Study on enhancing mechanical and thermal properties of carbon fiber reinforced epoxy composite through zinc oxide nanofiller

This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO) nanofillers. The composites were developed by adding 3–15 g of ZnO nanoparticles into the epoxy matrix and were evaluated through experimental te...

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Published inDiscover applied sciences Vol. 6; no. 11; pp. 566 - 10
Main Authors Raja, Thandavamoorthy, Devarajan, Yuvarajan, kailiappan, Nandagopal
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 25.10.2024
Springer Nature B.V
Springer
Subjects
Applied and Technical Physics
Automobile design & engineering
Carbon
Carbon fiber
Carbon fiber reinforced plastics
Carbon fiber reinforcement
Carbon-epoxy composites
Chemistry/Food Science
Composite materials
Earth Sciences
Engineering
Environment
Environmental engineering
Epoxy matrix composites
Epoxy resins
Fiber composites
Fiber reinforced polymers
Fiber-matrix adhesion
Flexural strength
Graphene
Heat conductivity
Heat resistance
Heat treatment
Load transfer
Materials Science
Mechanical properties
Microscopy
Morphology
Nanoparticles
Polymers
Temperature
Tensile strength
Thermal conductivity
Thermal expansion
Thermal properties
Thermal stability
Thermodynamic properties
Zinc oxide
Zinc oxide nanoparticles
Zinc oxides
India
Automobile design & engineering
Microscopy
Zinc oxide nanoparticles
Environmental engineering
Carbon fiber
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Abstract This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO) nanofillers. The composites were developed by adding 3–15 g of ZnO nanoparticles into the epoxy matrix and were evaluated through experimental testing. The results showed significant improvements in mechanical performance, with the maximum tensile strength of 112.49 MPa and flexural strength of 114.82 MPa at the 15 g ZnO concentration. SEM analysis revealed a reduction in void content and improved fiber-matrix adhesion, enhancing load transfer. Thermal conductivity is 13.47 W/mK, while the coefficient of linear thermal expansion is 9.29 × 10 −5 /°C, indicating superior thermal stability. TGA analysis demonstrated a shift in decomposition temperature from 310 to 375 °C, confirming enhanced thermal stability. These results highlight the positive influence of ZnO nanofillers on both the mechanical and thermal properties of carbon fiber reinforced epoxy composites, making them more suitable for advanced structural applications. Article highlights Alkaline treatment technique is employed to enhance the fibre properties. ZnO filler improved the thermal stability at degradation temperatures. Proposed composite is suited for structural applications.
AbstractList This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO) nanofillers. The composites were developed by adding 3–15 g of ZnO nanoparticles into the epoxy matrix and were evaluated through experimental testing. The results showed significant improvements in mechanical performance, with the maximum tensile strength of 112.49 MPa and flexural strength of 114.82 MPa at the 15 g ZnO concentration. SEM analysis revealed a reduction in void content and improved fiber-matrix adhesion, enhancing load transfer. Thermal conductivity is 13.47 W/mK, while the coefficient of linear thermal expansion is 9.29 × 10 −5 /°C, indicating superior thermal stability. TGA analysis demonstrated a shift in decomposition temperature from 310 to 375 °C, confirming enhanced thermal stability. These results highlight the positive influence of ZnO nanofillers on both the mechanical and thermal properties of carbon fiber reinforced epoxy composites, making them more suitable for advanced structural applications. Article highlights Alkaline treatment technique is employed to enhance the fibre properties. ZnO filler improved the thermal stability at degradation temperatures. Proposed composite is suited for structural applications.
This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO) nanofillers. The composites were developed by adding 3–15 g of ZnO nanoparticles into the epoxy matrix and were evaluated through experimental testing. The results showed significant improvements in mechanical performance, with the maximum tensile strength of 112.49 MPa and flexural strength of 114.82 MPa at the 15 g ZnO concentration. SEM analysis revealed a reduction in void content and improved fiber-matrix adhesion, enhancing load transfer. Thermal conductivity is 13.47 W/mK, while the coefficient of linear thermal expansion is 9.29 × 10−5/°C, indicating superior thermal stability. TGA analysis demonstrated a shift in decomposition temperature from 310 to 375 °C, confirming enhanced thermal stability. These results highlight the positive influence of ZnO nanofillers on both the mechanical and thermal properties of carbon fiber reinforced epoxy composites, making them more suitable for advanced structural applications.Article highlightsAlkaline treatment technique is employed to enhance the fibre properties.ZnO filler improved the thermal stability at degradation temperatures.Proposed composite is suited for structural applications.
Abstract This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO) nanofillers. The composites were developed by adding 3–15 g of ZnO nanoparticles into the epoxy matrix and were evaluated through experimental testing. The results showed significant improvements in mechanical performance, with the maximum tensile strength of 112.49 MPa and flexural strength of 114.82 MPa at the 15 g ZnO concentration. SEM analysis revealed a reduction in void content and improved fiber-matrix adhesion, enhancing load transfer. Thermal conductivity is 13.47 W/mK, while the coefficient of linear thermal expansion is 9.29 × 10−5/°C, indicating superior thermal stability. TGA analysis demonstrated a shift in decomposition temperature from 310 to 375 °C, confirming enhanced thermal stability. These results highlight the positive influence of ZnO nanofillers on both the mechanical and thermal properties of carbon fiber reinforced epoxy composites, making them more suitable for advanced structural applications.
ArticleNumber 566
Author kailiappan, Nandagopal
Devarajan, Yuvarajan
Raja, Thandavamoorthy
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  givenname: Yuvarajan
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  fullname: Devarajan, Yuvarajan
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  givenname: Nandagopal
  surname: kailiappan
  fullname: kailiappan, Nandagopal
  email: nandagopal.kaliappan@haramaya.edu.et
  organization: Department of Mechanical Engineering, Haramaya Institute of Technology, Haramaya University, Department of Food Technology, Dhanalakshmi Srinivasan College of Engineering
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CitedBy_id crossref_primary_10_1016_j_polymertesting_2025_108761
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crossref_primary_10_1016_j_nexres_2024_100117
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Snippet This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide (ZnO)...
Abstract This study investigates the enhancement of mechanical and thermal properties of carbon fiber reinforced epoxy composites by incorporating zinc oxide...
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SubjectTerms Applied and Technical Physics
Automobile design & engineering
Carbon
Carbon fiber
Carbon fiber reinforced plastics
Carbon fiber reinforcement
Carbon-epoxy composites
Chemistry/Food Science
Composite materials
Earth Sciences
Engineering
Environment
Environmental engineering
Epoxy matrix composites
Epoxy resins
Fiber composites
Fiber reinforced polymers
Fiber-matrix adhesion
Flexural strength
Graphene
Heat conductivity
Heat resistance
Heat treatment
Load transfer
Materials Science
Mechanical properties
Microscopy
Morphology
Nanoparticles
Polymers
Temperature
Tensile strength
Thermal conductivity
Thermal expansion
Thermal properties
Thermal stability
Thermodynamic properties
Zinc oxide
Zinc oxide nanoparticles
Zinc oxides
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Title Study on enhancing mechanical and thermal properties of carbon fiber reinforced epoxy composite through zinc oxide nanofiller
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