Naga Sai Suman Koka scite author profile

Naga Sai Suman Koka

3Publications

11Citation Statements Received

80Citation Statements Given

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Affiliations

Andhra University

Publications

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Recent studies on particulate reinforced AZ91 magnesium composites fabricated by Stir casting – A review

Matta

Koka

Devarakonda³

2020

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Magnesium Metal Matrix Composites (Mg MMC) have been the focus of consideration by many researchers for the past few years. Many applications of Mg MMCs were evolved in less span of time in the automotive and aerospace sector to capture the benefit of high strength to weight ratio along with improved corrosion resistance. However, the performance of these materials in critical conditions is significantly influenced by several factors including the fabrication methods used for processing the composites. Most of the papers addressed all the manufacturing strategies of Mg MMC but no paper was recognized as a dedicated source for magnesium composites prepared through stir casting process. Since stir casting is the least expensive and most common process in the preparation of composites, this paper reviews particulate based Mg MMCs fabricated with stir casting technology. AZ91 series alloys are considered as the matrix material while the effect of different particle reinforcements, sizes , weight fractions on mechanical and tribological responses are elaborated in support with micro structural examinations. Technical difficulties and latest innovations happened during the last decade in making Mg MMCs as high performance material are also presented.

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Estimation of High Cycle Fatigue Life of AZ91E-Ni Coated Al2O3 Particulate Nano Composites Using Reliability Based Approach

Devarakonda¹,

Koka

2018

J. Inst. Eng. India Ser. D

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Preparation and characterization of electroless Ni coated nano alumina powder under different sensitization - activation conditions

Devarakonda¹,

Koka

Y³

2020

Metall Mater Eng

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The development of electroless coatings on various substrates has gained much interest among researchers for the sake of improved properties. However, the coating on ceramic particles as a source of reinforcement is still a challenge for the researchers and requires a good comprehension of fundamentals since the coating thickness relies upon many parameters. Particularly the sensitization and activation conditions are more important for the creation of an ideal environment to draw metallic ions as a coating layer. Therefore, this paper examines the role of sensitization and activation conditions on the viability of nickel coating on the alumina particles of an average size of 50 nm. A comparison is made between two environments, namely individual and blended activations in the preparation of coated particles. Characterization studies are also presented to support the discussion.

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