Physical chemistry of processes and materials

Description: The course contains material in the field of research and development of methods for obtaining and modifying new materials for a wide range of applications: metallurgy, mechanical engineering, nuclear energy, etc. Undergraduates study materials such as ceramics and refractories, composites, nanostructured and biocompatible materials and coatings.

Amount of credits: 6

Пререквизиты:

• Contemporary methods of the analysis
• Physical Chemistry

Course Workload:

Component: Component by selection

Cycle: Profiling disciplines

Goal

• Acquisition of new knowledge by undergraduates in the field of obtaining new materials such as ceramics, composites, refractories and biocompatible materials using domestic and foreign experience

Objective

• Prepare undergraduates for advanced specialized level to solve current and future problems in the field of physical chemistry of materials, polymers, nanomaterials;
• Development of engineering and research skills of undergraduates

Learning outcome: knowledge and understanding

• Knowledge and understanding of the peculiarities of obtaining composite materials, as well as the properties of various materials; Knowledge and understanding of the features of the states of substances, physical and phase states of polymers, deformation properties of crystalline and amorphous bodies.

Learning outcome: applying knowledge and understanding

• Use analytical methods in order to get an idea of the characteristics of materials. Conduct qualitative research and the ability to complete a research project.

Learning outcome: formation of judgments

• Formulate, present the results of the study, making their own conclusions, and prove their research in a reasoned manner.

Learning outcome: communicative abilities

• To work effectively individually, as well as as a team member on the subject under study, the ability to work with advanced domestic and foreign literature.

Learning outcome: learning skills or learning abilities

• Develop engineering and research skills of undergraduates to work at industrial facilities and government institutions

Teaching methods

When conducting classes, it is planned to use the following educational technologies: - lecture; - discussion and conversation; - working in groups; - solving production tasks.

Assessment of the student's knowledge

Teacher oversees various tasks related to ongoing assessment and determines students' current performance twice during each academic period. Ratings 1 and 2 are formulated based on the outcomes of this ongoing assessment. The student's learning achievements are assessed using a 100-point scale, and the final grades P1 and P2 are calculated as the average of their ongoing performance evaluations. The teacher evaluates the student's work throughout the academic period in alignment with the assignment submission schedule for the discipline. The assessment system may incorporate a mix of written and oral, group and individual formats.

The evaluating policy of learning outcomes by work type

Evaluation form

The student's final grade in the course is calculated on a 100 point grading scale, it includes:

• 40% of the examination result;
• 60% of current control result.

The final grade is calculated by the formula:

 

Where Midterm 1, Midterm 2are digital equivalents of the grades of Midterm 1 and 2;

E is a digital equivalent of the exam grade.

Final alphabetical grade and its equivalent in points:

The letter grading system for students' academic achievements, corresponding to the numerical equivalent on a four-point scale:

Topics of lectures

• Introduction; Physico-chemistry and technology of composite materials
• Polymer composite materials, production, processing technology of these materials
• Polymer composite materials; Methods of testing polymer composite materials
• Composite materials with a metal matrix; Technological process of manufacturing dispersed-hardened composites with a metal matrix
• Ceramic composite materials; Technological process of manufacturing ceramic composites; Advantages and disadvantages of composite materials technology
• Classification of nanomaterials; Methods of materials research
• Carbon nanostructures; Application of carbon nanostructures
• Compact nanocrystalline materials
• Methods of studying the characteristics and properties of materials
• Planning of an experiment in the study of technological processes for the production of materials
• Analysis of waste-free and resource-saving technologies in the production of materials
• Analysis of innovative technologies in the field of obtaining new materials

Key reading

• Paderin S.N., Serov G.V. Fiziko-khimiya metallov i nemetallicheskikh materialov. Uchebno-metodicheskoye posobiye. - M.: MISiS, 2007. - 94 s. Shevchenko, A. A. Fizikokhimiya i mekhanika kompozitsionnykh materialov: Uchebnoye posobiye dlya vuzov / Shevchenko A.A. - SPb:Professiya, 2010. - 224 s. Kuleznev, V.N. Khimiya i fizika polimerov/ V.N. Kuleznev, V.A.Shershnev.- SPb.: Lan', 2014. - 368 s. Al'myashev V.I., Bugrov A.N., Kirillova S.A., Al'myasheva O.V. Fizicheskaya khimiya - osnova novykh materialov i tekhnologiy. Ucheb. posobiye. - SPb.: Izd-vo SPbGETU «LETI», 2018. - 67 s. Narva B.K. Tekhnologiya poroshkovykh materialov i izdeliy. - M. : Izd. Dom MISiS, 2012. - 171 s.

Further reading

• Al'myasheva O.V., Kirillova S.A., Al'myashev V.I. Fiziko-khimicheskoye konstruirovaniye materialov. - Sankt-Peterburg: Izdatel'stvo SPbGETU "LETI", 2015. - 56 s. Yeromasov R.G. Kompozitsionnyye keramicheskiye materialy na osnove krupnozernistogo tekhnogennogo napolnitelya. Dissertatsiya na soiskaniye uchenoy stepeni kandidata tekhnicheskikh nauk. Krasnoyarsk: SFU, 2014. – 154 s. Rolando M.A. Roque-Malherbe. The Physical Chemistry of Materials. Energy and Environmental Applications. 1st Edition. ISBN 9781138117709. Published May 24, 2017 by CRC Press 522. Pages 326 Mohamed Thariq Hameed Sultan, Mohd Shukry Abdul Majid, Mohd Ridzuan Mohd Jamir, Azwan Iskandar Azmi, Naheed Saba. Biocomposite Materials. Design and Mechanical Properties Characterization. eBook ISBN 978-981-33-4091-6. Published: 25 January 2021