Materials Science
Some basic information about the module
Cycle of education: 2017/2018
The name of the faculty organization unit: The faculty Mathematics and Applied Physics
The name of the field of study: Medical Engineering
The area of study: technical sciences
The profile of studing:
The level of study: first degree study
Type of study: full time
discipline specialities :
The degree after graduating from university:
The name of the module department : Department of Material Science
The code of the module: 7172
The module status: mandatory for teaching programme
The position in the studies teaching programme: sem: 3 / W30 L30 / 5 ECTS / E
The language of the lecture: Polish
The name of the coordinator 1: Andrzej Nowotnik, DSc, PhD, Eng.
office hours of the coordinator: wtorek, godz. 13.00-14.00 czwartek, godz. 12.00-14.00
The name of the coordinator 2: Paweł Pędrak, PhD, Eng.
The aim of studying and bibliography
The main aim of study:
The general information about the module:
Teaching materials: Instrukcje do zajęć laboratoryjnych
Bibliography required to complete the module
| 1 | Sieniawski J.,Cyunczyk A. | Struktura ciał stałych | Oficyna Wydawnicza PRz. | 2012 |
| 2 | Sieniawski J., Cyunczyk A. | Fizykochemia przemian fazowych | Oficyna Wydawnicza PRz. | 2012 |
| 3 | Sieniawski J., Cyunczyk A. | Właściwości ciał stałych | Oficyna Wydawnicza PRz. | 2009 |
| 4 | Skrzypek S., Przybyłowicz K. | Inżynieria metali i ich stopów | Wydawnictwa AGH. | 2012 |
| 5 | M. F. Ashby | Materiały inżynierskie. 1, Właściwości i zastosowania | Warszawa: Wydaw. Nauk.-Techniczne. | 1997 |
| 6 | M. F. Ashby | Materiały inżynierskie. 2, Kształtowanie struktury i właściwości, dobór materiałów | Warszawa: Wydaw. Nauk.-Techniczne. | 1998 |
| 1 | Dobrzański L. M. | Materiały inżynierskie i projektowanie materiałowe | WNT, Warszawa. | 2006 |
| 2 | Sieniawski J. | Metaloznawstwo i podstawy obróbki cieplnej | Oficyna Wydawnicza PRz. | 2012 |
| 3 | Polskie Normy | Związane z tematyką laboratorium | . | |
| 4 | Z. Florjańczyk, S. Penczek | Chemia polimerów : praca zbiorowa. T. 1, Makrocząsteczki i metody ich otrzymywania | Warszawa: Oficyna Wydawnicza Politechniki Warszawskiej. | 2001 |
| 1 | Przybyłowicz K., Przybyłowicz J. | Metaloznawstwo | WNT, Warszawa. | 2007 |
| 2 | Blicharski M. | Wstęp do inżynierii materiałowej | WNT, Warszawa. | 2006 |
Basic requirements in category knowledge/skills/social competences
Formal requirements:
Basic requirements in category knowledge:
Basic requirements in category skills:
Basic requirements in category social competences:
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 OEK |
|---|---|---|---|---|---|
| 01 |
K_W06+ K_W11+ K_W12+ K_W13+ K_U02+ K_U09+ K_U12+ K_K01+ K_K04+ K_K05+ |
InzA_W01+ T1A_W01+ InzA_W02+ T1A_W03+ T1A_W04+ T1A_W05+ InzA_W05+ T1A_W06+ T1A_W07+ InzA_U01+ T1A_U05+ InzA_U06+ T1A_U08+ T1A_U14+ T1A_K01+ T1A_K03+ T1A_K04+ |
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 |
|---|---|---|---|---|
| 3 | TK01 | - |
W 01 | MEK01 |
| 3 | TK02 | - |
W 02 | MEK01 |
| 3 | TK03 | - |
W 03 | MEK01 |
| 3 | TK04 | - |
W 04 | MEK01 |
| 3 | TK05 | - |
W 05 | MEK01 |
| 3 | TK06 | - |
W 06 | MEK01 |
| 3 | TK07 | - |
W 07, W 08 | MEK01 |
| 3 | TK08 | - |
W 09, W 10 | MEK01 |
| 3 | TK09 | - |
W 11, W 12 | MEK01 |
| 3 | TK10 | - |
W 13, W 14 | MEK01 |
| 3 | TK11 | - |
W 15 | MEK01 |
| 3 | TK12 | - |
L 01 | MEK01 |
| 3 | TK13 | - |
L 02 | MEK01 |
| 3 | TK14 | - |
L 03 | MEK01 |
| 3 | TK15 | - |
L 04 | MEK01 |
| 3 | TK16 | - |
L 05 | MEK01 |
| 3 | TK17 | - |
L 06 | MEK01 |
| 3 | TK18 | - |
L 07, L08 | MEK01 |
| 3 | TK19 | - |
L 09, L 10 | MEK01 |
| 3 | TK20 | - |
L 11, L 12 | MEK01 |
| 3 | TK21 | - |
L 13 | MEK01 |
| 3 | TK22 | - |
L 14 | MEK01 |
| 3 | TK23 | - |
L 15 | MEK01 |
The student's effort
| The type of classes | The work before classes | The participation in classes | The work after classes |
|---|---|---|---|
| Lecture (sem. 3) | contact hours:
30.00 hours/sem. |
complementing/reading through notes:
10.00 hours/sem. Studying the recommended bibliography: 10.00 hours/sem. |
|
| Laboratory (sem. 3) | The preparation for a Laboratory:
15.00 hours/sem. The preparation for a test: 5.00 hours/sem. |
contact hours:
30.00 hours/sem. |
Finishing/Making the report:
20.00 hours/sem. |
| Advice (sem. 3) | The preparation for Advice:
2.00 hours/sem. |
The participation in Advice:
2.00 hours/sem. |
|
| Exam (sem. 3) | The preparation for an Exam:
15.00 hours/sem. |
The written exam:
2.00 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 | |
| Laboratory | |
| The final grade |
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 | A. Cebo-Rudnicka; K. Dychtoń; B. Hadała; E. Jasiewicz; B. Kościelniak; T. Kubaszek; P. Pędrak | The influence of MCrAlY coating application and its thickness on the heat transfer during water spray cooling | 2024 |
| 2 | A. Moganraj; G. Mrówka-Nowotnik; A. Nowotnik; S. Vaiyapuri | Development of thermal barrier coating on single crystal superalloy CMSX-4 by two-source evaporation EB-PVD and hot corrosion performance of the coating in a simulated aero-engine environment | 2024 |
| 3 | M. Góral; B. Kościelniak; T. Kubaszek; M. Micał; P. Pędrak | The Manufacturing of Environmental Barrier Coatings by HV-APS Plasma Spraying Using Er2O3 and SiO2 Powder Mixture | 2024 |
| 4 | S. Legutko; G. Mrówka-Nowotnik; A. Nowotnik; P. Pieśko; M. Zawada-Michałowska | Effect of the Technological Parameters of Milling on Residual Stress in the Surface Layer of Thin-Walled Plates | 2024 |
| 5 | A. Nalborczyk-Kazanecka; A. Nowotnik; A. Pytel | „Above the Pack” Diffusion Aluminizing of Turbine Compressor Blades made of EI867 in the Aerospace Industry | 2023 |
| 6 | M. Drajewicz; K. Dychtoń; M. Góral; T. Kubaszek; P. Pędrak; M. Wierzbińska | The Influence of Reactive PS-PVD Process Parameters on the Microstructure and Thermal Properties of Yb2Zr2O7 Thermal Barrier Coating | 2022 |
| 7 | M. Góral; T. Kubaszek; P. Pędrak | Influence of air plasma spraying process parameters on the thermal barrier coating deposited with micro- and nanopowders | 2022 |
| 8 | W. Cmela; M. Drajewicz; M. Góral; T. Kubaszek; P. Pędrak | The Formation of Two-Layer YSZ Ceramic Coatings Produced in Single Step PS-PVD Process | 2022 |
| 9 | D. Dingwell; K. Hess; U. Kueppers; S. Lokachari; D. Müller; A. Nowotnik; P. Rokicki; G. Wolf | Rheological and chemical interaction between volcanic ash and thermal barrier coatings | 2021 |
| 10 | G. Boczkal; K. Dychtoń; K. Gancarczyk; G. Mrówka-Nowotnik; A. Nowotnik | Microstructure and Properties of As-Cast and Heat-Treated 2017A Aluminium Alloy Obtained from Scrap Recycling | 2021 |
| 11 | M. Drajewicz; K. Dychtoń; M. Góral; P. Pędrak | Synthesis of Gd2Zr2O7 Coatings Using the Novel Reactive PS-PVD Process | 2021 |
| 12 | M. Drajewicz; M. Góral; T. Kubaszek; P. Pędrak; M. Pytel | The Influence of Process Parameters on Structure of YSZ Coating Deposited by Plasma Spraying on AISI 316L Stainless Steel Surface by APS Method and on Ti6Al4V Titanium Alloy Surface by PS-PVD Method | 2021 |
| 13 | M. Góral; T. Kubaszek; W. Nowak; P. Pędrak; K. Ślemp; K. Trybus | The formation of pyrochlores during plasma spraying of REO and zirconia oxides powder mixture | 2019 |
| 14 | S. Kunkel; A. Nowotnik; G. Reiter; U. Schulz | Effect of processing and interface on the durability of single and bilayer 7YSZ / gadolinium zirconate EB-PVD thermal barrier coatings | 2019 |