood-based construction systems and techniques. Commercial and multifamily buildings are often built using light wood frame construction but sometimes another material is used for the shaft construction. After completing foundational courses in math, physics, and chemistry in first year, you’ll begin developing your knowledge of wood and material science and primary and secondary wood processing technologies. Yes, Coursera provides financial aid to learners who cannot afford the fee. A range of structural elements are included such as sawn lumber, structural glued laminated timber, wood structural panel sheathing, I-joists, and trusses. Exceptional engineering careers. Discuss allowable building size calculators and review their capabilities in analyzing single- and multi-occupancy buildings. Foundation systems utilizing elevated piles will be emphasized. 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. AWC's 2012 National Design Specification (NDS) for Wood Construction is referenced in US building codes and used to design wood structures worldwide. Explore how wood was used to enhance experience of building occupants. Identify solutions that other countries are implementing for mid-rise wood construction. Those helped tremendously. Identify the reference standards for the use of wood in a structural application. 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. This requires a thorough understanding of fire and building code provisions as well as the proper use of NFPA 241, Standard for Safeguarding Construction, Alteration, and Demolition Operations and NFPA 1620, Standard for Pre-Incident Planning. The new Timber Engineering Course has been created and presented by Jon Shanks and Geoff Boughton, both recognised professionals in their field of engineering. Discuss significant changes between the 2008 and 2015 SDPWS. Examples from several interesting projects will be presented including buildings under renovation and waterfront structures such as piers. Identify the characteristics of a panelized wood roof diaphragm. The article also includes a design example of a loadbearing tall wood stud wall design. Unique characteristics for each product are highlighted and relevant production and design standards for products are included as well as information related to qualifying the sustainable characteristics of these products using Environmental Product Declarations. Building codes stipulate minimum performance requirements regarding noise transmission through common interior walls and floor/ceiling assemblies that separate a dwelling unit from either a public area or an adjacent dwelling unit. Summarize the findings of the 5 fire tests conducted at the U.S. Bureau of Alcohol, Tobacco, Firearms and Explosives Fire Research Laboratory. Material properties for fasteners as well as connected materials including wood-to-wood, wood-to-steel, and wood-to-concrete will be discussed. Be aware of code and standard updates relevant to CLT and other mass timber elements, Be aware of notable mass timber structures around the globe, Learn about current tall wood building projects and resources. Be able to recommend fastening guidelines for wood to steel, wood to concrete, and wood to wood connections. Today, UK engineering graduates are as high in demand as ever, thanks to our world-class universities and world-famous culture of innovation. Understand the differences between segmented and perforated shear wall design. However, AWC DCA 6, which has been recently updated, includes guidance on provisions for the 2015 International Residential Code (IRC) pertaining to single level residential wood deck construction. Participants will learn about changes in the 2018 NDS to address increased wind loads and gain an overview of the standard. construction. Become familiar with specific items examined during a special inspection. Specific design guidance includes convenient span tables for joists and beams and charts of post sizing limitations and connection methods. It addresses a range of topics such as roadwork safety, rigging, fall arrest, excavation safety etc. Utilize an introduction to CLT as incorporated in the. The content begins with wood basics then progresses through engineering design to … For over 80 years now, Rosenheim’s wood technology specialists have been climbing the ladder of success and enjoy a broad range of career opportunities. However, light wood frame or mass timber construction may be used for the shaft walls to provide a code-compliant solution which can reduce cost and shorten construction schedule. This also means that you will not be able to purchase a Certificate experience. This article will provide an introduction to historic wood structures and modern innovative wood structures. Recently, the international architecture, engineering, and construction industries have developed renewed interest in specifying and using wood in multi-storey building designs mainly due to its aesthetics, versatility, environmental benefits and cost-effectiveness. Apply model codes and standards that pertain to safety precautions during construction. This course will outline several resources available for shear wall design and compare design results. Identify and detail high capacity shear walls and diaphragms. For more information on B.C. Understand application of the six yield limit equations for dowel-type connection design, Know when to utilize applicable adjustment factors for common bolted connections, Apply spacing, end, and edge distance requirements for wood-to-wood bolted connections, Be able to determine local stresses in fastener groups, Describe the application of the six yield limit equations for dowel-type connection design, Discuss when to utilize applicable adjustment factors for common bolted connections, Illustrate the spacing, end, and edge distance requirements for wood-to-wood bolted connections, Calculate the local stresses in fastener groups, Recognize relevant NDS provisions for designing CLT connections, Utilize requirements for using non-standard fasteners in conjunction with the 2018 IBC, Calculate fastener capacity in shear and withdrawal for CLT connections, Describe fire protection requirements for CLT connections. by CZ Feb 11, 2020. Understand how roof, floor, and wall assemblies and connections interact as part of a wind uplift and lateral force resisting system. Discover how to design CLT floors to achieve serviceability goals related to deflection and creep. Understand the limitations of wood shear walls and diaphragms. 6 – Prescriptive Residential Wood Deck Construction Guide (DCA 6) which may be downloaded from the AWC website here http://awc.org/codes-standards/publications/dca6 Requirements of the 2012 International Residential Code and other provisions are reflected in this document. Deck and balcony collapses injure occupants every year. The vertical and lateral load paths of conventional residential decks are addressed in the 2018 International Residential Code. Course Summary. Identify procedures and methods of pre-incident planning from the moment a building is contemplated. Information gathered from years of frequently asked questions related to building code provisions for decks, deck construction details, and AWC’s Design for Code Acceptance 6 (DCA6) – Prescriptive Residential Wood Deck Construction Guide will be presented. Throughout the world there are great examples of historic wood structures that have withstood the test of time and exposure to various climates. 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. Apply model codes and standards that pertain to safety precautions during construction and pre-incident planning. This performance is determined through testing. Be familiar with the resources that are available to obtain more information. Become familiar with the Prescriptive Residential Wood Deck Construction Guide (DCA6). Learn about the engineering basis of prescriptive tables used to size wood members and connections to resist high wind, seismic, and snow loads. Mass timber fire resistance ratings when fully exposed or provided with some degree of noncombustible protection is addressed based on current and proposed future code provisions. This presentation will provide background and examples for calculation of these forces which will enable designers and code officials to quickly determine wind design loads for projects. This presentation will provide an overview of changes in the 2015 NDS and SDPWS relative to the previous editions. Civil Engineering Materials Laboratory connects students to the measurements and techniques used in civil engineering. Apply for it by clicking on the Financial Aid link beneath the "Enroll" button on the left. In addition, new options for wall/floor intersection details for Type III construction will be explained, as well as using the DCA-3 assemblies for complying with code requirements for sound transmission. This article will provide an overview of the significant changes in the 2015 WFCM relative to the previous 2012 edition. This presentation will provide background and examples for calculation of forces on headers which will enable designers and code officials to quickly determine design loads. Be able to understand load path basics and how it applies to wood structural design. Be able to understand overlooked wood connection engineering issues. Equivalencies: 1.5 Hours of Instruction = 0.15 Continuing Education Units (CEU) = 1.5 Professional Development Hours (PDH)=1.5 Learning Units (LU). Understand how to analyze wall framing as part of the MWFRS per ASCE 7-10, Understand why wall framing is analyzed using out of plane C&C wind pressures independent of gravity loads, Be familiar with various ASCE 7-10 ASD load combinations used for bearing walls, Be knowledgeable of standards including the 2015 NDS, 2015 WFCM, and ASCE 7-10 used for design of tall walls. This presentation will focus on the prescriptive compliance paths for meeting the energy requirements of the 2012 International Residential Code (IRC) and the 2012 International Energy Conservation Code (IECC). Where noted, the country's accreditation board standard has been used and cited. Returning User. Engineered approaches such as those outlined in AWC's 2015 Special Design Provisions for Wind and Seismic (SDPWS) typically result in more efficient designs. wood buildings allowed under the 2015 IBC. Understanding issues that may occur if not properly designed and detailed, will help designers mitigate potential issues. Home; All Subjects; Engineering; Enroll in an online introduction to engineering course or explore specific areas such as structural, mechanical, electrical, software or aeronautical engineering. Identify ASCE 7-10 and SDPWS for seismic design of wood structures. Describe and analyze wood-based connection engineering issues. In short, wood is a far more diverse, green, and renewable resource than you might have imagined. It is good course regarding wood and its uses. This presentation uses the 2012 Wood Frame Construction Manual (WFCM) as the basis for describing how wind loads are developed from the wind speeds shown in ASCE 7-10 Minimum Design Loads for Buildings and Other Structures. These courses are free to explore and learn. This course will outline several resources available for shear wall design and compare design results. You’ll be prompted to complete an application and will be notified if you are approved. Equivalencies: 1.0 Hours of Instruction = 0.1 Continuing Education Units (CEU) = 1 Professional Development Hours (PDH)=1 Learning Units (LU). Discuss deck load path code requirements and how to satisfy them, Recognize proper design and detailing of significant components, Identify best construction practices outlined in DCA6, Indicate relevant analysis requirements and code updates. It will also provide an overview of construction trends worldwide, to reduce cost, save on construction time, minimize shrinkage, and reduce the carbon footprint of mid-rise residential buildings. Describe special inspection requirements for large high load diaphragms. This article covers a brief history of heavy timber construction and the progress of the TWB that researched tall mass timber construction and performed testing to help inform code change recommendations which ensure life safety and property protection in tall mass timber buildings. It will also address establishing fire resistance for wood assemblies and heavy timber; special provisions for pedestal buildings; criteria for finishes, appendages, and other wood features; the scoping of referenced wood design standards; an overview of structural provisions in Chapter 23; and requirements for precautions during construction. Most of the changes in the NDS are a result of the adoption of the ASCE/SEI Standard 7-16 Minimum Design Loads and Associated Criteria for Buildings and Other Structures which includes increased wind loads. Recently, some designers have chosen to forego concrete altogether and build the podium in wood—further decreasing their costs while speeding construction and creating less massive, more uniform buildings. Understand how testing is used to assess the added fire resistance time associated with non-combustible materials applied to mass timber elements in standardized E119 tests and be able to evaluate the results of those tests. Identify engineering requirements and solutions in the. Based on these proposals, the 2021 IBC will include three new construction types—Type IV-A, IV-B and IV-C—allowing the use of mass timber or noncombustible materials. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. Equivalencies: 2.0 Hour of Instruction = 0.2 Continuing Education Units (CEU) = 2.0 Professional Development Hours (PDH) = 2.0 Learning Units (LU). Research examples of existing mass timber projects in the US. Participants will learn about changes in the 2012 NDS and Supplement relative to previous editions and gain an overview of the standard. The TWB developed its own test scenario(s) to substantiate any code change proposals (testing was carried out at ATF labs); and worked to develop a comprehensive set of technically-substantiated code changes for consideration during the 2018 Group A code development process. Describe the state of the wood products market and how you fit within its framework, Summarize the various types of mass timber products available and the research conducted to make them viable solutions, Determine why you should ask for wood in your next building construction project and the benefits of doing so, Discuss the role that forests have in sustainable buildings. Participants will compare the effects of different opening sizes, full-height pier sizes, and their relationships to the three industry shear wall approaches by illustrating use of the segmented, perforated, and FTAO methods. Using plans from a 2-story residence, participants prescriptively design the structure to resist high wind, seismic, and typical residential gravity loads. Part 2 will focus on the roof story design including gable-end wall framing, roof and ceiling framing and sheathing, and connections. 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. Mid-rise podium construction, with multiple stories of wood framing over a concrete first story, has been popular for many years as a way to take advantage of wood's cost effectiveness for the superstructure while maintaining a more traditional construction type below. Engineering/Commerce. Become familiar with a number of technology advances and standards related to nail-laminated timber, glued-laminated timber and cross-laminated timber. Recommendations for control of moisture and protection against decay and insect infestations are contained in AWC's Design of Wood Frame Structures for Permanence, WCD No. Identify vertical and lateral load paths of conventional residential decks, Identifying the minimum footing size and materials per 2018 IRC, Determining appropriate beams and joist span lengths using IRC provisions, Determining lateral connection options for the deck to existing dwelling based on IRC requirements. Topics will include building size and height alternatives in from the 2015 International Building Code and an introduction to free calculators and other resources that speed and simplify the process. and is delivered in a variety of fashions such as guest speakers, workshops, on-site visits etc. Examples of various mass timber buildings around the world will be provided and potential future code provisions relating to mass timber will also be discussed. Recognize the unique fire resistive characteristics of mass timber as it influences the use of wood in building construction. The Department of Wood Science was formed in 1982 as one of the three departments including Forest and Conservation Sciences and Forest Resources Management that comprise the Faculty of Forestry at the University of British Columbia. It is estimated that over 40 million decks in the US are more than 20 years old, meaning they were constructed before today’s building codes and established best practices. 121: 188-194. AWC's 2018 National Design Specification® (NDS®) for Wood Construction is referenced in US building codes A. Hemmati, D. H. Wood, R. J. Martinuzzi (2018) On simulating the flow past a normal thin flat plate, Journal of Wind Engineering & Industrial Aerodynamics. There are examples of wood buildings that have lasted for hundreds of years, while others require repair in much less time. 6 CP Wood Chemistry 6 CP Physics 6 CP Wood Anatomy and Productive Forestry 10 CP Product Design 6 CP Fundamentals of Programming 6 … They also must take Introduction to Business Skills (SGMA 217) in place of Oral and Written Communication (COMS 363). Be aware of significant changes between the 2008 and 2015 SDPWS. Understand reasons for the changes to the IBC and the wood design standards. 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. Understand the application of NDS Chapter 16 which can be utilized to design up to 2-hours of fire-resistance for exposed wood members. This course provides an overview of the latest changes to residential mid-rise construction provisions in the International Building Code (IBC) and AWC's National Design Specification® (NDS®) for Wood Construction and Special Design Provisions for Wind and Seismic (SDPWS). Care for those around you. Become familiar with options available for protection of wood products. Be aware of the updated language relating to glued laminated timber (glulam) and new glulam adjustment factors. Identify building size and use parameters for wood as the primary structural elements. This article provides an overview of the significant changes in the 2012 WFCM relative to the previous 2001 edition. Mid-ply Shear Walls - a technique for increased shear capacity. This has led to code change proposals for the 2021 IBC, expanding Type IV construction for tall “mass timber” buildings. Be able to identify research and correctly specify glued-laminated beams appropriately on their projects. Be able to identify the similarities and differences with respect to ASD, design values, and behavioral equations. Equivalencies: 1.5 Hour of Instruction = 0.15 Continuing Education Units (CEU) = 1.5 Professional Development Hours (PDH) = 1.5 Learning Units (LU). Multiple approaches to calculating capacity will be discussed, including tabulated references, calculation-based techniques, and computer program solutions (including WoodWorks® Connections software). List some of the challenges and possible resolutions to building bridges and boardwalks with wood. Understand how the SFM standard provides a way for combustible materials to comply with the provisions of the WUI code. Identify minimum construction detailing requirements. This presentation will not address the use of model codes and standards once a building has received a certificate of occupancy. Civil Engineering Materials Laboratory connects students to the measurements and techniques used in civil engineering. APA’s new, comprehensive training series includes six “back to basics” modules that cover key topics related to I-joists, Rim Board®, laminated veneer lumber, and glulam. considered. The 2018 International Building Code (IBC) specifies that structures using wood-framed shear walls and diaphragms to resist wind, seismic and other lateral loads shall be designed and constructed in accordance with AWC’s 2015 Special Design Provisions for Wind and Seismic (SDPWS). Connection design philosophy and behavior, an overview of 2015 NDS provisions related to bolt design including local stresses in fastener groups, and a detailed design example are included. Able to explain and use fire protection requirements for wood within the IBC and IRC. Changes from previous codes and standards will also be discussed and additional resources will be referenced. Diagnose common challenges faced when designing and building residential wood decks and how to overcome them. Understand the ICC Ad Hoc Committee's code change proposal for the 2021 International Building Code (IBC) that could allow taller wood buildings. This is a list of tertiary educational institutions around the world offering bachelor's, master's or doctoral degrees in forestry or related fields. 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. Packing List. Also, discussed will be the advantages mass timber brings to construction and buildings, and where the wood comes from as well as it’s sustainability. The 2012 Wood Frame Construction Manual (WFCM) will be used as the basis for loads and load paths that must be determined in design of low-rise wood frame construction. Apply approved methods and alternatives for establishing the fire-resistance of wood building elements. Products covered are lumber, glued-laminated timber (glulam), cross-laminated timber, structural composite lumber, wood I-joists, and wood structural panels. Recognize the sources of fire-resistance ratings and how they are used in the context of building codes. During the work of the ICC Tall Wood Building Ad Hoc Committee (TWB), special test programs were developed and performed with the input of the fire service. This presentation will provide an overview of the significant changes in the 2018 WFCM relative to the previous 2015 edition. PCS/TDY Student Lodging. Rosenheim’s practical course in wood technology is as unique as the material itself. This presentation will include code requirements, compliance options, and nuances related to fire-resistance rated assemblies, fire design of exposed wood members, and flame-spread performance of wood products. Prescriptive approaches such as those outlined in AWC's 2015 Wood Frame Construction Manual (WFCM) for One- and Two-Family Dwellings and 2015 WFCM High Wind Guides tend to provide conservative results. Have a technical understanding of the causes of wood deterioration in buildings including decay fungi and insects that attack wood; Understand the mechanisms of how deterioration organisms degrade wood products and how prevent it; Understand how architectural details can contribute to or minimize wood deterioration in historic and modern buildings; Understand decay resistant wood species and preservative treatments that are currently available. University of Bath. Builders and building officials will also benefit from the information provided. Be able to determine site-specific wind speeds using ASCE 7-10, Understand how wind speeds are used for calculating Main Wind Force Resisting System (MWFRS) and Components and Cladding (C&C) loads, Understand how to convert from ASCE 7-10 back to ASCE 7-05 wind speeds, Understand how to develop loads from wind speeds, Be able to describe how loads are distributed to buildings both vertically and horizontally, Be able to describe several different load paths that are critical to improved building performance during high winds, Be able to recognize structural configurations or significant loading in building framing that might present construction challenges to framing continuous load paths, Be able to recognize construction defects that could potentially fail under high wind loads, Be able to describe various methods for making connections, Understand how connections are expected to perform, Understand various locations in a load path that require sound connections, Understand what type of connections provide continuity to the foundation, Understand the concepts of load path for wind pressure applied to buildings, Understand how loads are distributed into foundations, Be able to describe various foundation systems best-suited for wind and flood loads, Understand the most likely foundation failures attributable to wind only. Compare the difference between the 3-term and 4-term deflection equation in the 2015 SDPWS. A historical perspective of how past seismic experience with this building type has influenced today's building code provides a good perspective for the participant to apply the current provisions of ASCE 7-10, 2012 NDS and 2008 SDPWS. pleasing projects. Determining the allowable building code construction type based on for a building’s occupancy and size is fundamental to proper design. Rep. FPL-GTR-113. The Department offers both undergraduate and graduate programs leading to BSc, and MSc, MASc and PhD degrees, respectively. Elements and subassemblies which receive loads both directly and as part of the main wind force resisting system, such as wall studs, must be checked independently for MWFRS loads and C&C loads. This course is intended to increase student awareness of safety issues relevant to the Building and Civil Engineering Technology industry. The primary focus of this program is on large buildings during construction. Evaluate a prescriptive and engineered design methodology for perforated wood shear walls. Become familiar with a number of technology advances and standards related to glued-laminated beams. Included will be a discussion on the flexibility offered in the codes and what design aids are available to make compliance easier, including DCA 7 – Meeting Residential Energy Requirements with Wood-Frame Construction – 2012 IECC Version and a complementary Energy UA calculator. Recite some of the code changes for Structural provisions in the built environment such as decks, Results from several interesting projects will be presented—including those from the inspection of USS Constitution (Old Ironsides). Search Courses >> “As a practicing engineer, RedVector provides me a convenient way to get necessary credits.” ~ James M., RedVector Continuing Education User . Accompanying discussion of each change is the ICC code change tracking number [bracketed] The 2018 International Building Code (IBC) published by the International Code Council and the National Design Specification® (NDS) for Wood Construction published by the American Wood Council are both now available. Structural Insulated Panels (SIPs) - a building system that can now be used in high seismic regions. Be able to analyze format and content within the 2012 WFCM. Identify methods specified by the code for establishing fire resistance of wood assemblies and elements, and fire precautions during construction. Describe deck construction including wood members and fasteners. Become familiar with the range of traditional and engineered wood products available for structural design. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. This webinar is intended for practicing engineers and undergraduate and graduate engineering students. To start an available course, click on an icon representing the format you prefer next to the course number (the course numbering does not imply prerequisites). Be able to analyze format and content within the 2015 SDPWS. Special inspection is not a new term to the building code and is included in the 2012 and 2015 versions of International Code Council's (ICC) International Building Code (IBC), Chapter 17 which is titled Structural Tests and Special Inspections. Learn about Environmental Product Declarations (EPD) and which wood products have EPDs available. 1.5 Hours of Education Credit will be available for this course. The WFCM contains tabulated prescriptive and engineered design provisions based on ASCE 7-10 Minimum Design Loads for Buildings and Other Structures and covers connections, wall systems, floor systems, and roof systems. Understand limitations of previous methods and the new prescriptive design tools, Describe the progression of provisions over time, leading up to the, Recognize the requirements for wood structural panels designed to resist combined shear and uplift from wind, Interpret Tables 4.4.1 and 4.4.2 for allowable stress design (ASD) and load and resistance factor design (LRFD) adjustment factors, Recognize requirements for wood structural panels designed to resist combined shear and uplift from wind, Utilize the limitations of engineered and prescriptive provisions, Describe the progression of changes over time, Summarize the requirements for installation of wood structural panel systems to resist simultaneous wind shear and uplift loads. The intent of this presentation is to provide generic guidelines as to how to use model codes and standards to reduce fire loss. Learn various approaches in the NDS for calculating fastener capacity. Customers rely on our engineering design experience and lessons learned. Understand the opportunities and challenges for wood use in wood podiums and be able to use that knowledge to specify this type of system in the future. This program provides information on best practices to assist the Fire Service charged with responsibilities for fire and life safety on a construction site. The TWB has also developed a set of Group B proposals, submitted in January 2019. Based on the popular Code Conforming Wood Design (CCWD), a joint publication of the American Wood Council (AWC) and the International Code Council (ICC), this presentation concisely summarizes the 2018 International Building Code (IBC) for commercial and multi-family residential construction. The WFCM contains tabulated prescriptive and engineered design provisions based on ASCE 7-10 Minimum Design Loads for Buildings and Other Structures and covers connections, wall systems, floor systems, and roof systems. Learn how fire resistance ratings of wood assemblies and mass timber are calculated. This presentation will cover the available U.S. design standards and methods being used by engineers on these projects. Describe and evaluate R-values and U-factors related to wood construction and understand how to calculate them; Recognize and evaluate the three prescriptive compliance energy paths recognized by the code and understand how to use them in single-family design; Research and utilize the allowable trade-offs for residential energy requirements related to wood construction in the IRC and IECC; Learn when a special inspection may be required on a structure. engineering course that incorporates design-build activities into entrepreneurial and business contexts, thereby providing relevance to foundational math skills and science practices while integrating problem solving and cutting-edge technology. Chapter 7A of the CBC applies to new residential and non-residential construction. Familiar with the significant changes between the 2015 and 2018 IBC wood provisions. This free online Electrical Engineering course will familiarise you with the basics of electrical technology and safety procedures required to work with electricity. Discuss design and resilience of wood components subject to wind and gravity loads. Understand how to use the appendix to this article to see specific changes in the 2018 IBC/IEBC, Comprehend where to find additional information regarding the 2018 IBC/IEBC. Per guidance from MSCOE CG General Order #3 Students are tested at the Inprocessing Center and once cleared are given permission to attend class. Be able to discuss the impact of changes in the BC Building Code, combined with the BC Wood First Act. Describe the free design aids that are available from AWC and utilize them for designing residential wood. ECCC-RC is executing Phase 1 and 3 resident courses at Fort Leonard Wood, MO. Consider the relevant structural design properties of CLT for floor and roof applications. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. This option lets you see all course materials, submit required assessments, and get a final grade. Topics will include connection design philosophy and behavior, an overview of common fastener types, changes in the 2015 NDS related to cross-laminated timber, and design examples per TR12. This course will introduce an overview of a variety of current and new wood products and techniques. Recognize how the new types of construction compare with existing types of construction in the International Building Code and specify the inherent differences and conservative approaches the new types have. Identify changes to the 2021 IBC code regarding mass timber buildings heights and areas permitted in construction. This presentation provides an overview of the new American Wood Council (AWC) empirical model which may be used for analysis of wood-frame floor/ceiling assemblies to estimate the code-regulated sound transmission parameters. Often selected for aesthetic reasons or its unparalleled design flexibility, glulam also offers superior structural performance combined with long term durability. List when a special inspection may be required on a structure. Recognize and apply appropriate code changes as outlined and delineated in tables within this article. Equivalencies: 1.5 Hour of Instruction = 0.15 Continuing Education Unit (CEU) = 1.5 Professional Development Hour (PDH) = 1.5 Learning Unit (LU). Equivalencies: 2.0 Hours of Instruction = 0.2 Continuing Education Units (CEU) = 2 Professional Development Hours (PDH)=2 Learning Units (LU). Structural and fire protection characteristics of NLT, GLT and CLT will be discussed as well as IBC code provisions that allow their specification in both residential and commercial applications for a wide variety of occupancies. Be knowledgeable about preservative treated wood and naturally durable species, grading issues, and tips on preventing moisture-related insect and fungal attack. Identify the changes for designing wood members exposed to fire and utilize it to predict the fire While in most aspects the course follows standard introductory mechanics courses for engineers, special attention is paid to elasticity and strength in cellular and anisotopic materials like solid wood and bio-based composites. Be familiar with the design approaches outlined in the 2015 WFCM. This webinar will be a continuation of the Loads webinar and use the loads developed previously to illustrate the importance of load path continuity in buildings. The American Wood Council’s (AWC) National Design Specification® (NDS®) for Wood Construction and Special Design Provisions for Wind and Seismic (SDPWS) are documents referenced in US building codes and used to design wood structures worldwide. Identify building code issues which are leading to code changes. It has been used for over a decade in other parts of the world such as Europe and Australia and has recently made its way into North America. Changes to the 2021 International Building Code allow for construction of mass timber buildings with larger heights and areas than is currently permitted in Types III, IV, and V construction. She will discuss the research and innovation process that are being done with this type of construction which helped bring mass timber into the 2021 building codes. Learn about engineering and more from the best universities and institutions around the world. Course Title MANAGEMENT Ms-166; Uploaded By javise. Be able to understand the 2015 SDPWS provisions for distribution of shear to shear walls in a line, Be familiar with the 2015 SDPWS provisions for shear distribution based on either i) deflection calculation, or ii) use of reduced shear strengths in accordance with the 2bs/h factor for wood structural panels, Be able to understand how distribution of shear provisions affects design shear capacity of shear walls in a line, Be familiar with new strength reductions for shear walls based on shear wall aspect ratio. This course was a wonderful experience in learning about forest - wood - timber - products. The addition of cross-laminated timber (CLT) to AWC’s National Design Specification® (NDS®) and upcoming changes in the 2021 International Building Code (IBC) has given engineers exciting design options never before available in US building codes and standards. Wood CEDengineering.com PDH courses offered under the Wood subcategory include Lumber Stress Grades and Design Properties, Determining Allowable Design Values for Wood, Use of Wood in Buildings and Bridges, and more. Additionally, an example showing calculation of mid-span deflection of a blocked wood structural panel diaphragm will be presented. 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. Participants are strongly encouraged to view the free recorded webinar on Significant Changes to the 2012 WFCM (STD315) prior to this webinar. Why do some wood structures last for centuries while others “just go away”? Course Information. If you only want to read and view the course content, you can audit the course for free. Discuss existing state of in-plane CLT shear wall design provisions. Frank conducted wood engineering research and taught wood design courses throughout his 26-year tenure at VT. Frank, along with his colleagues at VT and Washington State University, have developed and presented continuing education programs for more than 30-years. It is applicable in all fire hazard severity zones (FHSZ) in State Responsibility Areas and Very High Fire Hazard Severity Zones in Local Responsibility Areas. Be able to identify code acceptance of nail-laminated timber, glued-laminated timber and cross-laminated timber. Identify and understand the basic shear wall system to resist lateral seismic loads. Describe Code Conforming Wood Design, and highlight its use as a resource for designers when analyzing single-occupancy structures. The American Wood Council's Design for Code Acceptance No. Login; Register; Browse Courses; Home; Support; Login | Register. A growing list of exemplary projects - many of which employ the most modern design approaches to seismic and fire safety, acoustical and material performance - and subsequent studies and best practices, are leveling the playing field so that wood, concrete and steel can compete equally. It is a trip of understanding the wood and it's uses. 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. However, to ensure that Wood University properly records your continuing education units, and to help us effectively track and monitor visits to this online learning web site, you must register prior to beginning a course. Forest & Wood Products Australia (FWPA) builds the resources of WoodSolutions Campus with "Timber Engineering" – a new online course. Be aware of professional qualifications required to conduct code compliant special inspections. It will also address establishing fire resistance for wood assemblies and heavy timber; special provisions for pedestal buildings; criteria for finishes, appendages, and other wood features; the scoping of referenced wood design standards; an overview of structural provisions in Chapter 23; and requirements for precautions during construction.Participants may download a complimentary copy of the CCWD at: https://www.awc.org/pdf/building-codes/ccwd/CCWD_Complete_2018.pdf. The Wood Frame Construction Manual (WFCM) for One- and Two-Family Dwellings (ANSI/AWC WFCM-2015) is referenced in the 2015 International Building Code and 2015 International Residential Code. Be familiar with Technical Report 12 and provisions for connection design beyond NDS requirements. Cross-laminated timber (CLT) is among the products helping drive this trend. The changes were submitted to ICC in accordance with the January 8, 2018 deadline and will be considered during Committee Action Hearings from April 15 – 25, 2018. Become familiar with new wood-based construction systems and techniques. Be able to describe effects of moisture on wood member connections and implement proper detailing to mitigate issues that may occur. Recognize how cross-laminated timber and other glued engineered wood products are manufactured. The primary change to the 2015 NDS is incorporation of design provisions for cross-laminated timber (CLT). The Wood Technology Research Centre at the University of Canterbury was fully established at the end of 1996 as a means of information exchange among staff engaged in wood-related research, to facilitate the shared use of research facilities, enhance research programmes and to promote technology transfer to end users. Protection of wood frame structures to provide maximum service-life involves four methods of control, which can be handled by proper design and construction: (1) control moisture content of wood, (2) provide effective termite controls, (3) use of durable materials such as naturally durable or preservative treated wood, and (4) quality assurance. This presentation takes the mystery out of the 2012 International Building Code (IBC) parameters for wood in commercial non-residential and multi-family residential construction. Be able to identify and describe several examples of mid-rise wood-frame construction. Be familiar with building codes referencing the 2015 WFCM. Understand the purpose of the 2015 WFCM and its scope limitations. Learn what Life Cycle Assessment (LCA) is and how it is used to develop Environmental Product Declarations (EPD). Increasingly, wood framing is also being used in commercial and industrial buildings. 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