Study of environmental behavior and its effect on solid particle erosion behavior of hierarchical porous activated carbon‐epoxy composite

Panchal, Manoj; Minugu, Om Prakash; Gujjala, Raghavendra; Ojha, Shakuntala; Chowdary, M. Somaiah; Mohammad, Alamgir

doi:10.1002/pc.26539

Cited by 16 publications

(5 citation statements)

References 53 publications

(71 reference statements)

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“…After the 30° impingement angle, it was determined that the erosion rate decreased in line with the increase in the angle between the nozzle and the pipes from oblique to vertical impact for both test positions. In particular, the 30° and 45° data exhibited close erosion resistance and are compatible with the literature; that is, a situation similar to ductile-prone erosional wear has occurred [ 12 , 23 ]. In other words, in these tests, the scraping effect of oblique impact was dominant, and separation from the surface was accelerated.…”

Section: Resultssupporting

confidence: 85%

Solid Particle Erosion Behavior on the Outer Surface of Basalt/Epoxy Composite Pipes Produced by the Filament Winding Technique

2023

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Basalt/epoxy composite pipes in a [±55]4 winding configuration were produced on CNC filament winding machines (10 N fiber tension and ~11 mm bandwidth). In the experiments, a 34 m/s impact velocity was set using the double-disc method, and five different particle impingement angles (30, 45, 60, 75, and 90°) were used to determine the erosive effect on the outer surfaces of filament wound composite pipes under the influence of 600 mm erodent particles with angular geometry in the test set, complying with the ASTM G76-95 standard. The winding patterns in the lamina (±55 angle-ply laminate region) and zigzag (±55 zigzag region) regions of BFR/EP pipes were determined to have significant effects on solid particle erosion resistance, as evidenced by the SEM images.

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Section: Resultssupporting

confidence: 85%

Solid Particle Erosion Behavior on the Outer Surface of Basalt/Epoxy Composite Pipes Produced by the Filament Winding Technique

2023

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“…Erosion wear rate is measured by the following formula.

Erosion wear rate ((), normalg / normalg) goodbreak= \frac{w_{1} - w_{2}}{w}

where, w 1 is the weight of the sample before erosion w 2 is weight of composite sample after the erosion, and w is the weight of the erodent used. [ 40 ]…”

Section: Methodsmentioning

confidence: 99%

“…[39] 2.5 | Erosion wear test Solid particle erosion wear behavior of biochar epoxy composite materials was investigated using erosion test where, w 1 is the weight of the sample before erosion w 2 is weight of composite sample after the erosion, and w is the weight of the erodent used. [40] F 3 | RESULTS AND DISCUSSIONS…”

Section: Characterization Of Biochar Carbon Materialsmentioning

confidence: 99%

Effect of biomass‐biochar content on the erosion wear performance of biochar epoxy composites

Minugu

Panchal²,

Gujjala

et al. 2022

Polymer Composites

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Biomass waste processing with a potential to commercialization is always concern for achieving sustainable ecosystem. In the current work, biochar was extracted from the arhar stalks (AS) and bael shells (BS) biowaste which has carbon as major constituent. As a result, biochar in particle form has excellent mechanical and tribological properties and hence when combined with epoxy forms a composite with enhanced tribological properties. In this context, the biochar epoxy composites were prepared with three different compositions of 2, 4, and 6% wt, and characterized for adsorption and solid erosion wear studies. The adsorption studies conferred that BS biochar materials consist large Brunauer-Emmet-Teller surface area, that is, 294.3393 m 2 /g and pore volume of 0.13166 cm 3 /g comparative to AS biochar materials. It was observed from the results that BS based biochar epoxy composites displayed excellent enhancement in erosion wear resistance of about 52% comparative to pure epoxy that of AS at 2%. Alongside further increment in the composition of the biochar constituent to 4% exhibited semi ductile behavior with a peak wear rate at 45 impact angle. Applications pertaining to the realized composites in the current work is expected to meet the aerospace and automotive industries in specific.

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“…Additionally, epoxy resin, being highly resistant, is a viable option for producing filtration materials that withstand chemical cleaning methods when plugged with contaminants. It has been reported that carbon nanoparticles had been used as reinforcements showing potential to improve strength, toughness, thermal stability, and electrical/thermal conductivities of the epoxy composites [16,61,63,74].…”

Section: Cfd Analysis Of the Filtration Process Evaluation Of The Dom...mentioning

confidence: 99%

Synthesis and Hydrodynamic Modeling Study of Epoxy/Carbon Nanospheres (Epoxy-CNS) Composite Coatings for Water Filtration Applications

et al. 2022

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Coatings for filtration applications based on epoxy resin mixtures with isopropanol were synthesized using the dip-coating technique. The nanomaterials used were carbon nanospheres (CNS) synthesized by chemical vapor deposition (CVD) and commercially obtained Vulcan XC-72 (VC). The permeation flux and permeability of the coatings were determined by vacuum filtration of pure water applying different working pressures obtaining maximum values of 0.5555 cm3/s and 1.19 × 10−9 m2, respectively, for the CNS6 coating at 26,664 Pa. The minimum values obtained for the permeation flux and permeability were 0.0011 cm3/s and 1.21 × 10−11 m2, for the coating CNS3 at 39,996 Pa. This study analyzed the effect of nanomaterials and the addition of isopropanol at different volumes on the permeability of the coatings. The results show that the permeability was influenced by the number of pores present rather than by their diameter. The number of pores were obtained between the ranges 1–12 μm for all the coatings. The study of computational fluid dynamics (CFD) through a free and porous medium, showed that it is possible to accurately determine flow velocities (m/s) through and inside the composite coatings. Understanding the flow behavior is a practical strategy to predict the performance of new nanocomposite coatings.

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Study of environmental behavior and its effect on solid particle erosion behavior of hierarchical porous activated carbon‐epoxy composite

Cited by 16 publications

References 53 publications

Solid Particle Erosion Behavior on the Outer Surface of Basalt/Epoxy Composite Pipes Produced by the Filament Winding Technique

Solid Particle Erosion Behavior on the Outer Surface of Basalt/Epoxy Composite Pipes Produced by the Filament Winding Technique

Effect of biomass‐biochar content on the erosion wear performance of biochar epoxy composites

Synthesis and Hydrodynamic Modeling Study of Epoxy/Carbon Nanospheres (Epoxy-CNS) Composite Coatings for Water Filtration Applications

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