The molecular mobility of the epoxy binder in a modified composites by electric-hammer
| Назва | The molecular mobility of the epoxy binder in a modified composites by electric-hammer |
| Назва англійською | The molecular mobility of the epoxy binder in a modified composites by electric-hammer |
| Автори | Petro Stukhlyak, Oleg Totosko |
| Принадлежність | Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine |
| Бібліографічний опис | The molecular mobility of the epoxy binder in a modified composites by electric-hammer / Petro Stukhlyak, Oleg Totosko // Scientific Journal of TNTU. — Tern.: TNTU, 2021. — Vol 103. — No 3. — P. 70–78. |
| Bibliographic description: | Stukhlyak P., Totosko O. (2021) The molecular mobility of the epoxy binder in a modified composites by electric-hammer. Scientific Journal of TNTU (Tern.), vol 103, no 3, pp. 70–78. |
| DOI: | https://doi.org/10.33108/visnyk_tntu2021.03.070 |
| УДК | 691.175 |
| Ключові слова | electric-hammer, molecular mobility, composite. |
In this work, the study of molecular mobility in the surface layers by the method of determining the dielectric characteristics of materials modified by electrospark hydraulic shock, determined the optimal content of the dispersed filler. Comparative data of the tangent of the dielectric loss angle of treated and untreated composite materials are presented. | |
| ISSN: | 2522-4433 |
| Перелік літератури |
1. Fabulyak F. G. Molecular mobility of polymers in surface layers. K.: Naukova dumka. 1983. 144 p.
2. Stukhlyak P. D., Buketov A. V., Totosko O. V., Shovkun O. P. Modification of epoxy materials by electrohydraulic shock. Bulletin of the Podillya University of Technology. Khmelnytsky. 2004. Part 2. Volume 2. P. 47–50.
3. Giginyak F. F., Lebedev A. O., Shkodzinsky O. K. Strength of structural materials under low-cycle loading under conditions of complex stress state. K.: Scientific Opinion, 2003. 270 p.
4. Kolupaev V. S., Krivtsov V. V., Demchuk V. B., Mukha B. I. Research of cybernetic technology of receiving polymeric composite materials. Composite materials: Abstracts add. III International. Scientific and technical Conf. K.: IPC “Polytechnic Publishing House”, 2004. P. 98.
5. Kobasa I. M., Mazurkevich J. S. Method of modifying inorganic filler for polymer compositions. Composite materials: Abstracts add. III International. scientific and technical Conf. K.: IPC “Polytechnic Publishing House”, 2004. P. 97.
6. Savchuk P. P., Kashitsky V. P., Bozhko T. E., Melnyk O. D. Influence of macroenvironment on wear resistance of epoxy compound at frictional interaction. Interuniversity collection “Scientific notes”. Issue 10. Lutsk: LSTU. 2002. P. 208–214.
7. Totosko O. Influence of pre-treatment of a composite with an electrospark water hammer on its adhesive strength. Bulletin of TSTU. 2005. Vol. 10. No. 4. P. 31–36.
8. Buketov A. Investigation of the properties of modified epoxy composites under the influence of thermal field. Bulletin of TSTU. 2004. Vol. 9. No. 3. P. 34-38.
9. Suberliak O., Skorochoda V., Demchuk I., Semenjuk N. Polymeric hydrogels are efficient prolongators of drugs. Abst. Polish-Ukrainian conf. “Polymers of special aplications”. Radom (Poland). 2000. P. 136.
10. Sato Masataka, Ishigure Takaaki, Koike Yasuhiro Thermally stable high-bandwidth graded-index polymer optical fiber. J. Lightwave Technol. 2000. 18. No. 7. P. 952–958. |
| References: |
1. Fabulyak F. G. Molecular mobility of polymers in surface layers. K.: Naukova dumka. 1983. 144 p.
2. Stukhlyak P. D., Buketov A. V., Totosko O. V., Shovkun O. P. Modification of epoxy materials by electrohydraulic shock. Bulletin of the Podillya University of Technology. Khmelnytsky. 2004. Part 2. Volume 2. P. 47–50.
3. Giginyak F. F., Lebedev A. O., Shkodzinsky O. K. Strength of structural materials under low-cycle loading under conditions of complex stress state. K.: Scientific Opinion, 2003. 270 p.
4. Kolupaev V. S., Krivtsov V. V., Demchuk V. B., Mukha B. I. Research of cybernetic technology of receiving polymeric composite materials. Composite materials: Abstracts add. III International. Scientific and technical Conf. K.: IPC “Polytechnic Publishing House”, 2004. P. 98.
5. Kobasa I. M., Mazurkevich J. S. Method of modifying inorganic filler for polymer compositions. Composite materials: Abstracts add. III International. scientific and technical Conf. K.: IPC “Polytechnic Publishing House”, 2004. P. 97.
6. Savchuk P. P., Kashitsky V. P., Bozhko T. E., Melnyk O. D. Influence of macroenvironment on wear resistance of epoxy compound at frictional interaction. Interuniversity collection “Scientific notes”. Issue 10. Lutsk: LSTU. 2002. P. 208–214.
7. Totosko O. Influence of pre-treatment of a composite with an electrospark water hammer on its adhesive strength. Bulletin of TSTU. 2005. Vol. 10. No. 4. P. 31–36.
8. Buketov A. Investigation of the properties of modified epoxy composites under the influence of thermal field. Bulletin of TSTU. 2004. Vol. 9. No. 3. P. 34-38.
9. Suberliak O., Skorochoda V., Demchuk I., Semenjuk N. Polymeric hydrogels are efficient prolongators of drugs. Abst. Polish-Ukrainian conf. “Polymers of special aplications”. Radom (Poland). 2000. P. 136.
10. Sato Masataka, Ishigure Takaaki, Koike Yasuhiro Thermally stable high-bandwidth graded-index polymer optical fiber. J. Lightwave Technol. 2000. 18. No. 7. P. 952–958. |
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