LEARNING OUTCOMES
1. Understanding of the role of the three-dimensional elasticity theory in (bar, beam, membrane,) plate and shell models in analyzing the mechanics of structures
2. Understanding of the energy and equilibrium approaches in deriving and formulating (bar, beam, membrane,) plate and shell models
3. Ability to derive the (beam and) plate models of statics and free vibrations within the theory of elasticity
4. Ability to apply plate and shell models to various types of structural analyses and to solve the corresponding partial differential equations by the most relevant analytical solution methods
Credits: 5
Schedule: 10.01.2023 - 23.02.2023
Teacher in charge (valid for whole curriculum period):
Teacher in charge (applies in this implementation): Jarkko Niiranen
Contact information for the course (applies in this implementation):
CEFR level (valid for whole curriculum period):
Language of instruction and studies (applies in this implementation):
Teaching language: English. Languages of study attainment: English
CONTENT, ASSESSMENT AND WORKLOAD
Content
valid for whole curriculum period:
Week 1:
2D and 3D theories of elasticity
Week 2:
Kirchhoff plate model
Week 3:
Reissner--Mindlin plate model
Week 4:
Models for orthotropic, stiffened, sandwich and laminate plates
Week 5:
Vibrations of membranes and plates
Week 6:
Shells models
Week 7:
Exam(The actual order of some of the weeks 1--6 may vary.)
Assessment Methods and Criteria
valid for whole curriculum period:
1. Theoretical home assignments:
- returned according to weakly deadlines (assessed weekly by assistants)2. Final exam:
- on week 7 (assessed by the lecturer)The final grade (0--5) is composed of the points collected from the final examination (50% = 18 pts) and exercise assignments (50% = 18 pts). The passing grade 1 can be achieved by about 50% (18 pts) of the total maximum (36 pts).
Workload
valid for whole curriculum period:
Lectures: 2 double-hours per week (24 h = 18%)
- contact teaching: attending the lectures (pre-browsing, listening, writing notes, asking etc.)Reading: 2 double-hours per week (24 h = 18%)
- self-studies: reading and writing the derivations in the lecture slides and/or textbookTheoretical Exercises: 1--2 double-hours per week (12--24 h = 9--18%)
- contact teaching: advice hours for theoretical hands-on exercises instructed by assistantsTheoretical Home Assignments: 6--8 hours per week (36--48 h = 27--36%)
- 4-6 per week
- self-studies for theoretical hands-on exercises: problem solving, calculating, writing solution documentsFinal exam and preparation: 3 + 10 hours (13 h = 10%)
DETAILS
Substitutes for Courses
valid for whole curriculum period:
Prerequisites
valid for whole curriculum period:
SDG: Sustainable Development Goals
9 Industry, Innovation and Infrastructure
11 Sustainable Cities and Communities
FURTHER INFORMATION
Further Information
valid for whole curriculum period:
Teaching Language : English
Teaching Period : 2022-2023 Spring III
2023-2024 Spring IIIEnrollment :
Registration in the Sisu-system is required.