Describe the compartment fire test results and circumstances that led to the development of a full-scale room fire protocol for qualifying adhesives used to manufacturer cross-laminated timber. Several of the links were dead, but other than that, great information in a very easy to follow manner. Be able to analyze format and content within the 2015 SDPWS. Each example will include discussion of design value adjustment factors and load combinations. Connection detailing requirements and design examples will also be provided. Be familiar with reference design values from the, Be familiar with design value adjustment factors from the. Forest & Wood Products Australia (FWPA) builds the resources of WoodSolutions Campus with "Timber Engineering" – a new online course. Evaluate and describe the outcomes of the ATF tests and contrast those to the outcomes of the FPRF tests. The purpose is to reduce the risk of injuries and losses from fire. 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. Identify building size and use parameters for wood as the primary structural elements. Understand the purpose of the 2012 WFCM and its development process. Summarize the test protocols and associated pass/fail criteria established in PRG 320 for qualifying adhesives and evaluate their impact on mass timber construction. Reference to connector products available in the marketplace will be made without identifying particular manufacturers. Each example will include discussion of design value adjustment factors and load combinations. 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. This course will provide an overview of common questions and challenges with design and construction of residential wood decks. The International Building Code (IBC) requires that structures using wood-framed shear walls and diaphragms to resist wind and seismic lateral loads be designed and constructed in accordance with AWC's Special Design Provisions for Wind and Seismic (SDPWS). They are grouped by continent. Discuss significant changes between the 2008 and 2015 SDPWS. Design considerations related to the International Code Council's (ICC) International Building Code (IBC) and AWC's Special Design Provisions for Wind and Seismic (SDPWS) and the use of wood podiums such as durability, fire protection, sound transmission and seismic loads will be discussed. Learn what Life Cycle Assessment (LCA) is and how it is used to develop Environmental Product Declarations (EPD). 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. Consider the relevant structural design properties of CLT for floor and roof applications. 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). What are the latest trends of building codes and standards development related to mid-rise wood construction? Provisions contained in this document that are not included in the IRC are considered good practice recommendations. The course covers the complete design of wood buildings, except for the foundations. The course provides all newly commissioned Engineer Officers with the technical and tactical knowledge and skills that are essential to success as a platoon leader. The Wood products Engineering Department at the University of Ibadan on Academia.edu 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. Participants will learn about changes in the 2015 NDS and Supplement relative to previous editions and gain an overview of the standard. Understand the significant codes and standards related to mid-rise wood construction. Be familiar with 2015 SDPWS updates to referenced standards. 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. There are several design tools and standards to assist engineers, architects, and building officials with the design of shear walls. In your final year, you’ll focus on an area of interest with a major project. Abandoned and unprotected construction sites pose a risk to the community. Equivalencies: 1.0 Hour of Instruction = 0.1 Continuing Education Unit (CEU) = 1 Professional Development Hour (PDH) = 1 Learning Unit (LU). I do recommend to have this course in order to get the basic concept of wood science and its use as a building material. WOOD: Wood Products Processing : Faculty of Forestry: WRDS: Arts Studies in Writing : Faculty of Arts: WRIT * University Writing Centre Courses : Centre for Continuing Education: ZOOL: Zoology : Faculty of … A whole building LCA will be conducted using REVIT software. Be able to analyze individual components of the deflection equations to determine their magnitude of impact on total deflection. Equivalencies: 2.0 Hours of Instruction = 0.2 Continuing Education Units (CEU) = 2 Professional Development Hours (PDH) = 2 Learning Units (LU). The American Wood Council offers approved courses registered with the National Council of Structural Engineers Associations Diamond Review Program, the International Code Council Education Preferred Provider Program, and the American Institute of Architects. 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. This presentation will provide an overview of the significant changes to wood design and construction provisions relative to previous editions. Calculate wood-frame diaphragm deflection using the 2015 SDPWS. The course provides all newly commissioned Engineer Officers with the technical and tactical knowledge and skills that are essential to success as a platoon leader. AWC offers education through two avenues: independent eCourses and live presentations. process. It is good course regarding wood and its uses. Wood building elements are recognized for retaining their structural integrity despite the loss of fiber and cross-section due to charring. 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. Able to identify the similarities and differences with respect to design values, tabulated values, and behavioral equations. Invent creative solutions. 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. The course will explore designs that have evolved from historical approaches and developed as a result of modern technological advances in timber fabrication. AWC’s 2015 Special Design Provisions for Wind and Seismic (SDPWS) and 2018 Wood Frame Construction Manual (WFCM) which are referenced in the national building codes, both contain provisions for wood structural panel shear walls designed to resist shear and uplift forces simultaneously. Be aware of revised LRFD Format Conversion Factors (K. Able to understand the load and material resistance design process and how it applies to wood structural design. 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. Understand the CBC Chapter 7A WUI provisions as they relate to wood construction. Chapter 7A also references California State Fire Marshal (SFM) standard test methods that provide options for materials and assemblies to comply with the code. They also must take Introduction to Business Skills (SGMA 217) in place of Oral and Written Communication (COMS 363). wall subject to wind and gravity loads. Understand the differences between segmented and perforated shear wall design. State the fire resistance requirements for mass timber building elements. Today, UK engineering graduates are as high in demand as ever, thanks to our world-class universities and world-famous culture of innovation. Multiple approaches to calculating capacity will be discussed, including tabulated references, calculation-based techniques, and computer program solutions (including WoodWorks® Connections software). I am glad that I took this informative course. The Wood Frame Construction Manual (WFCM) for One- and Two-Family Dwellings (ANSI/AWC WFCM-2012) has been updated to the 2015 WFCM which is referenced in the 2015 International Building Code and 2015 International Residential Code. Understanding issues that may occur if not properly designed and detailed, will help designers mitigate potential issues. This presentation will provide an overview of fire design of mass timber building elements and assemblies, and protection of connections. Become familiar with the Prescriptive Residential Wood Deck Construction Guide (DCA6). Apply model codes and standards that pertain to safety precautions during construction and pre-incident planning. Identify code acceptance of mass timber products. Analyze individual components of the deflection equations to determine their magnitude of impact on total deflection. Apply special provisions for design of wood structures that involve compartmentalization and sprinkler systems. Materials and assemblies that can be evaluated using these SFM standards include exterior siding, windows, eaves and other horizontal projections and decking. With the inclusion of CLT in the 2015 International Building Code (IBC) and 2015 National Design Specification® (NDS®) for Wood Construction, curiosity is evolving throughout the construction industry to use CLT in projects. Using plans from a 2-story residence, participants prescriptively design the structure to resist high wind, seismic, and typical residential gravity loads. Learn about Environmental Product Declarations (EPD) and which wood products have EPDs available. Login; Register; Browse Courses; Home; Login. Be able to list the advantages of mid-rise light wood-frame construction. Care for those around you. Thank you for sharing that knowledge. 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. This also means that you will not be able to purchase a Certificate experience. This article provides and overview of the 2015 Code Conforming Wood Design (CCWD) document, Code requirements for fire safety during construction will also be reviewed. Wood handbook--Wood as an engineering material. 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. This article provides an overview of the significant changes in the 2012 WFCM relative to the previous 2001 edition. This course will provide an overview and comparison of the 3-term and 4-term deflection equations. The primary change to the 2015 NDS is incorporation of design provisions for cross-laminated timber (CLT). Unique characteristics for each product are highlighted and extensive examples of the use of these products in a wide range of building applications are presented. It was implemented in two phases, beginning in December, 2005. 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. 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. Understand the scope and limitations of DCA 6, Become familiar with the types of decks covered by DCA 6 and their differences, Become familiar with minimum sizing requirements for various deck structural elements, Understand the types of loads residential decks are designed to resist, Identify deck provision changes from the 2015 IRC and the corresponding DCA 6 along with a refresher on 2012 IRC provisions, Identify minimum prescriptive wood deck requirements, Describe deck construction including wood members and fasteners, Discuss provisions in DCA6 Commentary and provide other resources. Identify wind load increases in ASCE 7-16 that affect wood design and construction, Identify new fastener provisions developed to address increased wind loads, Design nails for withdrawal and head pull-through to resist new wind loads. For WFCM load calculations, Minimum Design Loads for Buildings and Other Structures (ASCE 7-10) is used. CCWD was produced in partnership with the Visit the Learner Help Center. This presentation provides an overview of the Force Transfer Around Openings (FTAO) shear wall design approach, recent research in this area, and a side-by-side comparison of design results between segmented, perforated, and FTAO design methods. Be knowledgeable about the use of these products through examples of a wide range of building applications. Student Information: Restricted Movement Guidelines Memo. Engineered approaches such as those outlined in AWC's 2015 Special Design Provisions for Wind and Seismic (SDPWS) typically result in more efficient designs. Determining the best option for a durable wood product can be confusing due to the wide array of options Due to minimal design information on elevated foundations in the building code, this webinar is intended to provide some design basics that may not be readily available. Identify best practices regarding housekeeping, hot work, equipment fueling, smoking, food preparation and other hazardous activities on construction sites. It is good course regarding wood and its uses. is a program of the Canadian Wood Council that supports a wood culture by connecting individuals, sharing best practices and celebrating innovative successes. Due to COVID-19, construction sites are being shut down all over the country. 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. Participants will investigate past and current methods for determining force transfer around openings for wood shear walls through discussion of the joint research project of APA – The Engineered Wood Association, the University of British Columbia (UBC), and the USDA Forest Products Laboratory (FPL). AWC's 2015 Special Design Provisions for Wind and Seismic (SDPWS), 2015 Wood Frame Construction Manual (WFCM), and 2015 WFCM High Wind Guides contain provisions for the design of perforated wood structural panel shear walls. Familiar with current wood connection design philosophy, behavior, and serviceability issues. Understand code requirements for flame spread performance of wood products. 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. These new types are based on the previous Heavy Timber construction type (renamed Type IV-HT) but with additional fire-resistance ratings and levels of required noncombustible protection. This article outlines changes to the IRC as they relate to wood There are several design tools and standards to assist engineers, architects, and building officials with the design of shear walls. Become familiar with the Prescriptive Residential Wood Deck Construction Guide (DCA6) and the significant changes that have been made. Increasingly, wood framing is also being used in commercial and industrial buildings. It is strongly encouraged to view the recorded webinar of STD350 - Significant Changes to the 2018 WFCM prior to this course. Similar to NLT and GLT, in addition to its structural capabilities, CLT is specified for aesthetic appeal, structural simplicity and speed of 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. 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. Davis College Division of Forestry & Natural Resources, Characteristics and Availability of Commercially Important Woods, Wood Structure & Moisture Content: Part B, Wood Structure & Moisture Content: Part C, Moisture Relations & Physical Properties of Wood, Drying & Control of Moisture Content & Dimensional Changes, A Rotten Shame. AWC's 2012 National Design Specification (NDS) for Wood Construction is referenced in US building codes and used to design wood structures worldwide. Health Sciences. Manufacturers, distributors, and builders are all reporting a critical need for training as they rebuild from the recession and hire new employees. 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. BEng (Hons) ... Wood is a global leader in the delivery of project, engineering and technical services to energy and industrial markets. Fueled by APA – The Engineered Wood Association's extensive resources, Wood University's goal is to expand your understanding of engineered wood products and applications through an easy-to-navigate web format. Be able to analyze format and content within the 2012 WFCM. Evaluate a prescriptive and engineered design methodology for perforated wood shear walls. This webinar is intended for practicing engineers and undergraduate and graduate engineering students. discusses options and strategies that designers and specifiers can use to choose the best solutions suited for Join us to learn about the important role of wood in human history, civilization, and our future. Many hazards can be addressed before they become an issue by adoption of best practices and rigorous code enforcement. Be able to discuss the impact of changes in the BC Building Code, combined with the BC Wood First Act. This presentation will provide an overview of changes in the 2015 NDS and SDPWS relative to the previous editions. - identify the ways in which wood's properties can lead to its efficient and sustainable use. Information on engineering with wood, properties of wood and designing with wood. 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. 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. The 2015 WFCM includes design information for wind and seismic loads and gravity loads including snow, roof live, floor live, and dead loads on buildings up to 3 stories. Learn the appropriate high wind, seismic, and snow loads to apply to residential structures based on code-referenced load standards. The 2018 International Residential Code (IRC) was approved by the International Code Council (ICC) during Identify the important characteristics of wood when used as a structural element; Understand assessment methods for in-service wood, including state-of-the-art nondestructive evaluation methods and equipment; Comprehend examples of evaluations from various types of structures including buildings, bridges, and historic wooden ships; Research state-of-the-art sources for information on assessment of in-service wood. Changes to the 2018 International Building Code (IBC) and 2018 International Existing Buildings Code (IEBC) were approved by the International Code Council (ICC) during their 2015/2016 code development cycle. 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. Part 4 will focus on the first-story design and include summation of loads from above and connections specific to foundations. Be familiar with changes in the 2015 WFCM and how they impact structural design. Specific design guidance includes convenient span tables for joists and beams and charts of post sizing limitations and connection methods. 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). Become familiar with relevant product standards and grade stamps associated with wood products. Discover how to design CLT floors to achieve serviceability goals related to deflection and vibration. Study of the growth and structure of wood and how these influence wood strength, durability, preservation, and fire protection. Innovative wood products such as CLT are leading to a resurgence in heavy timber (Type IV) design and construction. Apply model codes and standards that pertain to safety precautions during construction. This course was a wonderful experience in learning about forest - wood - timber - products. Equivalencies: 2.0 Hours of Instruction = 0.2 Continuing Education Units (CEU) = 2 Professional Development Hours (PDH)=2 Learning Units (LU). Examples from several interesting projects will be presented including buildings under renovation and waterfront structures such as piers. Do you have questions on deck design? Become familiar with a number of technology advances and standards related to glued-laminated beams. For those with limited wood design exposure, in need of a refresher for the PE/SE exam or simply seeking practical application of the provisions of the National Design Specification® (NDS®) for Wood Construction (ANSI/AWC NDS-2018), this presentation provides several design examples including beams, columns, and connection basics from the Structural Wood Design Examples, 2015/2018 Edition. (For educational institutions with forestry technician or professional certificate programs see: List of forestry technical schools This article provides background on special inspections for wood construction in addition to discussion on related topics such as prefabricated wood components, special inspections for lateral resistance, and structural observation as it pertains to the 2012 and 2015 IBC. Understand hold down design and special conditions that pertain to seismic hold downs. This preview shows page 12 - 14 out of 163 pages. Be familiar with the impact of combinations of loads of different durations on design of structural wood members. Be familiar with the significant changes between the 2008 and 2015 SDPWS. Changes from previous codes and standards will also be discussed and additional resources will be referenced. Summarize the code provisions relating to sound transmission, and how compliance with these code provisions may be demonstrated. PCS/TDY Student Lodging. The Department offers both undergraduate and graduate programs leading to BSc, and MSc, MASc and PhD degrees, respectively. Learn about the engineering basis of prescriptive tables used to size wood members and connections to resist high wind, seismic, and snow loads. Recognize how wood used as a structural and finish material contributes to key elements of occupant environment including indoor air quality, acoustic performance, and physical health. Identify minimum prescriptive wood deck requirements. The 2015 PWF, 2015 NDS, and 2015 SDPWS are all adopted by reference in the 2015 International Building Code and the 2015 International Residential Code. 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. Indicate detailing options that establish fire resistance continuity at framing intersections. To go from high school to Engineering at Alberta, you will need these five required senior-level subjects: English (English 30-1) Physics (Physics 30) Chemistry (Chem 30) Math (Math 30-1) Calculus (Math 31) Admission is competitive based on your average in these five subjects, and the average varies from year to year. Mid-ply Shear Walls - a technique for increased shear capacity. 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. Understand how the SFM standard provides a way for combustible materials to comply with the provisions of the WUI code. Discuss design and resilience of wood components subject to wind and gravity loads. Exceptional engineering careers. Reset deadlines in accordance to your schedule. As a Civil Engineering student, this course has been very helpful for me. Be familiar with relevant new provisions for connection design. Discuss the overall format and content within the 2015 NDS and 2015 SDPWS. 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. AWC's National Design Specification (NDS) for Wood Construction 2012 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. Familiar with design techniques for small and large wood members, panel products, and wood assemblies. Provisions contained in this document that are not included in the IRC are considered good practice recommendations. Cite reasons for growing in heavy timber construction. By the end of the course, learners will be able to: Welcome Letter. 6 CP Wood Chemistry 6 CP Physics 6 CP Wood Anatomy and Productive Forestry 10 CP Product Design 6 CP Fundamentals of … NLT and GLT has been adopted in the IBC and utilized throughout the world for several decades on a wide variety of buildings. 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. Apply approved methods and alternatives for establishing the fire-resistance of wood building elements. … Apply code provisions for the non-structural use of wood in buildings, such as for finishes, appendages, siding, and trim. This course discusses the growing acceptance of mid-rise light wood frame construction. This article will discuss the 2015 SDPWS and participants will learn about format of the SDPWS as well as how to apply design provisions to shear walls and diaphragms as well as changes from previous editions. Presented by timber engineering experts Jon Shanks and Geoff Boughton, the six modules offer engineers the opportunity to increase their knowledge so they can design and specify timber products with confidence. Using plans from a 2-story residence, participants prescriptively design the structure to resist high wind, seismic, and typical residential gravity loads. Special inspection provides a quality control measure intended to ensure that certain critical features are incorporated into a structure and are constructed properly. their 2015/2016 code development cycle. OVERALL RATING . Recite some of the code changes for Structural provisions in the built environment such as decks, Shear, uplift, and overturning loads are calculated for various building components. Increasingly, wood framing is also being used in commercial and industrial buildings. There is also an effort underway by the International Code Council (ICC) to recognize the use of mass timber elements in taller, combustible construction through the work of the ICC Tall Wood Ad Hoc Committee. 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. Part 1 will provide an overview of the 2-story example structure, loads to be resisted, and applicability limitations of the WFCM. Identify new fastener provisions developed to address increased wind loads. Understand the basic fire-resistance design procedures for wood frame assemblies and certain exposed wood members. CORRIM Fact Sheet: The Role of Forests, Management, and Forest Products on Carbon Mitigation. 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. Recognize the updated language relating to cross laminated timber and new CLT adjustment factors. Products covered are lumber, glued-laminated timber (glulam), cross-laminated timber, structural composite lumber, wood I-joists, and wood structural panels. CED Engineering offers PDH Courses Online in the categories of Wood and many others for PE renewal. Course Length 1 - 5 Hours 6 - 10 Hours 11 - 15 Hours 16 - 23 Hours 24 - 29 Hours 30+ … by AH Feb 14, 2018. Topics covered will include relevant International Residential Code (IRC) references, AWC’s Design for Code Acceptance 6 (DCA6) – Prescriptive Residential Deck Construction Guide, and other relevant documents. Those helped tremendously. 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. 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. This course will introduce an overview of a variety of current and new wood products and techniques. 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. Background and the resulting test protocol for CLT will be presented. Identify minimum material requirements for deck construction including wood members and fasteners. Attendees will learn to use checklists and detailing summaries to ensure a complete load path is prescriptively designed for the wall and floor systems. This presentation will provide an overview of the significant changes in the 2012 WFCM relative to the previous 2001 edition. Design of Wood Frame Buildings for High Wind, Snow, and Seismic Loads (2018 WFCM Workbook) includes a design example, helpful checklist, and background information for design of a wood-frame structure in accordance with the 2018 WFCM. This program provides information on best practices to assist the Fire Service charged with responsibilities for fire and life safety on a construction site. Be familiar with provisions of the 2015 WFCM and High Wind Guides and relevant references in the 2015 International Residential Code (IRC) and 2015 International Building Code. 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. wood products. More questions? Panelized Walls - a technique that is allowing wood construction to be constructed under a more controlled environment and decreasing the time of construction at the site. Attendees will learn to use prescriptive tables to size wood members and connections to resist high wind, seismic, and snow loads in the wall and floor systems. Further, they will be able to distinguish when and where non-combustible protection can be omitted. These courses are free to explore and learn. In senior years, you’ll learn how to analyze and optimize manufacturing operations. Discuss provisions in DCA6 commentary and provide other resources. light-frame construction. Equivalencies: 1 Hour of Instruction = 0.1 Continuing Education Unit (CEU) = 1 Professional Development Hour (PDH) = 1 Learning Unit (LU). This course will outline several resources available for shear wall design and compare design results. Understand remedies for improper design and construction. The standards that form the basis for the manufacture and development of design stresses for each product are discussed as well as design provisions included in AWC's National Design Specification (NDS) for Wood Construction. New test protocols were developed to ensure the adhesive used in cross-laminated timber (CLT) will not result in the re-kindling of uncharred wood at the bond line. Proper design of wood structures to resist high wind loads requires the correct use of wind load provisions and member design properties. 1999. Solutions for nailed, screwed, and bolted connections will be presented, along with specific information on calculating shear capacity as well as withdrawal capacity. Consider the structural design properties of CLT relevant to floor and roof applications. © 2020 Coursera Inc. All rights reserved. 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. Student Information: Restricted Movement Guidelines Memo. Receive updates on new online courses, live webinars and special events. Highlighted in this presentation will be the recently completed first mass timber building project on the campus of Clemson University, and plans for a second building. Understand the types of connections WoodWorks® software designs, how to use the software, how to view the design results and the connection drawing output. Discuss the special provisions of International Building Code Section 510 and give examples of their applications in common building configurations. Other topics that include demolition, alterations, renovations, repair and maintenance, as well as newly-completed buildings will be discussed. Identify engineering requirements and solutions in the. The primary function of any wood finish (paint, varnish, and stain, for example) is to protect the wood surface, help maintain a certain appearance, and provide a cleanable surface. Engineered approaches such as those outlined in AWC's Special Design Provisions for Wind and Seismic (SDPWS) typically result in more efficient designs. This webinar will provide an overview of DCA 6 along with its Commentary and include several examples showing application of the deck guide. This presentation will provide an overview of mass timber which includes any product currently permitted for use in Type IV (heavy timber) construction such as cross-laminated timber (CLT), structural composite lumber (SCL), glued laminated timber (glulam), mechanically laminated decking (aka nail-laminated timber, NLT), and large section sawn timbers. Through a combination of building code highlights, design examples, and resources, this presentation will focus on practical approaches that make determining construction type and associated allowable heights and areas, considerably easier. His PhD research was aimed at determining the load paths in wood light frame buildings under various stages of construction using a holistic design approach. Understand the significant changes between the 2005 and. Design a wood frame wood structural panel shear wall shear loads. This course will provide an overview and comparison of the 3-term and 4-term deflection equations. 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. Timber structures from ancient times far surpass current limitations set by many of the modern building codes worldwide. Describe the application of NDS Chapter 16 which can be utilized to design up to 2-hours of fire-resistance for exposed wood members. Recall some of the components of wood bridges and boardwalks. Start instantly and learn at your own schedule. 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. All course requirements for the BComm/BSc(Eng) combined program are specified in the University of Calgary Calendar program details. Learn the leading causes of fires in structures under construction. This is a list of tertiary educational institutions around the world offering bachelor's, master's or doctoral degrees in forestry or related fields. Identify building code issues which are leading to code changes. University of Bath. Wood, D.H. (2018) Application of extended vortex theory for blade element analysis of horizontal-axis wind turbines, Renewable Energy. Be aware of the updated language relating to glued laminated timber (glulam) and new glulam adjustment factors. Be familiar with the resources that are available to obtain more information. If you only want to read and view the course content, you can audit the course for free. 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. Give examples of code changes in Appendix A for fasteners and framing provisions. Understand how to design wood structural panels to resist wind loads. September 28, 2002. 1985 Phipps Conservatory Wood Repairs Need Redoing, Historic Glued-Laminated Arches Evaluated for Structural Quality. Identify recent major fires and their reported causes, Identify the I Code regulations and linkage to NFPA 241 for fire safety during building construction alteration and demolitions, Develop a model fire plan for buildings under construction, alteration or demolition, Identify existing building materials and construction industry resources for training, education and mitigation, Identify risks & hazards on constructions sites. Part 3 will focus on the second-story design including floor and wall framing and sheathing (e.g. Per guidance from MSCOE CG General Order #3 Students are tested at the Inprocessing Center and once cleared are given permission to attend class. Additionally, an example showing calculation of mid-span deflection of a blocked wood structural panel diaphragm will be presented. This course will outline several resources available for shear wall design and compare design results. Understand the ICC Ad Hoc Committee's code change proposal for the 2021 International Building Code (IBC) that could allow taller wood buildings. Results of these tests that were used by the ICC Tall Wood Building (TWB) Ad Hoc Committee in the development of proposed changes to the 2021 International Building Code will be presented. Various design illustrations and examples of high load wood structural panel diaphragms, wall anchorage, subdiaphragms, continuity cross ties, chords and collectors will be shown. 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. Modern-day technologies and product delivery methods have created a bold new opportunity for wood products, which in turn has given rise to a new category of structural framing systems using mass timber. 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. Participants will observe how the study examined internal forces generated during loading by reviewing full-scale wall test data as well as analytical modeling performed in determining statistical accuracy. Rated as the #2 public university at which to do research and a top-20 best place to work in academia, WVU is collaborating with international academic and research partners. Understand how to appropriately apply tables in both the WFCM and High Wind Guides to determine prescriptive minimums. Identify and design for local stresses in fastener groups. Renowned deck expert Mike Guertin joins AWC’s Matt Hunter, BCO, and Loren Ross, PE for a panel discussion on all things deck construction. Describe deck construction including wood members and fasteners. Identify the sources of structural provisions when using wood as the structural frame. The recent increase in demand for mass timber construction and the 2021 IBC inclusion of Type IVA, IVB and IV construction which will allow mass timber buildings to be built to 18 stories, has stimulated the design and code official community to ramp up its knowledge of this innovative construction. Rep. FPL-GTR-113. Equivalencies: 1 Hour of Instruction = 0.1 Continuing Education Units (CEU) = 1 Professional Development Hours (PDH) = 1 Learning Units (LU). 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). -identify wood's positive role in boosting the world economy and ability to lead to unexpected vocations. Define principles of fire design provisions for mass timber building elements and assemblies for new construction Types IV-A, IV-B, and IV-C. To access graded assignments and to earn a Certificate, you will need to purchase the Certificate experience, during or after your audit. Be able to understand Load Resistance Factor Design (LRFD) and how it applies to wood structural design. Founded in 1867, West Virginia University is moving toward a global destiny. Identify IBC requirements for fire precautions during construction. You can try a Free Trial instead, or apply for Financial Aid. Increasingly, new landmark projects and research are proving timber bridges are a viable alternative to bridges made of other materials. Discuss the code requirements that may apply to floor-wall intersections in Type III platform construction and examine example solutions from DCA3. Apply the reference design values from the NDS Supplement. Course topics include reliability engineering , hydraulic steel structure design, material science and more. considered. ENTER GRADES. 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. Obtain resources for complying with wood connection engineering issues. Review worldwide mass timber project examples built by Lendlease, comparing construction techniques and carbon advantages to traditional building methods. Recognize the unique fire resistive characteristics of mass timber as it influences the use of wood in building construction. The current editions, designated ANSI/AWC NDS-2015 and ANSI/AWC SDPWS-2015, were approved as ANSI American National Standards in 2014.

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