Surface Hardening of Materials

Description: In this course, the achievements of modern physical materials science in the field of modification of the structure and surface properties of structural materials are widely considered: processes occurring during vacuum deposition of elements on metals and alloys; features of changes in the properties of the surface of alloys during chemical and thermal treatment; features of changes in the plastic properties of the surface of irradiated materials; phase transformations in materials during irradiation.

Amount of credits: 6

Пререквизиты:

• Physical Methods of Research

Course Workload:

Component: Component by selection

Cycle: Profiling disciplines

Goal

• The purpose of the discipline "Surface hardening of materials" is to familiarize doctoral students with the achievements of modern physical materials science in the field of modification of the structure and surface properties of structural materials.

Objective

• In accordance with the requirements for the training of specialists, as a result of studying the discipline, doctoral students should know: - the processes occurring during the vacuum deposition of elements on metals and alloys; - features of changes in the surface properties of alloys during chemical and thermal treatment; - features of changes in the strength properties of the surface of irradiated materials; - features of changes in the plastic properties of the surface of irradiated materials; - phase transformations in materials during irradiation, must be able to: - independently work with technical literature, catalogs when analyzing a technical problem; - to justify the scheme and choose the irradiation modes; - to draw up programs of research methods and conduct them using modern methods for studying the structure and quality of irradiated materials; - process scientific results using graphical and analytical methods.

Learning outcome: knowledge and understanding

• Know: traditional methods of surface hardening and coating and modern high-tech methods of surface treatment, the possibilities of modern surface hardening technologies and their applications

Learning outcome: applying knowledge and understanding

• Be able to: choose the coating material and surface treatment methods to obtain a surface with specified characteristics, design technological processes for surface hardening

Learning outcome: formation of judgments

• In the field of surface hardening of materials

Learning outcome: communicative abilities

• The ability to correctly formulate the main tactical and technical and economic requirements for the studied technical objects and competently use the existing scientific and technical means of their implementation

Learning outcome: learning skills or learning abilities

• possesses the ability and skills of independent use of modern information and communication technologies, global information resources in research and computational and analytical activities in the field of modern technologies of surface hardening of materials

Key reading

• 1 Бернштейн М.Л., Займовский В.А. Механические свойства металлов // - М.: Металлургия, 1977. - 495 с. 2 Вотинов С.Н., Прохоров В.И., Островский З.Е. Облученные нержавею-щие стали. - М.: Наука, 1987. - 128 с. 3 Гуляев А.П. Металловедение. - М.: Металлургия, 1976. - 480 с. 4 Золоторевский B.C. Механические испытания и свойства металлов. - М.: Металлургия, 1974.- 302 с. 5 Ибрагимов Ш.Ш., Кирсанов В.В., Пятилетов Ю.С. Радиационные по-вреждения металлов и сплавов. - М.: Энергоатомиздат, 1985. -240 с. 6 Киселевский В.Н. Изменение механических свойств сталей и сплавов при радиационном облучении. - Киев: Наукова Думка, 1977. -104 с. 7 Комаров Ф.Ф. Ионная имплантация в металлы. - М.: Металлургия, 1990. -216 с. 8 Конобеевский С. Т. Действие облучения на материалы. - М.: Атомиз- дат. – 1961 9 Материаловедение. Под ред.Б.Н. Арзамасова, Г.Г. Мухина. -М.: МГТУ им. Н.Э. Баумана, 2003. - 648 с. 10 Методы испытания, контроля и исследования машиностроительных ма-териалов (справочное пособие) Под общей редакцией чл.-корр. АН СССР А.Т. Туманова Том I Физические методы исследования металлов // М.: Машино¬строение, 1971. - 552 с. 11 Мелихов В. Д., Скаков М.К. Радиационно-индуцированный фазово- структурные превращения интерметаллических соединений. Издательство Гылым, Алматы,1998г, 324с 12 Троицкий О. А., Штейнберг В.Г. Радиационная физика прочности ме-таллических кристаллов. М.: Атомиздат, 1969.