Ви переглядаєте архівну версію офіційного сайту НУЛП (2005-2020р.р.). Актуальна версія: https://lpnu.ua
New Technologies in High Molecular Compounds Production
Major: Chemical Technology and Engineering
Code of Subject: 7.161.07.E.99
Credits: 6
Department: Chemical Technology of Plastics Processing
Lecturer: Associate Professor Moravskyi Volodymyr
Semester: 2 семестр
Mode of Study: денна
Learning outcomes:
• know the latest advances in the synthesis of macromolecular compounds;
• use scientific positions Chemical Technology of Macromolecular Compounds in production or laboratory;
• Know the technological features reception polymerization and polycondensation macromolecular compounds;
• Know the technological scheme of obtaining polymers;
• know the basic physical, mechanical, technological and operational properties of polymers.
• use scientific positions Chemical Technology of Macromolecular Compounds in production or laboratory;
• Know the technological features reception polymerization and polycondensation macromolecular compounds;
• Know the technological scheme of obtaining polymers;
• know the basic physical, mechanical, technological and operational properties of polymers.
Required prior and related subjects:
• Special processes of synthesis and modification of polymers
• Chemical Technology of Macromolecular Synthesis
• Chemical Technology of Macromolecular Synthesis
Summary of the subject:
New production technology polyolefins. Bimodal technology. The introduction of metallocene catalysts. Polymers of unsaturated aliphatic hydrocarbons and their derivatives. The technology of bimodal polyethylene. Technologies of reception of linear density polyethylene. Polypropylene. Polyisobutylene. Polymers of unsaturated aromatic polymers. Polymers halogen derivatives of unsaturated hydrocarbons. Vinnolit technology company to obtain a suspension of PVC. High-Polymerizers reactor for suspension polymerization of vinyl chloride. Polivinilidenhloryd. Polytetrafluoroethylene. Polymers of derivatives of acrylic and methacrylic acids. Simple and complex polymers of vinyl esters. Polyvinyl acetate. Polymers simple vinyl esters. Polymers derived from ethylene complex substituents. Polivinilkarbazol. Polivinilpirydyny. Kumarono-indene polymers. Simple polyesters. Polyformaldehyde. Polyalkylene oxides. Polyurethanes. Polyurethane foam. Elastic polyurethane. Rigid polyurethane. Plastics-based polymers derived by polycondensation reaction. Common patterns of reaction polycondensation. Methods of polycondensation. Phenolic polymers. Features of the synthesis of phenolic polymers. Getting novolachnyh oligomers. Getting rezolnyh oligomers. The modified phenol-formaldehyde polymers. Phenoplast. Amino-aldehyde polymers. Features karbamidoformaldehidnyh synthesis of polymers. Production karbamidoformaldehidnyh oligomers. Melamine-formaldehyde polymers. Heterolantsohovi polyesters. Thermoplastic polyesters. Polyethylene. Polycondensation in the solid phase (SSP) and dvohreaktorna technology (2R) "melt into pitch" (MTR). Polycarbonate. PoliarylatyNenasychenni polyesters. Epoxy polymers. Reaction of epoxy oligomers. Production of epoxy polymers. Cycloaliphatic epoxy polymers. Polyamide. Hydrolytic and anionic polymerization of caprolactam. Poliheksametylenadypamid (polyamide 6,6). Polifenilenizoftalamid (Nomex). Aramids. Modified polyamides. Poliheterotsyklolantsyuhovi polymers. Polyimides. Elementoorganic polymers. Silicone polymers. Polycondensation silicone oligomers. Elementoorganic polymers containing aluminum, titanium, phosphorus.
Recommended Books:
1. Курта С.А., Курганський В.С. Хімія і технологія високомолекулярних сполук. Навчальний посібник – Івано-Франківськ: Видавництво «Плай» ЦІТ Прикарпатського національного університету імені Василя Стефаника, 2010. – 291 с.
2. Белокурова, А.П. Химия и технология получения полиолефинов: учебное пособие / А.П. Белокурова, Т.А. Агеева; под ред. О.И. Койфмана. Иван. гос. хим.-технол. ун-т. – Иваново, 2011. – 126 с.
3. Адяева Л.В., Мещеряков Е.П., Корнеев С.В. Полиолефины. Производство полипропилена. I часть. Учебное пособие. Омск: Изд-во ОмГТУ, 2009.- 91 с.
4. Белокурова А.П., Агеева Т.А. Химия и технология получения полиолефинов. Учебное пособие. - Иваново, ИГХТУ, 2011. - 126 с.
5. Гришин Д.Ф. Контролируемый синтез макромолекул. - Нижний Новгород, 2007, 82 с.
6. Дерябина Г.И. Сополимеризация. Учебное пособие. - Самара: «Самарский университет», 2012. - 48 с.
2. Белокурова, А.П. Химия и технология получения полиолефинов: учебное пособие / А.П. Белокурова, Т.А. Агеева; под ред. О.И. Койфмана. Иван. гос. хим.-технол. ун-т. – Иваново, 2011. – 126 с.
3. Адяева Л.В., Мещеряков Е.П., Корнеев С.В. Полиолефины. Производство полипропилена. I часть. Учебное пособие. Омск: Изд-во ОмГТУ, 2009.- 91 с.
4. Белокурова А.П., Агеева Т.А. Химия и технология получения полиолефинов. Учебное пособие. - Иваново, ИГХТУ, 2011. - 126 с.
5. Гришин Д.Ф. Контролируемый синтез макромолекул. - Нижний Новгород, 2007, 82 с.
6. Дерябина Г.И. Сополимеризация. Учебное пособие. - Самара: «Самарский университет», 2012. - 48 с.
Assessment methods and criteria:
• written reports on laboratory work, oral examination (20%)
• the final assessment (80% control measure, exam), written-oral form (80%)
• the final assessment (80% control measure, exam), written-oral form (80%)