Materials Science
Faculteit  Science and Engineering 
Jaar  2020/21 
Vakcode  WBPH02005 
Vaknaam  Materials Science 
Niveau(s)  bachelor 
Voertaal  Engels 
Periode  semester I b 
ECTS  5 
Rooster  rooster.rug.nl 
Uitgebreide vaknaam  Materials Science  
Leerdoelen  At the end of the course, the student is able to: 1. Describe (1) interatomic bonding in materials, (2) how with the help of the periodic table the bonding type can be predicted and (3) how bonding affects in general properties; 2. Describe and analyze in detail structures and properties of engineering materials (i.e. metals, ceramics and polymers) with an emphasis on the mutual relationship between properties and structures on various length scales. 3. Describe mechanical deformation and perform basic calculations of mechanical loading of materials (using linear elasticity and isotropic elastic constants) both analytically but also numerically employing Finite Element Analysis software. 4. Read and analyze binary phase diagrams, being able to compute phase fractions with the lever rule and predict materials microstructures based on phase diagrams. Students are able to describe link between phase diagrams and phase transformations including basic heat treatment processes in steel and precipitation hardenable alloys. 5. Apply a materials selection method (Cambridge Engineering Selector) in product design. 

Omschrijving  In the lectures mainly materials of everyday life, such as metals, ceramics and polymers are treated with an emphasis on mechanical and electrical properties. The red line throughout the lectures is the 'triangular relationship' between structures, properties and processing of materials, e.g. from the process applied the structure on various length scales from atomic to macroscopic scale can be tailored and from the structure the properties can be predicted. Knowledge and understanding of these relationships are important when designing with materials. In addition students will obtain basic skills (1) applying a method for optimum materials selection in product design (Cambridge Engineering Selector) and (2) performing finite element calculations (using linear elasticity theory) to analyze local stresses and strains present in materials with various geometries subjected to mechanical loading.  
Uren per week  
Onderwijsvorm 
Hoorcollege (LC), Practisch werk (PRC), Werkcollege (T)
(24 LC, 12 T, 9 PRC, 96 self study) 

Toetsvorm 
Opdracht (AST), Schriftelijk tentamen (WE)
(100 % WE) 

Vaksoort  bachelor  
Coördinator  prof. dr. ir. B.J. Kooi  
Docent(en)  prof. dr. ir. B.J. Kooi ,prof. dr. A. Vakis  
Verplichte literatuur 


Entreevoorwaarden  Prior knowledge: Basic chemistry, physics and mathematics on highschool (VWO) level.  
Opmerkingen  Mark = 1 + 9*(Points scored by the student)/(Max. number of points that can be scored) Pass mark is equal or higher than 5.5 based on the written exam. For the practicals no pass mark holds, but only it is checked whether the students have worked actively and completed the form sufficiently well before they receive a pass. This course was registered last year with course code NAMATK12 

Opgenomen in 
