Open Access
E3S Web of Conf.
Volume 507, 2024
International Conference on Futuristic Trends in Engineering, Science & Technology (ICFTEST-2024)
Article Number 01038
Number of page(s) 11
Published online 29 March 2024
  1. Zhang, H., Pan, Y., Zhang, Y., Lian, G., Cao, Q., & Que, L. (2022). Microstructure, toughness, and tribological properties of laser cladded Mo2FeB2-based composite coating with in situ synthesized WC and La2O3 addition. Surface and Coatings Technology, 449, 128947. [Google Scholar]
  2. Mishra, R. S., & Rani, P. (2017). Friction stir welding/processing studies of aluminum alloy & titanium 64. International Journal of Research in Engineering and Innovation, 1(3), 209–217. [Google Scholar]
  3. Glastan, P. L., Manikandan, S., Krishnakumar, V., & Rajesh, P. V. Study of Joining Dissimilar Aluminium Matrix Composites Using Friction Stir Welding-A Review. [Google Scholar]
  4. Naik, R., Prashantha, S. C., Nagabhushana, H., Sharma, S. C., Nagaswarupa, H. P., Anantharaju, K. S., … & Girish, K. M. (2016). Tunable white light emissive Mg2SiO4: Dy3+ nanophosphor: its photoluminescence, Judd–Ofelt and photocatalytic studies. Dyes and Pigments, 127, 25–36. [Google Scholar]
  5. Rathod, V. P., & Tanveer, S. (2009). Pulsatile flow of couple stress fluid through a porous medium with periodic body acceleration and magnetic field. Bulletin of the Malaysian Mathematical Sciences Society, 32(2). [Google Scholar]
  6. Jisha, P. K., Prashantha, S. C., & Nagabhushana, H. (2017). Luminescent properties of Tb doped gadolinium aluminate nanophosphors for display and forensic applications. Journal of Science: Advanced Materials and Devices, 2(4), 437–444. [Google Scholar]
  7. Dwivedi, S.P. (2023), “Development and characterization of grinding sludge-reinforced aluminum-based composite by friction stir process technique”, World Journal of Engineering, Vol. ahead-of-print No. ahead-of-print. [Google Scholar]
  8. Jayabal, R., Subramani, S., Dillikannan, D., Devarajan, Y., Thangavelu, L., Nedunchezhiyan, M., … & De Poures, M. V. (2022). Multi-objective optimization of performance and emission characteristics of a CRDI diesel engine fueled with sapota methyl ester/diesel blends. Energy, 250, 123709. [Google Scholar]
  9. Venugopal, V., Singh, V. P., & Kuriachen, B. (2023). Underwater friction stir welding of marine grade aluminium alloys: A review. Materials Today: Proceedings. [Google Scholar]
  10. Kulandaivel, D., Rahamathullah, I. G., Sathiyagnanam, A. P., Gopal, K., & Damodharan, D. (2020). Effect of retarded injection timing and EGR on performance, combustion and emission characteristics of a CRDi diesel engine fueled with WHDPE oil/diesel blends. Fuel, 278, 118304. [Google Scholar]
  11. Sarvaiya, J., & Singh, D. (2019). A Review of Tool Geometry and its Material Used in Friction Stir Processing. 61st 5th, 689. [Google Scholar]
  12. Ramprasad, P., Basavapoornima, C., Depuru, S. R., & Jayasankar, C. K. (2022). Spectral investigations of Nd3+: Ba (PO3) 2+ La2O3 glasses for infrared laser gain media applications. Optical Materials, 129, 112482. [Google Scholar]
  13. Sridhara, V., Gowrishankar, B. S., Snehalatha, & Satapathy, L. N. (2009). Nanofluids—a new promising fluid for cooling. Transactions of the Indian Ceramic Society, 68(1), 1–17. [Google Scholar]
  14. Kumar, S., & Katiyar, J. K. (2024). Roles of Tribology in Friction Stir Welding and Processing. In Tribology in Sustainable Manufacturing (pp. 162–188). CRC Press. [Google Scholar]
  15. Radhakrishnan, S., Khan, A., Dwivedi, S.P. et al. Studies on mechanical, thermal, and water immersion of plant and animal wastage nanofiller–based bio-fiber-reinforced composites. Biomass Conv. Bioref. (2023). [Google Scholar]
  16. Hora, S. K., Poongodan, R., De Prado, R. P., Wozniak, M., & Divakarachari, P. B. (2021). Long short-term memory network-based metaheuristic for effective electric energy consumption prediction. Applied Sciences, 11(23), 11263. [Google Scholar]
  17. Sharma, D. K., Mahant, D., & Upadhyay, G. (2020). Manufacturing of metal matrix composites: A state of review. Materials Today: Proceedings, 26, 506–519. [Google Scholar]
  18. Li, M., Zhang, Q., Han, B., Song, L., Cui, G., Yang, J., & Li, J. (2020). Microstructure and property of Ni/WC/La2O3 coatings by ultrasonic vibration-assisted laser cladding treatment. Optics and Lasers in Engineering, 125, 105848. [Google Scholar]
  19. Shashi Prakash Dwivedi, S Selvaprakash, Shubham Sharma, Soni Kumari, Kuldeep K Saxena, Rajesh Goyal, Amjad Iqbal & Faramarz Djavanroodi (2023): Evaluation of various properties for spent alumina catalyst and Si3N4 reinforced with PET-based polymer composite, Mechanics of Advanced Materials and Structures, DOI: 10.1080/15376494.2023.2249888 [Google Scholar]
  20. Goud, J. S., Srilatha, P., Kumar, R. V., Kumar, K. T., Khan, U., Raizah, Z., … & Galal, A. M. (2022). Role of ternary hybrid nanofluid in the thermal distribution of a dovetail fin with the internal generation of heat. Case Studies in Thermal Engineering, 35, 102113. [Google Scholar]
  21. Zhao, Z., Bai, P., Du, W., Liu, B., Pan, D., Das, R., … & Guo, Z. (2020). An overview of graphene and its derivatives reinforced metal matrix composites: Preparation, properties and applications. Carbon, 170, 302–326. [Google Scholar]
  22. Parashuram, L., Sreenivasa, S., Akshatha, S., & Udayakumar, V. (2019). A non-enzymatic electrochemical sensor based on ZrO2: Cu (I) nanosphere modified carbon paste electrode for electro-catalytic oxidative detection of glucose in raw Citrus aurantium var. sinensis. Food chemistry, 300, 125178. [Google Scholar]
  23. Wang, Y., Wei, D., Wang, L., Zhang, L., Liu, J., Tang, Y., … & Lu, W. (2022). Surface modification and twinning behavior in gradient graphene-based TiC/Ti6Al4V composite. Applied Surface Science, 583, 152495. [Google Scholar]
  24. Shashi Prakash Dwivedi, Shubham Sharma, B. Vijay Krishna, Pankaj Sonia, Kuldeep Kumar Saxena, Amjad Iqbal & Faramarz Djavanroodi (2023) Effect of the addition of TiB2 with waste glass powder on microstructure, mechanical and physical behavior of PET-based polymer composite material, Mechanics of Advanced Materials and Structures. [Google Scholar]
  25. Samyal, R., Bagha, A. K., Bedi, R., Bahl, S., Saxena, K. K., & Sehgal, S. (2021). Predicting the effect of fiber orientations and boundary conditions on the optimal placement of PZT sensor on the composite structures. Materials Research Express, 8(7), 075302. [Google Scholar]
  26. Feng, K., Wang, S., Zhang, K., Huo, L., & Zhou, H. (2023). Microstructure and Properties of Cold-Sprayed Al-x% Al2O3 Composite Coatings on LA43M Mg-Li Alloy. Journal of Thermal Spray Technology, 1–13. [Google Scholar]
  27. Dwivedi SP, Chaudhary V, Sharma S, Sharma S. Ultrasonic vibration effect in the development of Al/CCLW/alumina metal matrix composite to enhance mechanical properties. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. 2023;0(0). [Google Scholar]
  28. Alrobei, H., Prashanth, M. K., Manjunatha, C. R., Kumar, C. P., Chitrabanu, C. P., Shivaramu, P. D., … & Raghu, M. S. (2021). Adsorption of anionic dye on eco-friendly synthesised reduced graphene oxide anchored with lanthanum aluminate: Isotherms, kinetics and statistical error analysis. Ceramics International, 47(7), 10322–10331. [Google Scholar]
  29. Dhanesh, S., Kumar, K. S., Fayiz, N. M., Yohannan, L., & Sujith, R. (2021). Recent developments in hybrid aluminium metal matrix composites: A review. Materials Today: Proceedings, 45, 1376–1381. [Google Scholar]
  30. Jaidass, N., Moorthi, C. K., Babu, A. M., & Babu, M. R. (2018). Luminescence properties of Dy3+ doped lithium zinc borosilicate glasses for photonic applications. Heliyon, 4(3). [Google Scholar]
  31. Xue, Y. J., Li, J. S., Ma, W., Zhou, Y. W., & Duan, M. D. (2006). Sliding wear behaviors of electrodeposited nickel composite coatings containing micrometer and nanometer La 2 O 3 particles. Journal of Materials Science, 41, 1781–1784. [Google Scholar]
  32. Raj, T. V., Hoskeri, P. A., Muralidhara, H. B., Manjunatha, C. R., Kumar, K. Y., & Raghu, M. S. (2020). Facile synthesis of perovskite lanthanum aluminate and its green reduced graphene oxide composite for high performance supercapacitors. Journal of Electroanalytical Chemistry, 858, 113830. [Google Scholar]
  33. Gangwar, K., & Ramulu, M. (2018). Friction stir welding of titanium alloys: A review. Materials & Design, 141, 230–255. [Google Scholar]
  34. Dwivedi SP, Yadav AK, Saxena A, Dwivedi VK. Tribo-mechanical, physical and thermal behaviour of Al/Si3N4 composite with and without the addition of Cu, Ni and Cr entropy elements. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. 2023;0(0). [Google Scholar]
  35. Yue, L., Jayapal, M., Cheng, X., Zhang, T., Chen, J., Ma, X., … & Zhang, W. (2020). Highly dispersed ultra-small nano Sn-SnSb nanoparticles anchored on N-doped graphene sheets as high performance anode for sodium ion batteries. Applied Surface Science, 512, 145686. [CrossRef] [Google Scholar]
  36. Tinubu, O. O. (2015). Effect of friction-stir processing on the wear behavior of titanium (Ti-1Al-8v-5Fe) and stainless steel (A-286) alloys. University of North Texas. [Google Scholar]
  37. Mohanty, P. P. (2022). Wear of friction stir tools considering qualitative and quantitative aspects: a review. International Journal of Ambient Energy, 43(1), 5535–5553. [Google Scholar]
  38. Dwivedi, S.P., Chaudhary, V. & Sharma, S. Effect of the Addition of Waste Glass Powder along with TiC as Reinforcement on Microstructure, Wettability, Mechanical and Tribological Behavior of AZ91D Magnesium Based Alloy. Inter Metalcast (2023). [Google Scholar]
  39. Rodelas, J. M. (2012). Friction stir processing of Nickel-Base alloys. The Ohio State University. [Google Scholar]
  40. Shashi Prakash Dwivedi, Indradeep Kumar, Shankar Sehgal, Nakul Gupta & Kuldeep K. Saxena (2023) Development of dissimilar AA2014 and AA2024 based composite with nano-Si3N4 reinforcement by friction stir process technique, Journal of Adhesion Science and Technology. [Google Scholar]
  41. Indira, D. N. V. S. L. S., Ganiya, R. K., Ashok Babu, P., Xavier, A., Kavisankar, L., Hemalatha, S., … & Yeshitla, A. (2022). Improved artificial neural network with state order dataset estimation for brain cancer cell diagnosis. BioMed Research International, 2022. [Google Scholar]
  42. Sivaselvan, S., Natarajan, M., Devadasan, S. R., & Sivaram, N. M. (2023). Influence of friction stir welding parameters on the tribological behavior of dissimilar aluminum alloy joint. Industrial Lubrication and Tribology, 75(2), 197–203. [Google Scholar]
  43. Gupta, R., Nanda, T., & Pandey, O. P. (2021). Comparison of wear behaviour of LM13 Al− Si alloy based composites reinforced with synthetic (B4C) and natural (ilmenite) ceramic particles. Transactions of Nonferrous Metals Society of China, 31(12), 3613–3625. [Google Scholar]
  44. Shashi Prakash Dwivedi, Shubham Sharma, Changhe Li, Yanbin Zhang, Abhinav Kumar, Rajesh Singh, Sayed M. Eldin, Mohamed Abbas, Effect of nano-TiO2 particles addition on dissimilar AA2024 and AA2014 based composite developed by friction stir process technique, Journal of Materials Research and Technology, Volume 26, 2023, Pages 1872–1881. [Google Scholar]
  45. Huaiyuan, W., Xin, F., Yijun, S., & Xiaohua, L. (2009). A Study on the Tribological Properties of Self-assembled Method Treated Nano-La 2O3 Filled PTFE/PEEK Composites. Journal of reinforced plastics and composites, 28(6), 645–655. [Google Scholar]
  46. Kalyani, G., Janakiramaiah, B., Karuna, A., & Prasad, L. N. (2023). Diabetic retinopathy detection and classification using capsule networks. Complex & Intelligent Systems, 9(3), 2651–2664. [Google Scholar]
  47. Liu, L., Qiao, Y., & Xu, P. (2022). Effect of La2O3 on Microstructure and Properties of Laser Cladding SMA Coating on AISI 304 Stainless Steel. Coatings, 12(7), 1004. [Google Scholar]
  48. Pethampalayam Karuppanan Miniappan, Sivagnanam Marimuthu*, Selvan Dharani Kumar, Gopal Gokilakrishnan, Shubham Sharma*, Changhe Li, Shashi Prakash Dwivedi, and Mohamed Abbas, ―Mechanical, fracture-deformation, and tribology behavior of fillers-reinforced sisal fiber composites for lightweight automotive applications‖ Reviews on Advanced Materials Science 2023; 62: 20230342 [Google Scholar]
  49. Kumari, S., Sonia, P., Singh, B., Abhishek, K., & Saxena, K. K. (2020). Optimization of surface roughness in EDM of pure magnesium (Mg) using TLBO. Materials Today: Proceedings, 26, 2458–2461. [Google Scholar]
  50. Spandana, K., & Rao, V. S. (2018). Internet of things (Iot) based smart water quality monitoring system. International Journal of Engineering & Technology, 7(3.6), 259–262. [Google Scholar]
  51. Lakshmi, L., Reddy, M. P., Santhaiah, C., & Reddy, U. J. (2021). Smart phishing detection in web pages using supervised deep learning classification and optimization technique adam. Wireless Personal Communications, 118(4), 3549–3564. [Google Scholar]
  52. Spandana, K., & Rao, V. S. (2018). Internet of things (Iot) based smart water quality monitoring system. International Journal of Engineering & Technology, 7(3.6), 259–262. [Google Scholar]
  53. Tao, R., Zhao, Y., Kai, X., Zhao, Z., Ding, R., Liang, L., & Xu, W. (2018). Microstructures and properties of in situ ZrB2/AA6111 composites synthesized under a coupled magnetic and ultrasonic field. Journal of Alloys and Compounds, 754, 114–123. [Google Scholar]
  54. Kumar, K. U., Babu, P., Basavapoornima, C., Praveena, R., Rani, D. S., & Jayasankar, C. K. (2022). Spectroscopic properties of Nd3+-doped boro-bismuth glasses for laser applications. Physica B: Condensed Matter, 646, 414327. [Google Scholar]
  55. Bhat Kuruveri, U., Bhat Panemangalore, D., Bhat Kuruveri, S., John, M., & Menezes, P. L. (2022). Surface Modification of 6xxx Series Alumi-num Alloys. Coatings 2022, 12, 180. [Google Scholar]

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