TRE300 Wood Technology
There may be changes to the course due to to corona restrictions. See Canvas and StudentWeb for info.
Showing course contents for the educational year 2021 - 2022 .
Course responsible: Olav Albert Høibø
Teachers: Geir Isak Vestøl, Roar Økseter
ECTS credits: 15
Faculty: Faculty of Environmental Sciences and Natural Resource Management
Teaching language: NO
Limits of class size:
Teaching exam periods:
This course starts in Spring parallel. This course has teaching/evaluation in Spring parallel.
Course frequency: Annually
First time: 2004V
Tree growth and wood properties: Relationships between silviculture, tree growth, wood morphology and wood properties.
Wood physics: Density, wood - water relations, capillary movements and diffusion, thermal, electrical and acoustical properties, and dynamic behaviour. Mechanics and rheology of wood: Elasticity (stress and strain), orthotropic elasticity, plasticity, creep, crushing strength, bending strength, shock resistance, torsional properties, and shear strength.
Wood decay mechanisms with emphasis on biological decay
The student should have advanced knowledge about the properties of wood and how these may relate to the use of wood in different applications. The student should know how to relate this to the chemistry and anatomy of wood, and further how this depend on silviculture and tree growth. The student should have knowledge about scientific theory and methods to do research in the field.
The student should know how to accomplish scientific wood property studies. The student should know how to behave critically to different information and how to use the information to structure and make reasonings with in the field. The student should be able to analyze data with statistical software.
The student should know how to convey and exchange opinions within the field, both in written and orally. The student should be able to find and use knowledge on new areas within the field.
Lectures, exercises, more and less extensive written assignments, excursion. The exercises are used to concretise the theoretical material. The students must present some of the papers in class. In addition, the students will be given a number of questions related to the course which they voluntarily can answer and get feedback on during the course.
Information in advance is public available at Canvas.
Kollmann, F. F. P. and Cote, W. A. 1981 (1968). Principles of Wood Science and Technology, I Solid Wood. Springer-Verlag, Berlin, Heidelberg, New York. 592 pp. Selected articles.
Research articles handed out during the course
Notes from the lectures
Total assesment consisting of
Written exam (3 hours) counts 2/3.
Portofolio assessment with Exercises and assignments count 1/3.
70 hours of lectures and exercises. 380 hours of self-study (semester assignment, report writing, independent study).
Special requirements in Science
Reduction of credits:
Type of course:
Ordinary lectures: 34 hours. Exercises: 30 hours. Discussions/student lectures: 6 hours. In total: 70 hours.
The course is intended for the students in Forest Business, Forestry and structural engineering for Buildings and Architecture.
The external examiner evaluates the written exams.
Allowed examination aids: B1 Calculator handed out, no other aids
Examination details: Combined assessment: A - E / F