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Dr. Mazen Mahmoud Yahya from Bilad Al- Rafidain University College/Aviation Technology Engineering published a scientific engineering research under a Tittel, ((Wear Resistance of Fiber-reinforced Nanoparticle Hybrid Mixture))
 Dr. Mazen Mahmoud Yahya from Bilad Al- Rafidain University College/Aviation Technology Engineering published a scientific engineering research under a Tittel, ((Wear Resistance of Fiber-reinforced Nanoparticle Hybrid Mixture))

Dr. Mazen Mahmoud Yahya from Bilad Al- Rafidain University College/Aviation Technology Engineering published a scientific engineering research under a Tittel, ((Wear Resistance of Fiber-reinforced Nanoparticle Hybrid Mixture))

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....publishing scientific research...
 Dr. Mazen Mahmoud Yahya from Bilad Al- Rafidain University College/Aviation Technology Engineering published a scientific engineering research under a Tittel,
((Wear Resistance of Fiber-reinforced Nanoparticle Hybrid Mixture))
 The research was published in an international journal within the Scopus and Clarivate databases:
international Journal of Nanoelectronics and Materials (IJNeaM),
A Malaysian magazine affiliated with a Malaysian university. Impact Factor: 0.5, CiteScore: 1.3.
The research dealt with studying the properties of strengthening and strengthening composite materials because they have become desirable in almost all areas of our daily lives, and composites have gained popularity due to their properties such as durability, strength, low energy consumption during the production process, and low shipping costs. However, there is still a need to enhance the structure of composite materials by developing production techniques towards nanocomposites, which would allow the introduction of composite materials with high strength and hardness. The present study investigates the anti-corrosion enhancement of a hybrid mixture combining epoxy and phenol-formaldehyde using a combination of carbon fibers and alumina nanoparticles. To carry out this research systematically, the hardness properties of the prepared composites as well as the effect of different sliding speeds on wear resistance were addressed. The results showed that the hybrid composite blend reinforced with carbon fiber and alumina nanoparticles offered the lowest wear rate (highest wear resistance) compared to the hybrid composite blend, carbon fiber reinforced hybrid blend, and the alumina reinforced hybrid blend. This is due to the random distribution of nanoparticles and fibers within the hybrid mixture of epoxy and phenol formaldehyde





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