The course is included in these curricula and study modules
- Plastics technology 2007 (swedish) - General engineering
- Plastics technology 2010 (swedish) - Design and manufacturing
- Plastics technology 2012 (swedish) - Composite materials
- Plastics technology 2013 (swedish) - Composite materials
- Plastics technology 2007 (international students) - General engineering
- Plastics technology 2007 (native finnish speaking students) - General engineering
- Plastics technology 2007 (native swedish speaking students) - General engineering
- Plastics technology 2010 - Design and manufacturing
- Plastics technology 2012 - Composite materials
- Plastics technology 2013 - Composite materials
- Materials processing technology 2014 (swe) - Advanced materials and design
- Materials processing technology 2015 (swe) - Advanced materials and design
- Materials processing technology 2016 - Materials
- Materials processing technology 2014 - Advanced materials and design
- Materials processing technology 2015 - Advanced materials and design
- Materials processing technology 2016 - Materials
Level/category
Professional studies
Teaching language
English
Type of course
Compulsory
Cycle/level of course
First
Recommended year of study
4
Total number of ECTS
5 cr
Competency aims
The aim of this course is to give students the skill to use biocomposites damping capacity to increase a composite materials dynamic strength and maximize its life time.
Learning outcomes
At the end of the course the student can distinguish between static and dynamic material charcteristics. The student shall be able to describe and measure strength of materials, fagitue and damping as well as use measurement methods to determine their magnintude.
Course contents
- Under damped oscillator, resonance frequency and damping.
- measurement of resonance frequency and loss factor.
- 3 experiment (bio fiber, bio core, bio particle)
- Stress concentration at a hole and material fagitue.
Prerequisites and co-requisites
Strength of Materials
Laboratory safety for engineers or Introduction to University Studies (2017-18 or earlier)
Previous course names
none
Recommended or required reading
distributed during lectures
Study activities
- Lectures - 40 hours
- Individual- and group instruction - 45 hours
- Practical exercises - 10 hours
- Project- and production work/artistic activities - 40 hours
Workload
- Total workload of the course: 135 hours
- Of which autonomous studies: 135 hours
- Of which scheduled studies: 0 hours
Mode of Delivery
Participation in tuition
Assessment methods
- Exams (written-, oral-, home-)
- Essays, reports, productions and portfolio
Assessment requirements
reports
Teacher
Herrman Rene
Examiner
Herrmann Rene
Home page of the course
Group size
No limit
Assignments valid until
12 months after course has ended
Assessment methods
- Date of examination will be announced later - Exams
- 2016-05-31 - Reports and productions