Karta przedmiotów

Introduction to materials science

Some basic information about the module

Cycle of education: 2022/2023

The name of the faculty organization unit: The faculty Chemistry

The name of the field of study: Chemical Technology

The area of study: technical sciences

The profile of studing:

The level of study: first degree study

Type of study: full time

discipline specialities : Chemical analysis in industry and environment, Chemical and bioprocess engineering, Organic and polymer technology

The degree after graduating from university: Bachelor of Science (BSc)

The name of the module department : Department of Technology and Materials Chemistry

The code of the module: 193

The module status: mandatory for teaching programme

The position in the studies teaching programme: sem: 1 / W15 C15 / 2 ECTS / Z

The language of the lecture: Polish

The name of the coordinator: Marek Potoczek, DSc, PhD, Eng.

office hours of the coordinator: środy 11.00 - 12.30, czwartki 12.00 - 13.30 pok. 115 H lub 18H

The aim of studying and bibliography

The main aim of study: Familiar with crystal structure of solids

The general information about the module: The student gains knowledge on crystal structure of engineering materials

Bibliography required to complete the module

Bibliography used during lectures
1	Blicharski Marek	Wstęp do inżynierii materiałowej	Wydawnictwo Naukowo-Techniczne, Warszawa.	2003
2	Cyunczyk Aleksander	Podstwawy nauki o materiałach	Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów.	2000

Bibliography used during classes/laboratories/others
1	Blicharski Marek	Wstęp do inżynierii materiałowej	Wydawnictwa Naukowo Techniczne, Warszawa.	2003
2	Cyuczyk Aleksander	Podstawy nauki o materiałach - ćwiczenia	Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów.	2000
3	Bojarski Z. i in.	Krystalografia	PWN.	2008

Bibliography to self-study
1	Blicharski Marek	Wstęp do inżynierii materiałowej	Wydawnictwa Naukowo Techniczne, Warszawa.	2003
2	Cyunczyk Aleksander	Podstwawy nauki o materiałach - ćwiczenia	Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów.	2000

Basic requirements in category knowledge/skills/social competences

Formal requirements: interesting in engineering issues

Basic requirements in category knowledge: Familiar with mathematic, physics and chemistry on the secondary school level

Basic requirements in category skills: Ability of self-solving of engineering-account tasks

Basic requirements in category social competences: ability to work in a team

Module outcomes

MEK	The student who completed the module	Types of classes / teaching methods leading to achieving a given outcome of teaching	Methods of verifying every mentioned outcome of teaching	Relationships with KEK	Relationships with PRK
01	Student knows the most important theorems and hypotheses in the field of materials science and crystallography	lecture	test - writing form	K_W05++	P6S_WG
02	Student has a general knowledge of crystalline solids	tutorials	test - writing form	K_W13+	P6S_WG
03	Student has the ability to self-study of literature and solving accounting	tutorials	test - writing form	K_U06++	P6S_UU
04	Student has the ability of self-solve and team-solve of engineering problems	tutorials	observation of performance	K_K01+	P6S_KK P6S_KO P6S_KR

Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).

The syllabus of the module

Sem.	TK	The content	realized in	MEK
1	TK01	Introduction, definition of material, classification of materials in terms of arrangement, -crystals and glasses. The basic terms of crystallography: (space lattice, crystal axis, unit cell, space points, lines and planes).	W01, C01	MEK01
1	TK02	Bravais lattices. Symbols of crystal nodes. Symbols of crystallographic directions. Symbols of lattice planes . Planes belt . Symmetry of crystals and their combinations..	W02, W03, C02, C03	MEK01 MEK02
1	TK03	Classification of the crystals based on the chemical bonding: ionic crystals, covalent crystals, metal crystals , molecular crystals , crystals with mixed bonds . Effect of chemical bonding and crystalline structure on the material properties	W04, W05, C04	MEK01 MEK02 MEK03
1	TK04	Close-packed structures . Octahedral and tetrahedral gaps . The main structures of elements and chemical compounds . Allotropy and polymorphism.	W06, U05, C06	MEK01 MEK02 MEK04
1	TK05	Real crystals. Point defects . Dislocations . Surface defects . Single crystals and polycrystals	W07, W08, C07, C08	MEK01 MEK02 MEK03
1	TK06	Classes: Lattice points, lattice directions and lattice planes, Points spaces, planes spaces and angles between planes Volume and crystallographic density of an unit cell. Atom radius and ion radius. Octahedral and tetrahedral holes. Symmetry of crystals. Dense crystallographic structures. Real crystals.	C01-C08	MEK01 MEK02 MEK03 MEK04

The student's effort

The type of classes	The work before classes	The participation in classes	The work after classes
Lecture (sem. 1)	The preparation for a test: 1.00 hours/sem.	contact hours: 15.00 hours/sem.	complementing/reading through notes: 2.00 hours/sem. Studying the recommended bibliography: 2.00 hours/sem.
Class (sem. 1)	The preparation for a Class: 3.00 hours/sem. The preparation for a test: 5.00 hours/sem.	contact hours: 15.00 hours/sem.	Finishing/Studying tasks: 2.00 hours/sem.
Advice (sem. 1)	The preparation for Advice: 1.00 hours/sem.	The participation in Advice: 1.00 hours/sem.
Credit (sem. 1)	The preparation for a Credit: 8.00 hours/sem.	The written credit: 3.00 hours/sem. The oral credit: 1.00 hours/sem.

The way of giving the component module grades and the final grade

The type of classes	The way of giving the final grade
Lecture	The grading scale depends on the sum of points from tests involving two sub-topics of the lecture . 50-60 % dst (3.0 ) ; 61-70 % dst + (3.5 ) ; 71-80 % db (4.0 ) 81-90 % db + ( 4.5 ) ; 91-100 % bdb (5.0)
Class	Total score of two partial written tests and oral answers . Weight written tests is two times higher than oral answers . Grading scale : 50-60 % dst (3.0 ) ; 61-70 % dst + (3.5 ) ; 71-80 % db (4.0 ) 81-90 % db + ( 4.5 ) ; 91-100% bdb (5,0)
The final grade	The final grade (K) K = 0,5wC + 0,5wW , where C - the credit rating exercise , W - evaluation of credit lecture in - a factor related to the term credit in the first term = 1.0 , w = 0.9 second term

Sample problems

Required during the exam/when receiving the credit
(-)

Realized during classes/laboratories/projects
(-)

Others
(-)

Can a student use any teaching aids during the exam/when receiving the credit : no

The contents of the module are associated with the research profile: yes

1	K. Balawender; K. Bulanda; K. Kroczek; B. Lewandowski; M. Oleksy; S. Orkisz; M. Potoczek; J. Szczygielski; Ł. Uram	Polylactide-based composites with hydroxyapatite used in rapid prototyping technology with potential for medical applications	2023
2	T. Brylewski; J. Dąbek; M. Potoczek	Oxidation behavior of Ti2AlC MAX-phase foams in the temperature range of 600–1000 °C	2023
3	A. Adamczyk; T. Brylewski; Z. Grzesik; M. Januś; W. Jastrzębski; S. Kluska ; K. Kyzioł ; M. Potoczek; S. Zimowski	Plasmochemical Modification of Crofer 22APU for Intermediate-Temperature Solid Oxide Fuel Cell Interconnects Using RF PA CVD Method	2022
4	A. Chmielarz; P. Colombo; G. Franchin; E. Kocyło; M. Potoczek	Hydroxyapatite-coated ZrO2 scaffolds with a fluorapatite intermediate layer produced by direct ink writing	2021
5	E. Kocyło; M. Krauz; M. Potoczek; A. Tłuczek	ZrO2 Gelcast Foams Coated with Apatite Layers	2020
6	A. Chmielarz; P. Colombo; H. Elsayed; T. Fey; M. Potoczek	Direct ink writing of three dimensional Ti2AlC porous structures	2019