A software solution for training to control wide variety of thermal shrinkage polymer films is described. The films are produced of different types of materials and on a big variety of production lines configurations with wide ranges of quality requirements. To solve the training task the solution includes library of mathematic models, databases of production lines configurations, material properties, technological regulations and knowledge base for control of thermal shrinkage properties of polymer films. The library of mathematic models allows considering different properties of the polymers, area of their further exploitation. It also allows simulation modelling and control of thermal shrinkage properties of polymer films such as length and width shrinkage values and the strength of shrinkage. The formalized description of thermal shrinkage films obtaining processes is developed and input, control and output vectors are described. The input vector includes configuration of production line and material properties). The control vector includes temperatures and velocities of production line rolls). Thermal shrinkage properties of polymer films are represented in the output vector. The software solution includes instructor, trainee and administrator interfaces. The interfaces allow editing the databases and the knowledgebase of the solution, initializing the training scenario and formation of training protocols. The training scenario includes a configuration of production line, a material type, quality requirements and acceptable execution time. The protocol describes the dependencies of variations between calculated and required values on time and control values. The developed architecture allows training of production personnel to control the quality of wide variety of thermal shrinkage films. The films can be produced on the production lines of different configuration from wide variety of materials. The software solution was tested by training to control thermal shrinkage film productions on Russian and German plants of Kloeckner Pentaplast corporation.

mathematic models, shrinkage, polymeric films, software solution, training

1. Garipov R.M., Serova V.N., Efremova A.A., Gerkina Je. Yu. Obtaining processes and properties of multilayer thermal-shrinkable polymer film. Vestnik Kazanskogo technologicheskogo universiteta [Bulletin of Kazan technological university]. 2015. V. 18, no. 3, pp. 174–177. (In Russ.).

2. Zhukov A.D., Popova M.N., Solov'eva E.V., Maceevich A.V. Polymers and effective polymeric materials. Nauchnoe obozrenie [Scientific review]. 2015. no. 10–2, pp. 89–93. (In Russ.).

3. Bitiukov V.K., Khaustov I.A., Khvos-tov A.A. et al. System analysis process of the thermal oxidative degradation of polymers in so-lution as a control. Vestnik VGUIT. [Bulletin of VSUET], 2014, no. 3, pp. 61–66. (In Russ.).

4. Khaustov I.A. The polymers solution degradation control on the basis of initiator fractional loading. Vestnik VGUIT. [Bulletin of VSUET], 2014, no. 4, pp. 86–91. (In Russ.).

5. Dozortsev V.M., Agafonov D.V., Yfpby V.A., Novichkov A. Yu. Computer training of operators: constant actuality, new possibilities, human factor. Avtomatizatsiya v promyshlennosti [Automation in industry]. 2015. no. 7. pp. 8–20. (In Russ.).

6. Arakelyan E.K., Andrushin A.V., Burtsev C. Yu. Application of computer trainers for simulation explorations in energy industry. MPEI Vestnik [MPEI Bulletin]. 2015. no. 2, pp. 50–55. (In Russ.).

7. Ershova O.V., Polyakova A.M., Chistyakova T.B. Computer simulators for training personnel of control by electrotechnological installations potentially-dangerous productions. Avtomatizatsiya v promyshlennosti [Automation in industry]. 2016. no. 7, pp. 62–64. (In Russ.).

8. Fayzrakhmanov R.A., Polevshchikov I.S. Modeling and automation of the management process of formation of professional knowledge of the operator of the process system. Inzhenerhyy vestnik Dona [Engineering Journal of Don]. 2014. no. 4. (In Russian) Available at: ivdon.ru/ru/magazine/archive/n4y2014/2705. (accessed 31.03.2017) (In Russ.).

9. Chistyakova T.B., Araztaganova A.M. Computer simulation system for control of thermal shrinkage polymer films obtaining processes. Vestnik Kazanskogo technologicheskogo universiteta [Bulletin of Kazan technological university]. 2015. V. 19, no. 22, pp. 139–143. (In Russ.).

10. Voskresenskiy A.M., Sykalov G.V., Panteleev A.A. Computer model of calandering with high definition quality. Izvestia SPbGTI(TU) [Bulletin of SPSIT]. 2014. no. 25(1), pp. 56–61. (In Russ.).

11. I. Jugo, B. Kova?i?, V. Slavuj Increasing the Adaptivity of an Intelligent Tutoring System with Educational Data Mining: a System Overview // International Journal of Emerging Technologies in Learning. 2016. V. 11, № 3. pp. 67–70.

12. P. Campanella, S. Impedovo IAPR Fellow, Innovative Methods for the E-learning Recommendation / Fifth International Conference on Digital Information Processing and Communications (ICDIPC), 2015. – P. 312–317.