SURENDRA KUMAR CHOURASIYA

@mitsgwalior.in

Assistant Professor, Department of Mechanical engineering
MITS Gwalior

SURENDRA KUMAR CHOURASIYA


                  Download Compact PDF  
https://researchid.co/surn2607
10

Scopus Publications

81

Scholar Citations

6

Scholar h-index

3

Scholar i10-index

Scopus Publications

  • Predicting grain boundary evolution via evolutionary deep neural network and mechanistic insights into dynamic recrystallization of high Al Fe–11Al–5Mn–1C–1Nb low-density steel
    Pankaj Rawat, Bashista Kumar Mahanta, Sumit Bhan, Swagata Roy, Prince Setia, Jogender Singh, Surendra Kumar Chourasiya, Vasudev
    Materials Chemistry and Physics, 2026
  • Magnesium-Based Materials for Biomedical Applications
    Gaurav Gautam, Vineet Kumar, Saurabh Sharma, S.K. Chourasiya
    Advanced Technologies for Sustainable Biomedical Applications, 2025
    Magnesium-based materials (alloys and their composites) are emerging as good candidates for a diverse selection in medical applications, including fixation devices for bones, cardiovascular stents, dental implants, screws, pins, and hip joint replacements. This is due to the result of its low density, high specific strength, and modulus of elasticity that closely matches natural bone. Further, their inherent biocompatibility and biomechanical compatibility make them attractive for long-term medical use. However, to understand the potential of magnesium-based materials in medical applications, a comprehensive study of their properties is essential. The current chapter explores the corrosion resistance, mechanical behavior, and biocompatibility of magnesium-based materials with various compositions, highlighting the challenges posed by their tendency to corrode in biological environments. The discussion extends to the impact of surface morphology, environmental conditions, and applied stresses on their performance in the human body. In addition to evaluating these critical factors, this chapter guides in finding an appropriate material for the reinforcement and the optimization of operating parameters to escalate the effectiveness of magnesium-based materials in biomedical applications. By offering insights into the interplay between material properties and biomedical performance, this chapter aims to inform and guide the design and development of next-generation magnesium-based biomaterials for various medical requirements.
  • Extreme learning machine and ensemble techniques for classification of rolling element bearing defects
    Nitin Upadhyay, Surendra Kumar Chourasiya
    Life Cycle Reliability and Safety Engineering, 2022
  • Enhancing the Microstructure and Tribological Performance of Spray Formed Al Alloy by Cryorolling
    S. K. Chourasiya, G. Gautam
    Silicon, 2021
  • Performance Enhancing of Spray Formed Al/Graphite Alloy Composite by Rolling
    Surendra Kumar Chourasiya, Gaurav Gautam, Devendra Singh
    Metals and Materials International, 2021
  • Influence of cryorolling on spray-formed Al–Si alloy
    S. K. Chourasiya, G. Gautam
    Lecture Notes in Mechanical Engineering, 2021
  • Spray forming technique for aluminium matrix materials: A review
    S.K. Chourasiya, G. Gautam, A. Kumar
    Materials Today Proceedings, 2021
  • Mechanical and Tribological Behavior of Warm Rolled Al-6Si-3Graphite Self Lubricating Composite Synthesized by Spray Forming Process
    S. K. Chourasiya, G. Gautam, D. Singh
    Silicon, 2020
  • A novel technique for automatic quantification of porosities in spray formed warm rolled Al-Si-graphite composite
    S K Chourasiya, A Si, G Singh, G Gautam, D Singh
    Materials Research Express, 2019
    Microstructural features mainly porosities affect the mechanical and tribological properties significantly in spray deposited composite materials. These make undesirable microstructural features to develop the components for automobile and aerospace. Secondary processes like rolling, extrusion and forging generally minimize these porosities results improve the mechanical and tribological properties. The proper analysis of the porosities in the spray deposited composites is difficult. It requires material researchers or scientist who identifies and measures the porosity manually, but this process takes the more time, labor and exhibits poor repeatability. Additionally, some image processing tools are also available to analyze the porosities in which ImageJ exhibits great importance. But, it does not distinguish between the inclusions and porosities. This paper overcomes the challenges of actual porosity by proposing a new program made in MATLAB. The image processing algorithm is developed to isolate the inclusions and porosities in the microstructural features. MATLAB plays a crucial role in scanning both the scanning elonton microscope (SEM) and backscattered electrons (BSE) images and subtracts the area of inclusion phases from the total detected dark phase and thus produced another fresh image with only the actual porosity. With this method, the porosity of spray formed warm rolled Al-Si-Gr composite is investigated under different rolling reduction (20, 40, 60 and 80%) and verified experimentally by Archimedes principle (ASTM G99-95a). The proposed technique used to measure the porosities may improve the speed and repeatability of the results.
  • Influence of rolling on wear and friction behaviour of spray formed Al alloy composites
    S.K. Chourasiya, G. Gautam, D. Singh
    Materials Today Proceedings, 2019

RECENT SCHOLAR PUBLICATIONS

  • Predicting Grain Boundary Evolution via Evolutionary Deep Neural Network and mechanistic Insights into Dynamic Recrystallization of high Al Fe-11Al-5Mn-1C-1Nb low-density steel
    P Rawat, BK Mahanta, S Bhan, S Roy, P Setia, J Singh, SK Chourasiya
    Materials Chemistry and Physics, 132364 , 2026
    2026
  • Magnesium-Based Materials for Biomedical Applications
    G Gautam, V Kumar, S Sharma, SK Chourasiya
    Advanced Technologies for Sustainable Biomedical Applications, 92-107 , 2025
    2025
  • Extreme learning machine and ensemble techniques for classification of rolling element bearing defects
    N Upadhyay, SK Chourasiya
    Life Cycle Reliability and Safety Engineering 11 (2), 189-201 , 2022
    2022
    Citations: 5
  • Wavelet Time Scattering Features for the Bearing DefectsClassification
    N Upadhyay, A Sharma, AK Sinha, SK Chourasiya
    Design Engineering, 2905-2913 , 2021
    2021
  • Tribology of spray-formed aluminum alloys and their composites
    SK Chourasiya, G Gautam, N Kumar, A Mohan, S Mohan
    Tribology and Surface Engineering for Industrial Applications, 41-60 , 2021
    2021
    Citations: 6
  • Enhancing the microstructure and tribological performance of spray formed Al alloy by cryorolling
    SK Chourasiya, G Gautam
    Silicon 13 (9), 2857-2868 , 2021
    2021
    Citations: 8
  • Microstructure and mechanical properties of friction-stir welded interstitial-free steel using WC tool
    M Sinha, A Kumar, A Tripathi, SK Chourasiya
    IOP Conference Series: Materials Science and Engineering 1136 (1), 012068 , 2021
    2021
  • Performance enhancing of spray formed Al/graphite alloy composite by rolling
    SK Chourasiya, G Gautam, D Singh
    Metals and Materials International 27 (6), 1827-1838 , 2021
    2021
    Citations: 10
  • Influence of Cryorolling on Spray-Formed Al–Si Alloy
    SK Chourasiya, G Gautam
    Advances in Engineering Design: Select Proceedings of ICOIED 2020, 269-276 , 2021
    2021
    Citations: 2
  • Spray forming technique for aluminium matrix materials: a review
    SK Chourasiya, G Gautam, A Kumar
    Materials Today: Proceedings 44, 561-565 , 2021
    2021
    Citations: 13
  • Mechanical and tribological behavior of warm rolled Al-6Si-3Graphite self lubricating composite synthesized by spray forming process
    SK Chourasiya, G Gautam, D Singh
    Silicon 12 (4), 831-842 , 2020
    2020
    Citations: 20
  • Influence of rolling on wear and friction behaviour of spray formed Al alloy composites
    SK Chourasiya, G Gautam, D Singh
    Materials Today: Proceedings 28, 813-818 , 2020
    2020
    Citations: 9
  • A novel technique for automatic quantification of porosities in spray formed warm rolled Al-Si-Graphite composite
    SK Chourasiya, A Si, G Singh, G Gautam, D Singh
    Materials Research Express 6 (11), 116565 , 2019
    2019
    Citations: 8

MOST CITED SCHOLAR PUBLICATIONS

  • Mechanical and tribological behavior of warm rolled Al-6Si-3Graphite self lubricating composite synthesized by spray forming process
    SK Chourasiya, G Gautam, D Singh
    Silicon 12 (4), 831-842 , 2020
    2020
    Citations: 20
  • Spray forming technique for aluminium matrix materials: a review
    SK Chourasiya, G Gautam, A Kumar
    Materials Today: Proceedings 44, 561-565 , 2021
    2021
    Citations: 13
  • Performance enhancing of spray formed Al/graphite alloy composite by rolling
    SK Chourasiya, G Gautam, D Singh
    Metals and Materials International 27 (6), 1827-1838 , 2021
    2021
    Citations: 10
  • Influence of rolling on wear and friction behaviour of spray formed Al alloy composites
    SK Chourasiya, G Gautam, D Singh
    Materials Today: Proceedings 28, 813-818 , 2020
    2020
    Citations: 9
  • Enhancing the microstructure and tribological performance of spray formed Al alloy by cryorolling
    SK Chourasiya, G Gautam
    Silicon 13 (9), 2857-2868 , 2021
    2021
    Citations: 8
  • A novel technique for automatic quantification of porosities in spray formed warm rolled Al-Si-Graphite composite
    SK Chourasiya, A Si, G Singh, G Gautam, D Singh
    Materials Research Express 6 (11), 116565 , 2019
    2019
    Citations: 8
  • Tribology of spray-formed aluminum alloys and their composites
    SK Chourasiya, G Gautam, N Kumar, A Mohan, S Mohan
    Tribology and Surface Engineering for Industrial Applications, 41-60 , 2021
    2021
    Citations: 6
  • Extreme learning machine and ensemble techniques for classification of rolling element bearing defects
    N Upadhyay, SK Chourasiya
    Life Cycle Reliability and Safety Engineering 11 (2), 189-201 , 2022
    2022
    Citations: 5
  • Influence of Cryorolling on Spray-Formed Al–Si Alloy
    SK Chourasiya, G Gautam
    Advances in Engineering Design: Select Proceedings of ICOIED 2020, 269-276 , 2021
    2021
    Citations: 2
  • Predicting Grain Boundary Evolution via Evolutionary Deep Neural Network and mechanistic Insights into Dynamic Recrystallization of high Al Fe-11Al-5Mn-1C-1Nb low-density steel
    P Rawat, BK Mahanta, S Bhan, S Roy, P Setia, J Singh, SK Chourasiya
    Materials Chemistry and Physics, 132364 , 2026
    2026
  • Magnesium-Based Materials for Biomedical Applications
    G Gautam, V Kumar, S Sharma, SK Chourasiya
    Advanced Technologies for Sustainable Biomedical Applications, 92-107 , 2025
    2025
  • Wavelet Time Scattering Features for the Bearing DefectsClassification
    N Upadhyay, A Sharma, AK Sinha, SK Chourasiya
    Design Engineering, 2905-2913 , 2021
    2021
  • Microstructure and mechanical properties of friction-stir welded interstitial-free steel using WC tool
    M Sinha, A Kumar, A Tripathi, SK Chourasiya
    IOP Conference Series: Materials Science and Engineering 1136 (1), 012068 , 2021
    2021