Principles of Engineering Materials Selection and Design S_C2_R_P2

Institute of Engineering Materials and Biomaterials
COURSE DESCRIPTION
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WYDANIE N1
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1. Course title: PRINCIPLES OF ENGINEERING MATERIALS SELECTION AND 2. Course code ENG/CMS, NAN, ME/EVEN/II/2/4
DESIGN
3. Validity of course description: 2013-2016
4. Level of studies: BSc programme / MSc programme
5. Mode of studies: intramural studies / extramural studies
6. Field of study: LLP-ERASMUS – APPLIED COMPUTER SCIENCE AND (FACULTY SYMBOL) RMT
COMPUTATIONAL MATERIALS SCIENCE,
MATERIALS ENGINEERING,
NANOTECHNOLOGY AND MATERIALS PROCESSING TECHNOLOGY
7. Profile of studies: general academic, practical
8. Programme: all
9. Semester: summer (PACKAGE 2)
10. Faculty Unit teaching the course: Institute of Engineering Materials and Biomaterials
11. Course instructor: full professor, associate professor, senior lecturer, assistant professor
12. Course classification: common course, specialization courses, other
13. Course status: compulsory /elective, other elective in package only
14. Language of instruction: English
15. Pre-requisite qualifications: Fundamentals of materials science, Principles of formation of engineering materials properties, metallic
materials and their heat treatment
16. Course objectives: The aim of the course is to formulate terms, familiarize with principles and systematize knowledge on engineering
materials selection, training methods of problem solving in the field of design, familiarization with practical applications of engineering materials
in electronics, biomedical, automotive and shipbuilding, chemical and air industry, training of skills of finding sources, information and combine
information from new skills acquired during classes, synthesizing knowledge about materials to practical and functional applications, developing
and practicing skills of using characterization sheets of engineering materials.
17. Description of learning outcomes:
No.
1.
2.
3.
4.
5.
6.
7.
Learning outcomes description
1A student has detailed knowledge of methods of
. engineering materials selection and methods of
formation of their structure and properties for technical
applications
2A student has detailed knowledge of material and
. technological design
3A student can obtain information from literature,
. databases and other sources, integrate them, make their
interpretations and draw conclusions and formulate
opinions
4A student can compare basic mechanical properties,
. technological and exploitation engineering materials
using computer systems and databases to make
engineering materials selection and methods to
formulate their structure and properties for technical
and economic condition evaluation of various
engineering materials
5A student can practically apply the knowledge in the field
. of materials processing technology for the production of
materials and products, and development of products,
their structure and properties
6A student is able to design the basic processes of
. production and materials processing technology to
produce materials and products
7A student is able to perform activities related to the
. design and materials technology including product life
cycle
Method of assessment
Teaching methods
Learning
outcomes
reference code
Written exam
Lecture
T1A_W04_nitpm_0
9
Written exam
Lecture
T1A_W04_nitpm_1
0
Defense of the project and
evaluation reports
Project
T1A_U01_nitpm_0
Defense of the project and
evaluation reports
Project
Defense of the project and
evaluation reports
Project
Defense of the project and
evaluation reports
Project
T1A_U16_nitpm_0
Defense of the project and
evaluation reports
Project
T1A_U16_nitpm_0
4
T1A_U10_nitpm_02
T1A_U13_nitpm_02
1
A student can think and act in a creative and
8
enterprising way
18. Teaching modes and hours
8.
Defense of the project and
evaluation reports
Project
T1A_K06_nitpm_01
Lecture / BA /MA Seminar / Class / Project / Laboratory
15 h lectures, 15 h project
19. Syllabus description:
Lecture: Designing materials as an inseparable part of product engineering design - elements of engineering design, structural design, working out shape
geometric charactersitic of products to fulfill human needs, materials design, to ensure the required durability of a product or its components made from
materials with the required properties of engineering technology, design technology to give required properties of individual elements of a product. Technical
design and its structure: the formulation and analysis of the problem, looking for ideas, evaluation and selection of solutions. Aspects of engineering design
influencing materials selections for products and their elements - functional aspects of engineering design, product life cycle analysis, sociological, ecological
and economic factors of design. Main factors determining the selection of engineering materials in engineering design. Main groups of non-metallic materials
and the characterization of their properties in the application of the products and their elements - metals and their alloys, polymeric materials, ceramic,
composite materials, shape memory alloys, metallic glasses.
Project: Getting to know the process of design and material groups used in engineering practice and their properties.Materials selection for a chosen item,
taking into account key factors determining its application.
20. Examination: YES, NO
21. Primary sources:
1. Dobrzański L.A.: Zasady doboru materiałów inżynierskich z kartami charakterystyk, wyd. II, Wyd. Pol. Śląskiej, 2001.
2. Dobrzański L.A.: Podstawy nauki o materiałach i metaloznawstwo. Materiały inżynierskie z podstawami projektowania materiałowego, WNT, Warszawa,
2002.
3. Dobrzański L.A.: Metalowe materiały inżynierskie, WNT, Warszawa, 2004.
4. Dobrzański L.A.: Podstawy kształtowania struktury i własności materiałów metalowych, Wyd. Pol. Śląskiej, Gliwice, 2007.
5. Ciszewski B., Przetakiewicz W.: Nowoczesne materiały w technice, Wyd. Bellona, Warszawa, 1993.
22. Secondary sources:
1. Ashby M.F.: Dobór materiałów w projektowaniu inżynierskim, WNT, Warszawa, 1998.
2. Ashby M.F., Jones D.R.H.: Materiały inżynierskie, Tom 1 i 2, WNT, Warszawa, 1996.
3. Leksykon Materiałoznawstwa, pr. zbior. pod red. L.A. Dobrzańskiego, Wyd. Verlag Dashofer, Warszawa, 2004.
23. Total workload required to achieve learning outcomes
Lp.
Teaching mode :
1
Lecture
2
Classes
3
Laboratory
4
Project
5
BA/ MA Seminar
6
Other
Contact hours / Student workload hours
15//60
15/60
Total number of hours
30/120
24. Total hours: 150
25. Number of ECTS credits: 6
26. Number of ECTS credits allocated for contact hours: 3
27. Number of ECTS credits allocated for in-practice hours (laboratory classes, projects): 3
26. Comments:
Approved:
…………………………………………………
(date , the Director of the Faculty Unit signature)
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