Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications
Polymer-based matrix hybrid composites meet their demand in various engineering applications and food industries due to their excellent mechanical, thermal, corrosion, and biodegradable performance. The polymer-based hybrid composites have been a better choice for high thermal insulation at low cost...
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| Main Authors: | , , , , , , , |
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| Format: | Article |
| Language: | English |
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SAGE Publishing
2023-01-01
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| Series: | Adsorption Science & Technology |
| Online Access: | http://dx.doi.org/10.1155/2023/4817731 |
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| author | R. Venkatesh Roshita David C. B. Priya M. Aruna Gopal Kaliyaperumal N. Mukilarasan Avinash Malladi M. Karthikeyan |
| author_facet | R. Venkatesh Roshita David C. B. Priya M. Aruna Gopal Kaliyaperumal N. Mukilarasan Avinash Malladi M. Karthikeyan |
| author_sort | R. Venkatesh |
| collection | DOAJ |
| description | Polymer-based matrix hybrid composites meet their demand in various engineering applications and food industries due to their excellent mechanical, thermal, corrosion, and biodegradable performance. The polymer-based hybrid composites have been a better choice for high thermal insulation at low cost. This experiment attempted to find the thermal adsorption characteristics, heat deflection temperature, linear thermal expansion, and thermal conductivity of epoxy hybrid composites, which contained four different layers of Kevlar and basalt fiber fabricated via a low-cost conventional hand mold layup technique. This experiment revealed that the effect of basalt/Kevlar fiber on epoxy increased thermal performance. The results noted that the hybrid composite consists of less Kevlar fiber with the maximum basalt fiber of sample 4, showed excellent thermal adsorption effect on weight loss limited at 70.98%, and a better heat deflection temperature and11.78×10−6per °C linear thermal expansion were obtained. Sample 3 exhibited a maximum thermal conductivity of 0.251 W/mK. However, the thermal adsorption of hybrid composite has been limited by more basalt fiber, leading to a 1 wt%/°C decomposition rate. |
| format | Article |
| id | doaj-art-bc831967ee24488cb6141983368c82ba |
| institution | Kabale University |
| issn | 2048-4038 |
| language | English |
| publishDate | 2023-01-01 |
| publisher | SAGE Publishing |
| record_format | Article |
| series | Adsorption Science & Technology |
| spelling | doaj-art-bc831967ee24488cb6141983368c82ba2025-01-03T01:19:25ZengSAGE PublishingAdsorption Science & Technology2048-40382023-01-01202310.1155/2023/4817731Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage ApplicationsR. Venkatesh0Roshita David1C. B. Priya2M. Aruna3Gopal Kaliyaperumal4N. Mukilarasan5Avinash Malladi6M. Karthikeyan7Department of DesignDepartment of Mechanical EngineeringDepartment of Mechanical EngineeringFaculty of Mechanical and Industrial EngineeringDepartment of Mechanical EngineeringDepartment of Mechanical EngineeringDepartment of Mechatronics EngineeringDepartment of Electrical and Computer EngineeringPolymer-based matrix hybrid composites meet their demand in various engineering applications and food industries due to their excellent mechanical, thermal, corrosion, and biodegradable performance. The polymer-based hybrid composites have been a better choice for high thermal insulation at low cost. This experiment attempted to find the thermal adsorption characteristics, heat deflection temperature, linear thermal expansion, and thermal conductivity of epoxy hybrid composites, which contained four different layers of Kevlar and basalt fiber fabricated via a low-cost conventional hand mold layup technique. This experiment revealed that the effect of basalt/Kevlar fiber on epoxy increased thermal performance. The results noted that the hybrid composite consists of less Kevlar fiber with the maximum basalt fiber of sample 4, showed excellent thermal adsorption effect on weight loss limited at 70.98%, and a better heat deflection temperature and11.78×10−6per °C linear thermal expansion were obtained. Sample 3 exhibited a maximum thermal conductivity of 0.251 W/mK. However, the thermal adsorption of hybrid composite has been limited by more basalt fiber, leading to a 1 wt%/°C decomposition rate.http://dx.doi.org/10.1155/2023/4817731 |
| spellingShingle | R. Venkatesh Roshita David C. B. Priya M. Aruna Gopal Kaliyaperumal N. Mukilarasan Avinash Malladi M. Karthikeyan Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications Adsorption Science & Technology |
| title | Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications |
| title_full | Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications |
| title_fullStr | Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications |
| title_full_unstemmed | Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications |
| title_short | Synthesis and Experimental Thermal Adsorption Characteristics of Epoxy Hybrid Composite for Energy Storage Applications |
| title_sort | synthesis and experimental thermal adsorption characteristics of epoxy hybrid composite for energy storage applications |
| url | http://dx.doi.org/10.1155/2023/4817731 |
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