Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms
This paper reports the results of studying epoxy compositions with gypsum taken in the form of dispersed powders in the original and water-hardened form. The exact pattern has been shown in the way the introduction of a gypsum additive in the amount of 50 % by weight affects the strength, chemical s...
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PC Technology Center
2020-10-01
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| Series: | Eastern-European Journal of Enterprise Technologies |
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| Online Access: | http://journals.uran.ua/eejet/article/view/214399 |
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doaj-e212bc3172f144569606be99947f51422020-11-25T03:57:09ZengPC Technology CenterEastern-European Journal of Enterprise Technologies1729-37741729-40612020-10-01512 (107)738010.15587/1729-4061.2020.214399214399Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened formsDmitro Starokadomsky0Dmitry Rassokhin1Anatoly Ishchenko2Nadia Sigareva3Maria Reshetnyk4Chuiko Institute of Surface Chemistry National Academy of Sciences of Ukraine Henerala Naumova str., 17, Kyiv, Ukraine, 03164Pryazovskyi State Technical University Universytetska str., 7, Mariupol, Ukraine, 87555Pryazovskyi State Technical University Universytetska str., 7, Mariupol, Ukraine, 87555Chuiko Institute of Surface Chemistry National Academy of Sciences of Ukraine Henerala Naumova str., 17, Kyiv, Ukraine, 03164National Museum of Natural History at the National Academy of Sciences of Ukraine Bohdana Khmelnytskoho str., 15, Kyiv, Ukraine, 01030This paper reports the results of studying epoxy compositions with gypsum taken in the form of dispersed powders in the original and water-hardened form. The exact pattern has been shown in the way the introduction of a gypsum additive in the amount of 50 % by weight affects the strength, chemical stability, and morphology of the composites. Under conventional heat treatment (60‒110 °C) of the hardened composites, the maximum stress at compression σm and the elasticity module at compression Ес, as well as wear resistance, decrease after the introduction of gypsums (of both types). At the same time, after a hard (destructive) heating at 250‒260 °C, the elasticity module Ес of the hardened composites increases. The maximum stress at compression σm is also increased. The same applies to the wear resistance, which grows especially noticeably after 250 °C. The micro-hardness after filling is prone to increase but the fragility of epoxy-gypsum composites does not make it possible to measure it when a punch (a steel hemisphere) penetrates it deeper than 20 µm. However, after the heat treatment at 250‒260 °C, the unfilled polymer, on the contrary, is embrittled while the filled ones are plasticized, thus showing a high micro-hardness at significant (30‒50 µm) immersion. The composites with gypsum, in contrast to the unfilled ones, do not disintegrate in acetone and retain integrity at any aging duration (up to 75 days and beyond). In this case, the original gypsum produces a composite with less swelling in acetone than the hardened gypsum. Based on the data from atomic-strength microscopy (ASM) microscopy, the morphologies of the non-filled composite, the composites with the hardened gypsum and original gypsum are different. The original gypsum forms a composite with a more pronounced (possibly crystalline) filler structure; the morphology for the hardened composite reflects the distribution of inert particles; for the unfilled composite (H-composite), only pores are visible against the background of a relatively smooth reliefhttp://journals.uran.ua/eejet/article/view/214399epoxy compositegypsummicro-hardnesschemical resistancethermal strengtheningstrengthmorphologywater hardening |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Dmitro Starokadomsky Dmitry Rassokhin Anatoly Ishchenko Nadia Sigareva Maria Reshetnyk |
| spellingShingle |
Dmitro Starokadomsky Dmitry Rassokhin Anatoly Ishchenko Nadia Sigareva Maria Reshetnyk Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms Eastern-European Journal of Enterprise Technologies epoxy composite gypsum micro-hardness chemical resistance thermal strengthening strength morphology water hardening |
| author_facet |
Dmitro Starokadomsky Dmitry Rassokhin Anatoly Ishchenko Nadia Sigareva Maria Reshetnyk |
| author_sort |
Dmitro Starokadomsky |
| title |
Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| title_short |
Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| title_full |
Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| title_fullStr |
Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| title_full_unstemmed |
Strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| title_sort |
strength and chemical resistance of composites based on epoxy resins, filled with gypsum in the original and waterhardened forms |
| publisher |
PC Technology Center |
| series |
Eastern-European Journal of Enterprise Technologies |
| issn |
1729-3774 1729-4061 |
| publishDate |
2020-10-01 |
| description |
This paper reports the results of studying epoxy compositions with gypsum taken in the form of dispersed powders in the original and water-hardened form. The exact pattern has been shown in the way the introduction of a gypsum additive in the amount of 50 % by weight affects the strength, chemical stability, and morphology of the composites.
Under conventional heat treatment (60‒110 °C) of the hardened composites, the maximum stress at compression σm and the elasticity module at compression Ес, as well as wear resistance, decrease after the introduction of gypsums (of both types). At the same time, after a hard (destructive) heating at 250‒260 °C, the elasticity module Ес of the hardened composites increases. The maximum stress at compression σm is also increased. The same applies to the wear resistance, which grows especially noticeably after 250 °C.
The micro-hardness after filling is prone to increase but the fragility of epoxy-gypsum composites does not make it possible to measure it when a punch (a steel hemisphere) penetrates it deeper than 20 µm. However, after the heat treatment at 250‒260 °C, the unfilled polymer, on the contrary, is embrittled while the filled ones are plasticized, thus showing a high micro-hardness at significant (30‒50 µm) immersion.
The composites with gypsum, in contrast to the unfilled ones, do not disintegrate in acetone and retain integrity at any aging duration (up to 75 days and beyond). In this case, the original gypsum produces a composite with less swelling in acetone than the hardened gypsum. Based on the data from atomic-strength microscopy (ASM) microscopy, the morphologies of the non-filled composite, the composites with the hardened gypsum and original gypsum are different. The original gypsum forms a composite with a more pronounced (possibly crystalline) filler structure; the morphology for the hardened composite reflects the distribution of inert particles; for the unfilled composite (H-composite), only pores are visible against the background of a relatively smooth relief |
| topic |
epoxy composite gypsum micro-hardness chemical resistance thermal strengthening strength morphology water hardening |
| url |
http://journals.uran.ua/eejet/article/view/214399 |
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