Compression properties of polymeric syntactic foam composites under cyclic loading

Z. Yousaf; M. J. A. Smith; P. Potluri; W.J. Parnell

doi:10.1016/j.compositesb.2020.107764

Compression properties of polymeric syntactic foam composites under cyclic loading

Z. Yousaf, M. J. A. Smith, P. Potluri, W.J. Parnell

Research output: Contribution to journal › Article › peer-review

Abstract

In the present work, polymer-based syntactic foams were studied under cyclic compression in order to investigate their compressibility, recoverability, energy dissipation and damage tolerance. These syntactic foams were manufactured by adding hollow polymer microspheres of various sizes and wall thicknesses into a polyurethane matrix. The associated loading and unloading curves during cyclic testing were recorded, revealing the viscoelastic nature of the materials. SEM images of the samples were obtained in order to study potential damage mechanisms during compression. It was observed that these syntactic foams exhibit high elastic recovery and energy dissipation over a wide range of compressional strains and the addition of polymer microspheres mitigates the damage under compressional loading.

Original language	English
Article number	107764
Pages (from-to)	1-12
Number of pages	12
Journal	Composites. Part B: Engineering
Volume	186
Early online date	10 Jan 2020
DOIs	https://doi.org/10.1016/j.compositesb.2020.107764
Publication status	Published - 2020

Keywords

particle reinforced composites
mechanical properties
damage tolerance
syntactic foams

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https://linkinghub.elsevier.com/retrieve/pii/S1359836819306754

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title = "Compression properties of polymeric syntactic foam composites under cyclic loading",

abstract = "In the present work, polymer-based syntactic foams were studied under cyclic compression in order to investigate their compressibility, recoverability, energy dissipation and damage tolerance. These syntactic foams were manufactured by adding hollow polymer microspheres of various sizes and wall thicknesses into a polyurethane matrix. The associated loading and unloading curves during cyclic testing were recorded, revealing the viscoelastic nature of the materials. SEM images of the samples were obtained in order to study potential damage mechanisms during compression. It was observed that these syntactic foams exhibit high elastic recovery and energy dissipation over a wide range of compressional strains and the addition of polymer microspheres mitigates the damage under compressional loading.",

keywords = "particle reinforced composites, mechanical properties, damage tolerance, syntactic foams",

author = "Z. Yousaf and Smith, {M. J. A.} and P. Potluri and W.J. Parnell",

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AU - Yousaf, Z.

AU - Smith, M. J. A.

AU - Potluri, P.

AU - Parnell, W.J.

PY - 2020

Y1 - 2020

N2 - In the present work, polymer-based syntactic foams were studied under cyclic compression in order to investigate their compressibility, recoverability, energy dissipation and damage tolerance. These syntactic foams were manufactured by adding hollow polymer microspheres of various sizes and wall thicknesses into a polyurethane matrix. The associated loading and unloading curves during cyclic testing were recorded, revealing the viscoelastic nature of the materials. SEM images of the samples were obtained in order to study potential damage mechanisms during compression. It was observed that these syntactic foams exhibit high elastic recovery and energy dissipation over a wide range of compressional strains and the addition of polymer microspheres mitigates the damage under compressional loading.

AB - In the present work, polymer-based syntactic foams were studied under cyclic compression in order to investigate their compressibility, recoverability, energy dissipation and damage tolerance. These syntactic foams were manufactured by adding hollow polymer microspheres of various sizes and wall thicknesses into a polyurethane matrix. The associated loading and unloading curves during cyclic testing were recorded, revealing the viscoelastic nature of the materials. SEM images of the samples were obtained in order to study potential damage mechanisms during compression. It was observed that these syntactic foams exhibit high elastic recovery and energy dissipation over a wide range of compressional strains and the addition of polymer microspheres mitigates the damage under compressional loading.

KW - particle reinforced composites

KW - mechanical properties

KW - damage tolerance

KW - syntactic foams

U2 - 10.1016/j.compositesb.2020.107764

DO - 10.1016/j.compositesb.2020.107764

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VL - 186

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EP - 12

JO - Composites. Part B: Engineering

JF - Composites. Part B: Engineering

M1 - 107764

ER -

Compression properties of polymeric syntactic foam composites under cyclic loading

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