As the timber experts, we want to share our knowledge and expertise with the next generation of engineers and anyone looking to learn more about building with mass timber. Whether you’ve never heard of mass timber or you are just looking to further your understanding of the superior building material, we are here for you. Our Level 2 course will be conducted starting in April 2023. The course will be presented by Timber Restoration Services and hosted by WRD’s very own, award-winning Dr. Dan Tingley. Don’t miss out on this chance to gain a unique certificate in timber structures and design and become the go-to expert in your field. Register now for a first-hand look at the future of civil engineering!
Course Overview
The 32-hour course includes a virtual portion that takes place on Zoom and a second portion, which is a practical in-field section. The virtual section will include 8 blocks that will take place on April 20-21, 26-28, and May 3-5 from 3-7 pm. An optional, practical section will take place on May 8-10 and last an entire day. Each practical block will last approximately four hours and include a ten-minute break every 40 minutes and take place at QUT Banyo Pilot Plant University in Banyo, Queensland. You’ll leave the course with the knowledge of timber structure maintenance to extend longevity and reduce maintenance costs, and receive an Intermediate Timber Structure Maintenance Technician Certificate (with practical the option only).
Course Outcomes and Benefits
You will gain an in-depth understanding of the design and construction processes for timber structures, learn the skills to successfully build with this material, and gain access to cutting-edge research in the field. Through a combination of both hands-on and theoretical instruction, you will not only attend the course but also carry your knowledge into the future.
The Level 2 Timber Structures and Design Certification Course gives you the opportunity to gain the skills and knowledge of mass timber. With a comprehensive curriculum and experienced instructors, you will be ready to tackle the industry’s most complex projects.
Testimonials
I would let them know that the restoration of wooden bridges should now be the first consideration before any replacement is considered. New wood technologies should always be considered for any new construction as the cost benefits short and long term cannot be denied any longer
– Jim Richard, Project Manager of Dept. Natural Resources, NB
“Before attending this course, I had received bad news on our timber bridges. Every inspection gave more problems than solutions, suggesting that on most bridges further inspections and major works were required, or, that they were beyond repair and should be replaced. This was coupled with, timber costs increasing rapidly and the costs of the conventional replacement being unaffordable to the community. Attending this course has opened my eyes to many of the reasons for the short life span of our timber bridge components, provided an understanding of what is required to extend their lives, and given hope for the restoration of timber bridges that had already been written off.”
– David Goodman, Manager Civil Works
Overview
BLOCK 1 (4 HOURS) 10-minute break every 50 minutes
Welcome and Participant Introductions
Introduction to Reinforced Glulam:
- Background to the concept
- Origins of development
FiRP® Glulam Development:
- Composite Engineering
- Laboratory testing and evaluation
- Advantages and manufacture
FiRP® Glulam Design Methodology:
- Code submittal Justification
BLOCK 2 (4 HOURS) 10-minute break every 50 minutes
FiRP® Compression-based Design Model:
FiRP® Glulam ICBO:
- ER 5100
Question and Answers – Block 1 and 2 Test
BLOCK 3 (4 HOURS) 10-minute break every 50 minutes
Review and Test Results
FiRP® Glulam Performance Approach:
- Benefits
FiRP® Glulam Case Study:
- 1. Simple beams, Stock beams, and Custom beams
FiRP® Glulam Case Study:
- 2. Panelized Roof Systems
BLOCK 4 (4 HOURS) 10-minute break every 50 minutes
FiRP® Glulam Case Study:
- 3. Vehicular Bridges
FiRP® Glulam Case Study:
- 4. Curved and Truss Members
Closing remarks and question and answers – Block 3 and 4 Test
BLOCK 5 (4 HOURS) 10-minute break every 50 minutes
Review and Test Results
Introduction to In-Situ Reinforcement and Restoration
- Background to the concept;
- Origins of development
FiRP® In-Situ Design Methodology:
- Code submittal justification
- Composite section engineering
FiRP® Compression-based Design Model:
- Composite element analysis for in-situ sections
- Effective length or area
FiRP® In-Situ Elements:
- ASTM Standards
- ER5100
BLOCK 6 (4 HOURS) 10-minute break every 50 minutes
iRP® Retrofit Case Study:
- 1. Glulam roof structure restoration
FiRP® Retrofit Case Study:
- 2. Sub-floor system restoration
Questions and Answers – Block 5 and 6 Test
BLOCK 7 (4 HOURS) 10-minute break every 50 minutes
Review and Test Results
Glass Fibre Wraps for Poles, Piles, and Piers:
- Upgrade design capacity
- Applications
FiRP® Retrofit Case Study:
- 3. Vehicle Bridges
In-situ round log girders and pile retrofit
- In-sit cross-head retrofit
BLOCK 8 (4 HOURS) 10-minute break every 50 minutes
FiRP® Retrofit Case Study:
- 4. Heritage and historically significant structures
Course Review, Questions and Answers – Block 7 and 8 Test
Day 1 of practical
- Tour of old timber bridge or timber building and partial inspection utilizing advanced NDT equipment—SWT, resistograph, moisture meter, core sampler, moisture meter, hygrometer, distometer, and other important inspection tools.
- Preparation of inspection reports with Level II technician, one technician per two person team.
- Interpretation and development of restoration and greenfield working drawings.
- Inspect beams, one per two person team to be loaded to failure after inspection.
- Take high magnification 70X microscope photos tangential and radial for each two person team.
- Shear block testing per two person team.
Day 2 of practical
- Cyclic delamination sample testing of glulam samples, per two person team.
- Breaking beam for each two person team.
- Retrofit of beam after breaking.
- Inspection of pile. Retrofit of pile with high strength fibre wraps
Day 3 of practical
- Report development on team test beam and wrapped pile.
- Load to failure of reinforced beam by two-person teams.
- Results of post retrofit testing by sectioning.
- Inspection under microscope of slices of wrapped piles for each team, while course work continues.
- Preparation of inspection reports with Level II technician, one technician per two person team to include all test results.
- Students discuss a project of their choice 10 minutes for each student
- Question and Answers about the course
ORAL EXAMS 20 MINUTES EACH
No final written exam for Maintenance and Restoration Students
Teaching hours for theory only = 16 hours
Teaching hours for full course (theory & practical) = 32 hours
Registration
The Level 2 Timber Structures and Design Certification Course is a must-attend for any civil engineer who wants to stay ahead of the curve in the latest mass timber technologies. The course offers hands-on training and valuable industry insights on reinforced glulam, composite engineering, retrofit design, and more. With eight blocks of practical instruction and 32 hours of professional development upon course completion, the Level 2 Timber Structures and Design Certification Course is the only way to stay up-to-date in mass timber technology. Sign up today to unlock the potential of mass timber!
