Solid particle erosion of reinforced composite materials

Zahavi, J.; Schmitt, George F.

doi:10.1016/0043-1648(81)90337-9

Cited by 122 publications

(65 citation statements)

References 5 publications

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“…Small cracks and multiple fractures are also distinctly seen in this micrograph (Figure 3(f)). Particle impingement produces a rise in temperature of the surface, which makes the matrix deformation easy because the high temperature softens the matrix [23]. On impact, the erodent particle kinetic energy is transferred to the composite body that leads to crater formation and subsequently material loss.…”

Section: Analysis Of Experimental Resultsmentioning

confidence: 99%

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Effect of Filler Content and Alkalization on Mechanical and Erosion Wear Behavior of CBPD Filled Bamboo Fiber Composites

Gupta¹,

Kumar²,

Patnaik³

et al. 2012

JSEMAT

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In this study the mechanical and erosion wear behavior of bamboo fiber reinforce epoxy composites filled with Cement By-Pass Dust (CBPD) were studied. The effect of CBPD content and alkalization on the various properties of these composites was also investigated. Taguchi's orthogonal arrays are used for analysis of experiential results. It identifies significant control factors influencing the erosion wear and also outlines significant interaction effects. Analysis of variance (ANOVA) test has also been performed on the measured data to find the most significant factors affecting erosion rate. Finally, eroded surfaces of both untreated and alkali treated bamboo fiber reinforced composites were characterized using SEM.

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Section: Analysis Of Experimental Resultsmentioning

confidence: 99%

Section: Effect Of Impingement Angle On Erosion Rate Ofmentioning

confidence: 99%

Effect of Filler Content and Alkalization on Mechanical and Erosion Wear Behavior of CBPD Filled Bamboo Fiber Composites

Gupta¹,

Kumar²,

Patnaik³

et al. 2012

JSEMAT

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“…The E-glass epoxy composite exhibits semi-ductile erosion at 45 and 60° impingement angle while others eroded in brittle manner with a maximum weight loss occurring at 75-90° impinging angles. Zahavi and Schmitt [23] and Miyazaki and Takeda [24] also studied the erosive behavior of fiber reinforced polymer composites and concluded that the maximum erosion rate is at 90° impingement angle. Bitter [25,26] in his study on erosion phenomenon, stated that ductile behavior shows a peak erosion rate around 30° impingement angle because the cutting mechanism is the dominant in erosion.…”

Section: Introductionmentioning

confidence: 99%

Study of the strength and erosive behavior of CaCO3/glass fiber reinforced polyester composite

Yılmaz¹,

Ünal²,

Mimaroğlu³

2008

Express Polym. Lett.

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Abstract. In this study, the strength and erosive characteristics of CaCO3 filled unsaturated polyester/glass fiber (UPR/GFR) composite are evaluated. Samples of UPR with 40, 50 and 60 wt% content of CaCO3 and different CaCO3 particle sizes of 1, 2, 3, 5 and 10 micron were prepared and tested under tensile loading, indentation and erosion conditions. The tensile strength, hardness and erosion wear rate of unsaturated polyester/glass fiber (UPR composite)/CaCO3 composite were obtained and evaluated. The results showed that the higher is the percentage of CaCO3 in the composite and the smaller is the CaCO3 particle size, the higher is the strength and the erosive resistance of the glass fiber reinforced/unsaturated polyester composite (UPR-GFR). Furthermore, the highest erosion wear rate is at 90° impingement angle. Finally the results show that the erosive wear of CaCO3 content UPR/GFR composite in a brittle manner.

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“…While the thermosetting ones erode in a brittle manner with the peak erosion occurring at normal impact. However, there is a dispute about this failure classification as the erosive wear behavior depends strongly on the experimental conditions and the composition of the target material [11]. In the present work, erosion curves are plotted in from the results of erosion tests conducted for different impingement angle keeping all other parameters constant (impact velocity=32m/s, stand-off distance=100 mm and erodent size=200 μm).…”

Section: Mechanical Propertiesmentioning

confidence: 98%

Preparation, characterization and erosion response of jute-epoxy composites reinforced with SiC derived from rice husk

Mantry

Satapathy

Jha

et al. 2011

Int J Plast Technol

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This paper depicts the processing and mechanical characterization of a new class of multi-phase composites consisting of epoxy resin reinforced with jute fiber and filled with silicon carbide (SiC) particulates. The SiC used as filler material in this work has been prepared from rice husk through plasma processing technique. The effect of filler in modifying the physical and mechanical properties of jute-epoxy composites has been studied. It is found that the incorporation of rice husk derived SiC modifies the tensile, flexural and inter-laminar shear strengths of the jute-epoxy composites. The micro-hardness and density of the composites are also greatly influenced by the content of these fillers. This paper also presents a study on the solid particle erosion response of this new class of composites. Erosion trials are carried out at various test conditions. For this, an air jet type erosion test rig and Taguchi's orthogonal arrays are used. Significant control factors influencing the erosion wear rate are identified.

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Solid particle erosion of reinforced composite materials

Cited by 122 publications

References 5 publications

Effect of Filler Content and Alkalization on Mechanical and Erosion Wear Behavior of CBPD Filled Bamboo Fiber Composites

Effect of Filler Content and Alkalization on Mechanical and Erosion Wear Behavior of CBPD Filled Bamboo Fiber Composites

Study of the strength and erosive behavior of CaCO3/glass fiber reinforced polyester composite

Preparation, characterization and erosion response of jute-epoxy composites reinforced with SiC derived from rice husk

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