Fundamentals of Elasticity
BASIC DATA
course listing
A - main register
course code
YFX0592
course title in Estonian
Elastsusteooria alused
course title in English
Fundamentals of Elasticity
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
yes
Structural units teaching the course
LT - Department of Cybernetics
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Anda ülevaade lineaarses elastsusteoorias kasutatavatest printsiipidest, hüpoteesidest, meetoditest, põhivõrranditest ja nende lahendusmeetodeist klassikaliste ülesannete näitel.
Õpetada sisejõudude, pingete ja deformatsioonide määramist varrastes ja raamides.
Õpetada sisejõudude, pingete ja deformatsioonide määramist varrastes ja raamides.
course aims in English
The main goal of the course is to give fundamental knowledge of analytical mechanics, principles, hypothesis, methods and equations of linear elasticity and methods of solutions of classical problems of linear elasticity.
To teach methods of calculation of internal forces, stresses and stains in beams and frames.
To teach methods of calculation of internal forces, stresses and stains in beams and frames.
learning outcomes in the course in Est.
Aine läbinud üliõpilane:
- tunneb lineaarse elastsusteooria põhiprintsiipe ja hüpoteese;
- eristab lineaarses elastsusteoorias ja tugevusõpetuses kasutatavaid hüpoteese;
- oskab määrata sisejõudusid, pingeid ja deformatsioone varrastes ja raamides;
- oskab lahendada erialase kirjanduse abil lineaarse elastsusteooria ülesandeid.
- tunneb lineaarse elastsusteooria põhiprintsiipe ja hüpoteese;
- eristab lineaarses elastsusteoorias ja tugevusõpetuses kasutatavaid hüpoteese;
- oskab määrata sisejõudusid, pingeid ja deformatsioone varrastes ja raamides;
- oskab lahendada erialase kirjanduse abil lineaarse elastsusteooria ülesandeid.
learning outcomes in the course in Eng.
After completing this course the student:
- knows basic principles, hypothesis and methods of linear elasticity,
- distincts between hypothesis applicable in linear elasticity and strength of materials;
- can calculate internal forces, stresses and stains in beams and frames;
- can solve problems of elasticity making use of linear elasticity related textbooks and handbooks.
- knows basic principles, hypothesis and methods of linear elasticity,
- distincts between hypothesis applicable in linear elasticity and strength of materials;
- can calculate internal forces, stresses and stains in beams and frames;
- can solve problems of elasticity making use of linear elasticity related textbooks and handbooks.
brief description of the course in Estonian
Lineaarse (klassikalise) elastsusteooria põhihüpoteesid ning ülesanded. Elastsusteooria seos pideva keskkonna mehaanika ja tugevusõpetusega. Sisejõud, pinge, pingus, tasakaaluvõrrandid, peapinged. Deformatsioon, Cauchy seosed, peadeformatsioonid, üldistatud Hooke'i seadus, deformatsioonienergia. Elastsusteooria põhivõrrandid, nende lahendusmeetodid ja lihtsamad ruumilised ülesanded. Elastsusteooria tasandülesanne. Tasapinnaline deformatsioon, tasapinnaline pingus, pingefunktsiooni kasutamine tasapinnaliste ülesannete lahendamiseks. Tasandülesanne ristkoordinaatides. Varda ja raami sisejõudude arvutamine. Ristlõike pinnamomentide arvutamine. Pingete arvutamine varda ristlõikes.
Materjalide mehaanikalised omadused ja nende eksperimentaalne määramine.
Materjalide mehaanikalised omadused ja nende eksperimentaalne määramine.
brief description of the course in English
Hypothesis, methods and problems of linear (classical) elasticity. Relations between linear elasticity, continuum mechanics and strength of materials. Internal forces, stresses, principal stresses. Displacements, strains, principal stains.
Hooke's law. Deformation energy. Fundamental equations of elasticity and methods of solution. 3D and 2D problems. Plain strain and plain stress, application of stress function for solution of 2D problems. Calculation of internal forces in beams and frames.
Calculation of moments of area. Calculation of stresses in cross section of beams.
Mechanical properties of materials and testing of materials.
Hooke's law. Deformation energy. Fundamental equations of elasticity and methods of solution. 3D and 2D problems. Plain strain and plain stress, application of stress function for solution of 2D problems. Calculation of internal forces in beams and frames.
Calculation of moments of area. Calculation of stresses in cross section of beams.
Mechanical properties of materials and testing of materials.
type of assessment in Estonian
Eksam
Kodutööd ja laboritööd peavad olema arvestatud.
Eksami tulemus saadakse kas kontrolltööde (vaid ülesanded) ja teooriatöö kaalutud keskmisena või eksamitöö eest. Kontrolltööd toimuvad semestri jooksul.
Eksamitöö koosneb teooriaküsimustest ja ülesannetest ning toimub eksamisessiooni ajal. Hinne arvutatakse teooria ja ülesannete kaalutud keskmisena.
Kodutööd ja laboritööd peavad olema arvestatud.
Eksami tulemus saadakse kas kontrolltööde (vaid ülesanded) ja teooriatöö kaalutud keskmisena või eksamitöö eest. Kontrolltööd toimuvad semestri jooksul.
Eksamitöö koosneb teooriaküsimustest ja ülesannetest ning toimub eksamisessiooni ajal. Hinne arvutatakse teooria ja ülesannete kaalutud keskmisena.
type of assessment in English
Exam
Homeworks and practical works must be completed.
The final grade of the course can be obtain either as the mean result of written tests (during the term) or as the result of written examination (at the end of a term).
During the term two tests for solving problems and one for theory take place.
The written examination consist of theoretical part and of problems. The grade is calculated as a weighted mean of theoretical part and problems.
Homeworks and practical works must be completed.
The final grade of the course can be obtain either as the mean result of written tests (during the term) or as the result of written examination (at the end of a term).
During the term two tests for solving problems and one for theory take place.
The written examination consist of theoretical part and of problems. The grade is calculated as a weighted mean of theoretical part and problems.
independent study in Estonian
Kuni kolm kodutööd
independent study in English
Up to three homeworks
study literature
A. Salupere. Elastsusteooria alused. Loengukonspekt.
J.R. Barber. Elasticity. Kluwer Academic Publishers, London, 2002.
J.R. Barber. Elasticity. Kluwer Academic Publishers, London, 2002.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
-
practices
0.4
practices
-
exercises
1.6
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Andrus Salupere, LT - Department of Cybernetics
Estonian