Experimental Investigations on Deformation and Fracture Behavior of Glass Sphere Filled Epoxy Functionally Graded Materials

Abstract: In this paper, deformation and fracture behavior of glass sphere filled epoxy functionally graded materials (FGM) are numerically evaluated and experimentally studied. The fabrication of the FGM is described in detail, and the spatial gradation of elastic modulus and the microscopic structure in FGM are measured and analyzed. The deformation and fracture characterization of the FGM specimen with a crack oriented along the direction of the elastic gradient under three point bend are studied by the experimental … Show more

“…The bulk of the experimental work dedicated to particulate composites has focussed mainly on their fracture properties [12][13][14][15][16]. However, few attempts have been made to quantify the amplitude of compressive wave propagation in heterogeneous material, and much remains to be clarified concerning that process.…”

Compressive evaluation of homogeneous and graded epoxy–glass particulate composites

“…The bulk of the experimental work dedicated to particulate composites has focussed mainly on their fracture properties [12][13][14][15][16]. However, few attempts have been made to quantify the amplitude of compressive wave propagation in heterogeneous material, and much remains to be clarified concerning that process.…”

Compressive evaluation of homogeneous and graded epoxy–glass particulate composites

“…It is of high importance that the investigated structure contains random features, or speckles, that the correlation analysis can be based upon. DIC has been applied for investigation of TPB-specimens in several experimental studies (Hild and Roux, 2006;Rethore et al, 2008;Yao et al, 2006). DIC as a tool for analysis of wood structures under deformation was first proposed by Choi et al (1991), based on digitized video frames.…”

3D micro-scale deformations of wood in bending: Synchrotron radiation μCT data analyzed with digital volume correlation

“…One of the most commonly used method to modify physical and mechanical properties of composites is the addition of particulate filler to the matrix resin, resulting in higher modulus with lower cost and reduced strength and impact resistance [5,6]. Inorganic fillers are primarily used in commercial applications to decrease cost, while improving strength and stiffness properties [7][8][9][10][11][12]. Inclusion of organic fillers may greatly increase the stiffness and strength of polymeric materials and affects the stability of the composites, and sometimes, a worsened interfacial bonding results in decreased mechanical properties of the materials [13].…”

Tensile and impact characterization of S-glass/epoxy composite laminates containing microscale borax, perlite, and sewage sludge ash particles