Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
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SVVS 6313 | Modern Problems of High Molecular Compositions | Бірінші курс | 5 | 150 | 1 | 2 | - |
Forms knowledge about the chemical structure, properties, synthesis of polymers, methods of toning radical polymers, ionic polymerization, polycondensation. The content of the course is aimed at the ability to carry out chemical transformations of polymers, to determine the structure and properties of polymers. The student in working with the group analyzes and interprets his opinion in combination with the opinion of the team to substantiate the reliability and value of the data obtained within the framework of modern concepts and theories in the field of chemistry.
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Working in a group
Brainstorming
Technology of developmental learning
The case study
method is a Mini-research method
1 | He knows the concepts of polymer chemistry and studies its properties by modern methods. |
2 | Based on butlerov's theory of chemical structure, he learns the classification of chemistry of upper molecular compounds, properties, composition, structure of upper molecular compounds, methods of their extraction in the laboratory and industry, performs the synthesis of upper molecular compounds |
3 | Knowledge of upper molecular compounds, classification of upper molecular compounds, methods of industrial production, basic and reference literature, mastering the technique, as well as accounting for facts obtained from conducting experiments |
4 | Conducts independent work with textbooks and basic literature, performs chemical experiments, summarizes the data obtained from it. |
Haftalık Konu | Evaluation Method | |
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1 | Basic concepts and definitions of the chemistry of high molecular weight compounds | test |
2 | Role of polymers in living nature. The main historical stages of the development of polymer chemistry. Obtaining polymers. Obtaining polystyrene by thermal polymerization in a styrene block. | презентация |
3 | Nomenclature and classification of polymers. Obtaining polystyrene by polymerization of styrene in an emulsion. | Сұрақ-жауап |
4 | Macromolecules and their properties in solution | Библиография |
5 | The structure of polymers. Polymerization of styrene in a mixture in trifluoroacetic acid. Polymerization of styrene in solution in the presence of tin tetrachloride. | Ауызша |
6 | Methods for determining the molecular weight of polymers Ionic polymerization. Preparation of phenol-formaldehyde oligomers in an acidic environment by polycondensation of phenol and formaldehyde | Жазбаша |
7 | Preparation of phenol-formaldehyde oligomers of the resolute type in an alkaline medium by polycondensation of phenol and formaldehyde. | Ауызша және жазбаша |
8 | Poly-connections. Production of polyepoxide ED-20. Production of polyepoxide ED-8. | презентация |
9 | Synthesis of polymers Chemical changes in polymers. Esterification of polyvinyl alcohol and production of polyvinyl acetate. | test |
10 | Ionic polymerization Physical and physico-chemical methods of polymer research. Determination of the molecular weight of polymers by the viscometric method. | Ауызша және жазбаша |
11 | Determination of the multi-dispersion of polymer molecules by the viscometric method. Determination of the multidispersity of polymer macromolecules by turbimetric titration. | Жазбаша |
12 | Anionic polymerization Study of the mechanical properties of polymers. | Ауызша |
13 | Polycondensation. Analysis of polymer swelling processes. | Ауызша |
14 | Determination of Rockwell hardness. Methods for determining the chemical resistance and hardness of Plastics. | Ауызша және жазбаша |
15 | Chemical transformation of polymers. Features of polymer reactions the influence of various factors on the degree of swelling of high molecular compounds. | Жазбаша |
PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 |
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Textbook / Material / Recommended Resources | ||
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1 | Týgelbaeva L.M. Joǵary molekýlalyq qosylystar hımıasynyń teorıalyq negizderi. Oqý quraly. 2020. | |
2 | Rahmetýllaeva R.K. Toktabaeva A.K. Joǵary molekýlalyq qosylystar hımıasy boıynsha esepter jınaǵy. Oqý quraly. Almaty, 2017. | |
3 | Holmberg K. Sýly eritindilerdegi betti-aktıvti zattar jáne polımerler. Oqýlyq. 2017. | |
4 | Toqtabaeva Á.Q., Týmabaeva A.M. Polımerli materıaldardyń sapasyn baqylaý. Oqý quraly. Almaty, 2016Toqtabaeva Á.Q., Týmabaeva A.M. Polımerli materıaldardyń sapasyn baqylaý. Oqý quraly. Almaty, 2016 | |
5 | Rahmetýllaeva R.Q. Jańa polımerli materıaldar. Oqý quraly. Almaty, 2016. | |
6 | Beláev a. p., Kýchýk V. I. fızıkalyq jáne koloıdtyq hımıa,. Oqý quraly. Almaty 2014. |