Influence of Multiwall Carbon Nanotube on mechanical and wear properties of Copper – Iron composite

Hammood, Hashim Sh.; Irhayyim, Saif S.; Awad, A.; Abdulhadi, Hassan A.

doi:10.15282/ijame.17.1.2020.06.0561

Cited by 7 publications

(2 citation statements)

References 26 publications

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“…The frictional coefficient is recorded using software that interfaced with the pin-on-disk wear tester. The weight loss after a predetermined number of test cycles is determined by comparing the weight of test specimens before and after wear testing [35]. The weight loss is measured using an electronic weighing system with a 10-5 kg precision.…”

Section: Solid Lubricant Preparation and Friction Testmentioning

confidence: 99%

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel

Vignesh

Barik

2022

IJAME

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The fabrication of dimple-texture is essential for reducing friction and wear in frictional interaction pairs. The tribological characteristics of the frictional interaction pairs can be improved by controlling the dimple pattern, the depth to diameter ratio, and the area density ratio. In this study, the tribological characteristics of tungsten carbide discs with various dimple-texture patterns and hardened AISI H-13 steel pins are tested experimentally using a pin on disc wear tester to identify the wear mechanism. Laser marking technology was utilized to fabricate the dimple-textures such as circular arrays of the honeycomb pattern and spherical dimple-texture pattern with varying area density ratios. The impact of dimple-texture patterns is examined experimentally under dry testing conditions. Dimple-textured surfaces have a positive influence as compared to non-textured smooth surfaces. Particularly, the spherical dimple-textured pattern reduces frictional coefficient and wear rate by 45% and 51%, respectively, compared to non-textured smooth surfaces. The dimple-texture pattern and area density ratio control are essential features in dimple-texturing.

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Section: Solid Lubricant Preparation and Friction Testmentioning

confidence: 99%

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel

Vignesh

Barik

2022

IJAME

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“…Several applications may require an increased wear resistance only on a particular surface. Although surface treatment processes help to achieve these properties, manufacturing costs encountered are substantially high [1][2][3][4]. The use of functionally graded materials (FGMs) in these cases provides a cheaper solution to the problem, without any trade-offs between material properties and cost.…”

Section: Introductionmentioning

confidence: 99%

Studies on Adhesive Wear Characteristics of Centrifugally Cast Functionally Graded Ceramic Reinforced Composite

Sriram¹,

Radhika²,

Sam³

et al. 2020

IJAME

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Functionally graded material containing LM13 aluminium alloy as matrix and alumina as reinforcement (10 wt. %) was fabricated (Φout150 × Φin90 × 100 mm) by centrifugal casting. Samples were machined from the cylindrical cast along its longitudinal axis. Variation in hardness along the radial cross-sectional wall revealed 33.7% improvement at the outer periphery due to higher presence of alumina. This zone was preferred for dry sliding wear experiments, designed based on Taguchi L27 orthogonal array by varying the process parameters like sliding velocity, sliding distance and load using pin-on-disc tribometer. Analysis of variance revealed velocity as most influential wear factor, next to load. An optimal condition to minimise adhesive wear was determined at a load of 15 N, sliding velocity of 3.5 m/s and sliding distance of 1250 m. Scanning electron microscope analysis on abraded surfaces showed formation of tribolayer at high velocities and delamination at high loads.

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An extensive review on bibliometric analysis of carbon nanostructure reinforced composites

Siddiqui,

Hossain,

Ferdous

et al. 2025

Results in Materials

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Influence of Multiwall Carbon Nanotube on mechanical and wear properties of Copper – Iron composite

Cited by 7 publications

References 26 publications

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel

Studies on Adhesive Wear Characteristics of Centrifugally Cast Functionally Graded Ceramic Reinforced Composite

An extensive review on bibliometric analysis of carbon nanostructure reinforced composites

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