Effect of filler size and concentration on the physicomechanical properties of a composite polymer material

Kalmykov, Yu. B.; Drakin, N. V.; Dubrava, O. L.

doi:10.1007/bf00616257

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Size Effects In Filled Polymers1

Introduction1

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2011

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Cited by 2 publications

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“…As expected we observe an increase of the stiffness with increasing the filler concentration n F , cf. [38,39]. For statistical use six different boundary value problems are investigated.…”

Section: Size Effects In Filled Polymersmentioning

confidence: 99%

Effective Mechanical Behavior of Filled Polymers

Johlitz

Diebels

2011

Mechanics of Advanced Materials and Structures

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“…As expected we observe an increase of the stiffness with increasing the filler concentration n F , cf. [38,39]. For statistical use six different boundary value problems are investigated.…”

Section: Size Effects In Filled Polymersmentioning

confidence: 99%

Effective Mechanical Behavior of Filled Polymers

Johlitz

Diebels

2011

Mechanics of Advanced Materials and Structures

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“…Taking the existence of the interphase into account it becomes obvious that the mechanical properties of a filled polymer will depend not only on the volume fraction of the filler [29,18] but also on the ratio of the internal surface of the filler with respect to the volume, i.e. the specific internal surface will influence the effective properties explicitly.…”

Section: Introductionmentioning

confidence: 99%

Effective properties and size effects in filled polymers

Johlitz¹,

Steeb²,

Jänicke³

et al. 2008

GAMM-Mitteilungen

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Filled polymers are of special interest according to their superior mechanical properties. Special attention is given to nano-filled polymers where not only the volume fraction but also the internal surface has a significant contribution to the effective properties. In the present contribution the increase in stiffness with decreasing size of the fillers at constant volume fraction of the fillers is modelled by a phenomenological, i.e. continuum-based, approach taking into account large deformations. The proposed multiphase model allows for a systematic investigation of increasing surface-to-volume ratio which becomes important for micro-and nanosized fillers. The numerical treatment of the proposed model is based on a coupled Galerkin finite element formulation.

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Effect of filler size and concentration on the physicomechanical properties of a composite polymer material

Cited by 2 publications

References 2 publications

Effective Mechanical Behavior of Filled Polymers

Effective Mechanical Behavior of Filled Polymers

Effective properties and size effects in filled polymers

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