Learning objectives
Knowledge and understanding
Students should demonstrate knowledge and understanding in order to
develop new projects and implement original methods and techniques.
Ability to apply knowledge and understanding
Critical evaluation of numerical results determined according to the
assumptions on both modelling and intrinsic approximations of the finite
element method. This assessment capacity appears to be essential in
design and testing activities of engineers when commercial software
packages are used.
Assessment autonomy
Students should acquire the ability to integrate knowledge and to handle
complex problems in the field of civil constructions by employing both
new construction systems and advanced materials.
Communication skills
Students should be able to comunicate clearly and without ambiguity, to
experts and non-experts, their results in the specific field of Course
topics, as well as the knowledges and where such knowledges aim.
Learning skills
Students will develop the learning skills which will allow them to selfstudy.
Prerequisites
In order to be able to attend the course successfully, the student has to know the contents of the courses of Analisi dinamica e progettazione sismica delle strutture (1° module) and Meccanica Computazionale delle Strutture (Calcolo automatico delle strutture).
Course unit content
Topics of the Course:
(1) Modeling of a plate with a hole
(2) Modeling of the contact between a sphere and half-space
(3) Modeling of structural components made of recycled plastic material
(4) Modeling of a beam to column knee of frame bolted with haunch
(5) Modeling of an overhead line
Full programme
Topics of the Course:
(1) Modeling of a plate with a hole
- Introduction to the problem of stress concentrators
- Numerical modelling of the plate with a hole by employing commercial software packages
- Critical analysis of the obtained results
(2) Modeling of the contact between a sphere and half-space
- Introduction to the problem of contact between bodies
- Numerical modeling of the sphere / half-space contact by employing commercial software packages
- Critical analysis of the obtained results
(3) Modeling of structural components made of recycled plastic material
- Description of the mechanical characteristics of the recycled plastics
- Numerical modelling of a specific structural application where such recycled plastics are used, by employing commercial software packages
- Critical analysis of the obtained results
- Technical Rules
(4) Modeling of a beam to column knee of frame bolted with haunch
- Description of the mechanical characteristics of the materials used
- Numerical modeling of thebeam to column knee of frame bolted with haunch by employing commercial software packages
- Critical analysis of the obtained results
(5) Modeling of an overhead line
- Description of the mechanical characteristics of the materials used
- Numerical modeling of the overhead line by employing commercial software packages
- Critical analysis of the obtained results
Bibliography
- Lecture notes available on the Elly website
- Technical Rules
- Software User Guides
Teaching methods
The Course consists of theoretical lectures (20%) and practical exercises
by using commercial software packages (80%).
Theoretical lectures are delivered by using slides available on the Elly
website.
Assessment methods and criteria
The final exam of the Course ‘Numerical modelling of Advanced Materials in Structural Applications’ consists of a written test.
Such an written test will be weighed as follows:
- 10% definition of the solving method (knowledge)
- 80% numerical resolution of the structural problem using a finite element software (skills)
- 10% final report summarising the results obtained (communication skills)
Other information
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2030 agenda goals for sustainable development
This course contributes to the achivement of the objectives of the 2030 Agenda for Sustainable Development