Course syllabus for Timber engineering

The aim is to provide advanced knowledge in the design of simple and complex timber structures, detailing and connections. This includes the skills necessary to evaluate and design the structural system for multi-storey timber buildings and wide span structures with walls, floors, columns, beams, and/or trusses made of timber elements. The course provides an understanding of both general structural performance and how various more complex elements such as engineered wood products (EWP) including glulam, cross-laminated timber, wood-based box beams and I-beams, and wood-based panels behave in the structure. Furthermore, emphasis is placed on understanding the design of connections and some detailing, as well as the design of members with combined cross-sections, to enable evaluation of the behaviour of different elements in serviceability conditions, including the vibration and springiness in timber-based floors. The course is based on the state-of-the-art and gives introduction into the regulations specified in Eurocode 5 (the European standard for the design of timber structures).

• Identify and explain the specific aspects of timber construction, the strengths and weaknesses and some specific challenges related to the design
• Applying Eurocode 5 to perform structural design of timber structures
• Describe, explain, construct, examine (design) and verify stabilizing structural systems for multi-storey timber buildings
• Describe the effects of the different components of wood-based floor elements, evaluate their static behaviour, investigate their dynamic behaviour and assess the components and properties that influence this behaviour
• Identify the demands on connections used in timber construction and assemble and design adequate connections for individual situations
• Optimize structures with regard to structural performance, economy and appearance, based on the critical understanding of the properties and behaviour of members and connections.

1. Material properties related to EC5
2. Structural timber, Glulam, CLT, and engineering wood products (EWP) - main differences

1. Tension, compression and loading at the angle to the grain
2. Cross-sections subjected to combined stresses
3. Glulam beams with varying cross-sections: tapered, curved and pitched cambered
4. Glued thin-webbed beams (I-beams and box beams) and Glued thin-flanged beams and elements
5. Vibration and springiness in floors
6. Fire & Timber

1. Structural systems and construction methods of timber buildings
2. Stabilising systems for multi-storey timber buildings and long span structures
3. Models for shear walls, diaphragms and their design
4. CLT Structures

1. Dowel-type joints – theory and optimisation
2. Conception of mechanical and glued joints
3. Strengthening and repair of timber structures
4. Notched beams, holes, splitting and cracking

• Instructions to the Design Task, FEM workshop, lecture notes, exercises and examples
• Extracts from Eurocode 5 
• “Design of timber structures Vol 1, 2, 3”. 2016 by Swedish wood, 2nd edition, Stock-holm.
• Additional books with useful background: 
• "Timber Engineering - Principles for Design", 2017 by C. Sandhaas and H.J. Blaß, Karlsruhe KIT Scientific Publishing, DOI: https://doi.org/10.5445/KSP/1000069616 
• "Structural Timber Design to Eurocode 5" 2013 by J. Porteous and A. Kermani.

• Project work consisting of:
• Design Task (in group)
• FEM Workshop (in group)
• A final exam (individual).