|
METADATA
Contact hours: 46
Non-contact hours: 152
Credit rating: 6
Semester: 1
Aims Study of the basic terminology in the field of thermodynamics, molecular physics, electricity and magnetism, optics, atomic and nuclear physics, as well as gaining knowledge about atomic-molecular science, chemical interaction, chemical kinetics, electrochemistry. Study of general physics and materials science terminology, understanding of basic chemical and physical phenomena.
The Contents
1. (Lectures) The structure of materials and its parameters. X-ray diffractometry; Scanning electron microscopy. Transmission Electron Microscopy.
2. (Practical training and laboratory work) Microstructure. Relationship between structure and properties. Scale levels of structure: visual observation, observation with an optical microscope, electron microscopy. Principles of determining the crystal structure from the X-ray diffraction pattern of a polycrystal. Precise determination of grating periods. Operating principle and design of a scanning electron microscope. Research methods. Preparation of samples for examination on a scanning electron microscope. Methods of manufacturing objects of investigation in transmission electron microscopy. electron microscopy for solving problems of structural analysis.
LEARNING OUTCOMES (OBJECTIVES)
1.Reveal elements of surface morphology of materials
2.Determine the elements of the defective substructure of the material: dislocation density; distribution, size and volume fraction of particles of the second phase; internal stress fields
3.Evaluate the amount of hardening of the material introduced by the dislocation substructure, particles of the second phase, and internal stress fields
4.Operate equipment that allows you to investigate the morphology of the surface of the material
5.Operate equipment allowing to investigate the defective substructure, elemental and phase composition of the material
|
|
Расписание