Thermal and mechanical properties study of boron nitride nanosheets decorated by silver/epoxy nanocomposites

Epoxy is widely used in mechanical and electronic industries due to its excellent adhesive properties and mechanical performances. However, the poor thermal conductivity limits its application, especially in high density equipment. In order to improve the thermal conductivity of epoxy, silver nanopa...

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Published inSN applied sciences Vol. 2; no. 4; p. 770
Main Authors Wu, Yunjian, Zhang, Xiaoxing, Hu, Guoxiong
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.04.2020
Springer Nature B.V
Subjects
Applications
Applied and Technical Physics
Boron
Boron nitride
Carbon
Chemistry/Food Science
Computational
Dynamic stability
Earth Sciences
Engineering
Engineering: Mechanical Engineering: Design
Environment
Glass transition temperature
Heat conductivity
Heat transfer
Loss modulus
Materials Science
Mechanical properties
Morphology
Nanocomposites
Nanomaterials
Nanoparticles
Nanosheets
Polyethylene
Polymers
Polyvinyl alcohol
Research Article
Silicon nitride
Silver
Stiffness
Storage modulus
Thermal conductivity
Thermal stability
Thermodynamic properties
Thermomechanical analysis
Transition temperatures
Thermal properties
Boron nitride
Mechanical properties
Silver
Epoxy
Online AccessGet full text
ISSN2523-3963
2523-3971
DOI10.1007/s42452-020-2505-x

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Abstract Epoxy is widely used in mechanical and electronic industries due to its excellent adhesive properties and mechanical performances. However, the poor thermal conductivity limits its application, especially in high density equipment. In order to improve the thermal conductivity of epoxy, silver nanoparticles decorated boron nitride nano-sheets (Ag-BN) were prepared and incorporated into the epoxy matrix to obtain nanocomposites (EP-AB) in this work. The EP-AB behaves a significant enhancement of 1089% at an Ag-BN loading of 25 vol% compared to the pure epoxy. The thermogravimetric curve shows that the thermal stability of nanocomposites is improved with the addition of Ag-BN. Moreover, dynamic thermomechanical analysis reveals that Ag-BN can effectively reduce the segmental mobility of the epoxy matrix, which helps to improve the stiffness, decrease the mechanical loss, and increase the glass transition temperature of EP-AB. Those three properties gain an optimum value when the content of Ag-BN is 20 vol%. Also, the nanocomposites perform more stability in mechanical properties than pure epoxy under a varied frequency. The Cole–Cole plot of storage modulus and loss modulus shows that the pure epoxy and nanocomposites with low nanomaterial content are homogenous and the uniformity begins to decrease when the addition of Ag-BN is 20 vol%.
AbstractList Epoxy is widely used in mechanical and electronic industries due to its excellent adhesive properties and mechanical performances. However, the poor thermal conductivity limits its application, especially in high density equipment. In order to improve the thermal conductivity of epoxy, silver nanoparticles decorated boron nitride nano-sheets (Ag-BN) were prepared and incorporated into the epoxy matrix to obtain nanocomposites (EP-AB) in this work. The EP-AB behaves a significant enhancement of 1089% at an Ag-BN loading of 25 vol% compared to the pure epoxy. The thermogravimetric curve shows that the thermal stability of nanocomposites is improved with the addition of Ag-BN. Moreover, dynamic thermomechanical analysis reveals that Ag-BN can effectively reduce the segmental mobility of the epoxy matrix, which helps to improve the stiffness, decrease the mechanical loss, and increase the glass transition temperature of EP-AB. Those three properties gain an optimum value when the content of Ag-BN is 20 vol%. Also, the nanocomposites perform more stability in mechanical properties than pure epoxy under a varied frequency. The Cole–Cole plot of storage modulus and loss modulus shows that the pure epoxy and nanocomposites with low nanomaterial content are homogenous and the uniformity begins to decrease when the addition of Ag-BN is 20 vol%.
Epoxy is widely used in mechanical and electronic industries due to its excellent adhesive properties and mechanical performances. However, the poor thermal conductivity limits its application, especially in high density equipment. In order to improve the thermal conductivity of epoxy, silver nanoparticles decorated boron nitride nano-sheets (Ag-BN) were prepared and incorporated into the epoxy matrix to obtain nanocomposites (EP-AB) in this work. The EP-AB behaves a significant enhancement of 1089% at an Ag-BN loading of 25 vol% compared to the pure epoxy. The thermogravimetric curve shows that the thermal stability of nanocomposites is improved with the addition of Ag-BN. Moreover, dynamic thermomechanical analysis reveals that Ag-BN can effectively reduce the segmental mobility of the epoxy matrix, which helps to improve the stiffness, decrease the mechanical loss, and increase the glass transition temperature of EP-AB. Those three properties gain an optimum value when the content of Ag-BN is 20 vol%. Also, the nanocomposites perform more stability in mechanical properties than pure epoxy under a varied frequency. The Cole–Cole plot of storage modulus and loss modulus shows that the pure epoxy and nanocomposites with low nanomaterial content are homogenous and the uniformity begins to decrease when the addition of Ag-BN is 20 vol%.
ArticleNumber 770
Author Zhang, Xiaoxing
Hu, Guoxiong
Wu, Yunjian
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  givenname: Guoxiong
  surname: Hu
  fullname: Hu, Guoxiong
  organization: School of Electrical Engineering and Automation, Wuhan University
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Epoxy
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Snippet Epoxy is widely used in mechanical and electronic industries due to its excellent adhesive properties and mechanical performances. However, the poor thermal...
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SubjectTerms Applications
Applied and Technical Physics
Boron
Boron nitride
Carbon
Chemistry/Food Science
Computational
Dynamic stability
Earth Sciences
Engineering
Engineering: Mechanical Engineering: Design
Environment
Glass transition temperature
Heat conductivity
Heat transfer
Loss modulus
Materials Science
Mechanical properties
Morphology
Nanocomposites
Nanomaterials
Nanoparticles
Nanosheets
Polyethylene
Polymers
Polyvinyl alcohol
Research Article
Silicon nitride
Silver
Stiffness
Storage modulus
Thermal conductivity
Thermal stability
Thermodynamic properties
Thermomechanical analysis
Transition temperatures
Title Thermal and mechanical properties study of boron nitride nanosheets decorated by silver/epoxy nanocomposites
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