AT THE TURN OF THE XX-XXI centuries, breakthrough directions in the creation of new principles for the formation of active, adaptive and intelligent materials and systems were outlined in materials science. These principles are based on the latest fundamental achievements of related sciences and the capabilities of computer modeling. It is in this area that the scientific research of materials scientists of the world will be of interest.
Offered By
Design of bulk nanostructured metal materials
Peter the Great St. Petersburg Polytechnic UniversityAbout this Course
Knowledge of physics, chemistry, foundations of material science.
What you will learn
You will learn to analyze the features of the structure and properties of nanostructured carboon steels.
You will learn to take a critical approach of existing methods for the preparation of bulk nanostructured metallic materials.
You will learn how to develop principles for the design of innovative methods for producing bulk nanostructured metallic materials.
Skills you will gain
Knowledge of physics, chemistry, foundations of material science.
Offered by

Peter the Great St. Petersburg Polytechnic University
Peter the Great St. Petersburg Polytechnic University has a long-standing and successful history over 100 years where a great deal of important discoveries and inventions have been made. It was founded in 1899.
Syllabus - What you will learn from this course
Module 1. Nanostructured metals. General information
Students will get acquainted with peculiarities how structure and properties in metals change after severe plastic deformation. Description of methods of severe plastic deformation will be presented. Typical methods for investigation of nanostructured metals will be characterized.
Module 2. Carbon steel after equal channel angular pressing
Information about microstructure and mechanical properties change in low carbon and medium carbon steels after equal channel angular pressing is studied. Perspectives to use equal channel angular pressing in metal ware manufacturing processes are presented.
Module 3. Peculiarities of nanostructured carbon steels behavior after different kinds of further processing
Microstructure change in nanostructured low carbon and medium carbon steels after heating is studied. Practical aspects to use nanostructured low carbon and medium carbon steels for wire and hexagonal screw are presented. Properties of wire and hexagonal screw made from nanostructured carbon steel are presented.
Module 4. Designing new methods of deformational nanostructuring for long length products
New methods for long length products nanostructuring based on combination of different kinds of deformation are studied. Peculiarities of combined deformational processing for long length products are presented. Microstructure and properties of nanostructured long length products are presented.
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