Litcius/Paper detail

Development and Mechanical Characterization of HGMS–EHS-Reinforced Hollow Glass Bead Composites

Tao Jiang, Yuan Gao, Ying Wang, Zhongxian Zhao, Jinhong Yu, Ke Yang, Yuantao Zhao, Wenge Li, Xinfeng Wu

2020ACS Omega21 citationsDOIOpen Access PDF

Abstract

Hollow glass microsphere-reinforced epoxy hollow spheres (HGMS-EHSs) were prepared by a "rolling ball method" using expanded polystyrene beads, HGMSs, and epoxy resin (EP). The three-phase epoxy syntactic foam (epoxy/HGMS-EHS-HGMS composite) was fabricated by combining HGMS-EHS as a lightweight filler with EP and HGMS by a "molding method". The HGMS-EHS and epoxy curing agent systems were well mixed by scanning electron microscopy. Experiments show that higher HGMS-EHS stack volume fraction, lower HGMS-EHS layer number, higher HGMS-EHS diameter, lower HGMS-EHS density, higher HGMS volume fraction, and lower HGMS density result in a decrease in the density of the three-phase epoxy syntactic foam. However, the above factors have the opposite effect on the compressive strength of the three-phase epoxy syntactic foam. Therefore, in order to obtain the "high-strength and low-density" three-phase epoxy syntactic foam, the influence of various factors should be considered comprehensively to achieve the best balance of compressive strength and density of the three-phase epoxy syntactic foam. This can provide some advice for the preparation of buoyancy materials for deep sea operations.

Topics & Concepts

Syntactic foamEpoxyGlass microsphereMaterials scienceComposite materialCompressive strengthMicrosphereComposite numberPolystyreneCuring (chemistry)Scanning electron microscopePolymerChemical engineeringEngineeringSilicone and Siloxane ChemistryPolymer composites and self-healingMechanical Behavior of Composites