Javvadi Eswara Manikanta

Scopus Publications

Cryogenic cooling in sustainable machining: current status and future outlook
Javvadi Eswara Manikanta, Nitin Ambhore, Chitrada Prasad, Amol Dhumal, Gopala Rao Thellaputta
Journal of Engineering and Applied Science, 2026
The current research focuses mainly on the manufacturing industries in terms of energy savings and cleaner production in order to impart sustainability. The use of conventional cutting fluid is not beneficial for high cutting speeds and feeds, as it can lead to increased tool wear and reduced machining efficiency. In addition, such cutting fluid contaminates the atmosphere in high-production machining, leading to environmental concerns and potential health risks for workers exposed to these harmful substances, such as respiratory issues and skin irritations from prolonged exposure to the chemicals present in the fluid. Cryogenic cooling is useful in lowering the high-flow cutting temperatures, which increases the quality of the workpiece and tool life. This review comprehensively analyses the relevant literature on cryogenic cooling in various machining processes. It provides a review and summary of cryogenic cooling, analyzes and evaluates benefits and developmental challenges in each area, and outlines the future developmental directions of cryogenic cooling. These cooling techniques are found to enhance the sustainability of machining processes and production as a whole, particularly by reducing energy consumption and minimizing waste generated during manufacturing. This study aims to develop new strategies for the research and development of cryogenic cooling technology in machining industries.
Analysis and optimization of low-cost compression molding process for manufacture of particulate bone powder PLA composites
Santha Rao Dakarapu, Praveena Chakravarthy Maddili, Javvadi Eswara Manikanta, Nitin Ambhore, Attila Szántó, Timotei István Erdei
Discover Materials, 2026
Poly Lactic Acid (PLA) is a bio-based polymer gaining attracted for the fabrication of composite materials. This research examines the mechanical characteristics of biodegradable PLA composites reinforced with animal bone particles through the compression molding technique. The reinforcement of animal bone powder was varied from 5% to 20% wt, and the variables of molding parameters of dwell time, die temperature, and pressure. The experiments are carried out using Design of Experiments (DOE). The hardness, tensile, and flexural properties have been evaluated. The finding reported that the incorporation of animal bone powder leads to an enhancement in mechanical properties. The tensile strength of PLA composite was improved by 19.26% to neat PLA samples under similar process parameters. The Hardness of the composite was improved by 24.39% when compared to neat PLA samples. The flexural strength of composites was improved by 15% to the neat PLA samples. Composites containing higher weight percentages of fillers demonstrated increased stiffness and strength, albeit with a reduction in ductility. The process parameters of compression molding were optimized using Taguchi analysis for higher tensile strength. The findings suggest that the inclusion of reinforcement plays a role in enhancing the mechanical performance of composites. In addition, SEM analysis confirmed the particle was well-dispersed, contributing properties enhancement.
Toward Sustainable Machining: A Comprehensive Review of Surface Modification Techniques for Cutting Tools
Aut Journal of Mechanical Engineering, 2026
Enhanced Machinability of Additively Manufactured Copper with Diamond-Like Carbon (DLC)-Coated Tools: An Experimental Investigation
R. Raj Mohan, K. Hareharen, Javvadi Eswara Manikanta, S. Navaneetha Krishnan, B. Sakthivel, Babu Narayanan
Journal of Materials Engineering and Performance, 2026
Employing artificial neural networks and grey-based taguchi approach for optimization of sustainable turning of SS304 alloy
Javvadi Eswara Manikanta, Abdul Khalad, S. Santosh, Naveen Kumar Gurajala, Chitrada Prasad
International Journal on Interactive Design and Manufacturing, 2026
Analysis of machining performance in turning with trihybrid nanofluids and minimum quantity lubrication
Javvadi Eswara Manikanta, Masuk Abdullah, Nitin Ambhore, Tarun Kumar Kotteda
Scientific Reports, 2025
Mono-type and dihybrid nanoparticle-enriched cutting fluids in machining processes are gaining popularity because of their outstanding benefits such as enhanced tool life and surface finish. In this work, a trihybrid nanocutting fluid was developed by mixing MWCNT Al2O3 graphene nanoparticles with different weight concentrations. The prepared tri-hybrid nanofluids were tested during the machining of SS304 steel. Coated tungsten carbide and PVD TiAlN carbide tools are used for the machining. Analysis of variance (ANOVA) and response surface methodology (RSM) were used to analysed the obtained data. ANOVA revealed that the interaction of cutting speed and feed had shown a good impact on surface roughness. The combinations of minimum quantity lubrication (MQL) and tri-hybrid nanofluid characteristics increase surface quality by 16% and the cutting temperature by 76%, respectively, which offers future applications in the machining industry. The correlations are verified using a conformance test and have acceptable variances of 3.11% and 1.13% with the ANN approach regression analysis.
Machining performance evaluation of eco-friendly copper oxide-based nanofluids in turning operations
, Javvadi Eswara Manikanta, Nitin Ambhore, , Krishna Birudugadda Murthy, , Gopala Rao Thellaputta, , Devendra Agrawal, and
Obrabotka Metallov, 2025
Introduction. There is a growing demand for eco-friendly cutting fluids in machining due to their non-toxicity, sustainability, high performance, and ability to improve surface quality. These fluids support green manufacturing practices and promote a safe working environment. Copper oxide-based nanofluids offer the combined benefits of enhanced heat transfer, increased safety, and reduced tool wear and cutting forces. The purpose of the work. This research focuses on evaluating the performance of copper oxide-based cutting fluids in turning processes to support sustainable and eco-conscious manufacturing. The study investigates the turning of SS 304 steel using varying concentrations of copper oxide nanofluids. The methods of investigation. In this study, the turning process was tested under various machining conditions using different concentrations of copper oxide nanoparticles (0.3 %, 0.6 %, 0.9 %, 1.2 %, and 1.5 %). Corn oil was selected as the base oil, and the copper oxide nanoparticles were dispersed in the corn oil to prepare the nanofluid. Machining trials were conducted under different lubrication environments: dry, wet, minimum quantity lubrication (MQL), and nano-enhanced MQL (nMQL). A comparative study was performed to assess cutting temperature and cutting forces. Results and discussion. The results showed that the use of 1.2 % copper oxide nanofluid led to significant reductions in cutting force and cutting temperature, by approximately 17.54 % and 29.53 %, respectively, compared to traditional dry and wet machining environments. Furthermore, the nanofluid was observed to form a protective film at the tool-workpiece interface, reducing tool wear. These findings highlight the potential of copper oxide-based green cutting fluids to improve turning operation efficiency and promote environmentally sustainable practices.
A comprehensive review on elastomers manufactured through additive manufacturing
Javvadi Eswara Manikanta, Nitin Ambhore, K. V. G. Praveen, Amol Dhumal, Devendra Agrawal
Journal of Engineering and Applied Science, 2025
Elastomers are a versatile and vital category of polymers with applications across numerous sectors, including automotive, healthcare, aerospace and consumer products. In recent times, elastomers have been produced through additive manufacturing techniques, allowing for the production of intricate and highly functional components. Despite the advantages, additive manufacturing remains challenging due to the inherent thermal and mechanical properties of elastomers. This review delves into the production of elastomers through additive manufacturing methods such as fused deposition modeling, stereolithography, selective laser sintering and direct ink writing. Each method is examined regarding its material compatibility and applicability in manufacturing the elastomer components. The objective of this review is to present the current status of elastomer additive manufacturing with an emphasis on major constraints and limitations faced in the domain. It goes on to examine the evolution of the processes and provides useful recommendations on future strategies that will enhance elastomer printability, to assist researchers and practitioners in the industry in identifying new and creative applications of additive manufacturing.
Sustainable machining: enhancing performance with vegetable oil-based nano cutting fluids
Javvadi Eswara Manikanta, Nitin Ambhore, Chetan Nikhare, Naveen Kumar Gurajala, Hari Krishna Ch.
Discover Materials, 2025
The environmentally friendly cutting fluids in machining is now attractive due to both environmental and health problem, as well as the growing demand for sustainable manufacturing. The study evaluates the technical feasibility of utilizing biodegradable natural vegetable oil infused with graphene nanoparticles as a cutting fluid for turning SS 304 steel. The Minimum Quantity Lubrication (MQL) method was employed in the assessment. Corn oil was chosen as the edible vegetable oil, and different volume percentages (0.5%, 1%, 1.5%, 2%, 2.5%, 3%) of nanoparticles were mixed to prepare nanofluids. To provide a basis for comparison, a commercial cutting fluid was used under the same MQL technique, along with a dry condition as a benchmark. To measure the lubri-cooling capacity and physical and chemical properties of the fluids, specific tests were conducted. The experimental results showed corn oil with 2.5% graphene demonstrated promising results. Cutting force initially increases and then gradually decreases as percentage Graphene increases. With 2.5% graphene showing optimal performance in reducing friction, improving heat dissipation, and minimizing tool wear.
Laser applications in surface treatment: a comprehensive review
Nitin Ambhore, Javvadi Eswara Manikanta, Naveen Kumar Gurajala, Chetan Nikhare
Laser Physics, 2025
Laser-based surface treatment techniques have revolutionized the material processing industry with their unparalleled precision and versatility in modifying material properties. These techniques are widely used in various sectors such as manufacturing, medical, automotive, aerospace, etc. Techniques such as annealing, hardening, coating, surface treatment, and material deposition have gained prominence for their broad applicability across diverse industries. This review paper provides an in-depth analysis of recent developments in these methods, clarifying their underlying ideas, diverse range of applications, intrinsic benefits, and current difficulties. This review article offers a comprehensive summary of the most recent developments in these fields, emphasizing their benefits, drawbacks, applications, and principles.
Fabrication and Performance of Aluminium Alloy 6351-Zirconium Boride Particles In situ Composite of Erosive Wear Properties
Naveen Kumar Gurajala, Javvadi Eswara Manikanta, V. Gopal, L. Ranganathan, G. Senthilkumar
Journal of the Institution of Engineers India Series D, 2025
Sustainable machining strategies for metal matrix composites: a comprehensive review
Eswara Manikanta Javvadi, Santosh S, Nitin Ambhore, D Santha Rao, R Raj Mohan
Engineering Research Express, 2025
A Review on Hybrid Nanofluids: Preparation Methods, Thermo Physical Properties and Applications
Javvadi Eswara Manikanta, Chetan Nikhare, Naveen Kumar Gurajala, Nitin Ambhore, R. Raj Mohan
Iranian Journal of Science and Technology Transactions of Mechanical Engineering, 2025
Investigation of vegetable oil-based cutting fluids enhanced with nanoparticle additions in turning operations
, Javvadi Eswara Manikanta, Nitin Ambhore, , Gopala Rao Thellaputta, and
Obrabotka Metallov, 2025
Effect of AA 6351-ZrB2in-situ composition on dry sliding wear performance at elevated temperatures
Naveen Kumar Gurajala, Masuk Abdullah, Javvadi Eswara Manikanta, Nitin Ambhore
Oxford Open Materials Science, 2025
Recent advances in additive manufacturing for nanosensors: a review of fabrication techniques, nanomaterial integration, and biomedical applications
Nitin Ambhore, Maddipati Rajesh, Javvadi Eswara Manikanta, Amol Dhumal
Journal of Umm Al Qura University for Engineering and Architecture, 2025
Investigation of the AISI 1040 Steel Machining Characteristics with the Application of Cutting Fluid (Corn oil+ Al2O3) Using the Taguchi-TOPSIS (T-T) Approach
Javvadi Eswara Manikanta, R Raj Mohan, Nitin Ambhore, Naveen Kumar Gurajala, K Hareharen, S Santosh
Process Modeling and Optimization in Modern Manufacturing, 2025
A comprehensive review on sensor supported monitoring of machining processes
Eswara Manikanta Javvadi, Santosh S, Nitin Ambhore, Dattatraya Nalawade
Engineering Research Express, 2024
Machine Learning and Artificial Intelligence Supported Machining: A Review and Insights for Future Research
Javvadi Eswara Manikanta, Nitin Ambhore, Amol Dhumal, Naveen Kumar Gurajala, Ganesh Narkhede
Journal of the Institution of Engineers India Series C, 2024
Investigation of vegetable-based hybrid nanofluids on machining performance in MQL turning
, Javvadi Eswara Manikanta, Nitin Ambhore, , Sonal Shamkuwar, , Naveen Kumar Gurajala, , Santha Rao Dakarapu, and
Obrabotka Metallov, 2024
Application of sustainable techniques in grinding process for enhanced machinability: a review
Javvadi Eswara Manikanta, Nitin Ambhore, Chetan Nikhare
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2024
Optimization parameters for electro discharge machining on Nimonic 80A alloy using grey relational analysis
Maddipati Rajesh, M. Naga Swapna Sri, S. Jeyakrishnan, P. Anusha, Javvadi Eswara Manikanta, N. Sateesh, B. Ch. Nookaraju, Ram subbiah, S. Vijayakumar
International Journal on Interactive Design and Manufacturing, 2024
Examination of electrochemical machining parameters for AA6082/ZrSiO4/SiC composite using Taguchi-ANN approach
K. Srividya, S. Ravichandran, M. Thirunavukkarasu, Itha Veeranjaneyulu, P. Satishkumar, K. Bharadwaja, N. Srinivasa Rao, Ram Subbiah, Javvadi Eswara Manikanta
International Journal on Interactive Design and Manufacturing, 2024
Optimizing sustainable machining processes: a comparative study of multi-objective optimization techniques for minimum quantity lubrication with natural material derivatives in turning SS304
Javvadi Eswara Manikanta, Batta Naga Raju, Nitin Ambhore, S. Santosh
International Journal on Interactive Design and Manufacturing, 2024
Development and Characterization of Novel Green Cutting Fluids with Nano-additives
Javvadi Eswara Manikanta, Batta Naga Raju, Raj Kumar Satankar
Periodica Polytechnica Mechanical Engineering, 2024
Optimization of tribological behavior of Aluminium (A356) composites using TGRA technique
Suvvari Chinni Krishna Venkata Ramana Murty Naidu, Suresh Vellingiri, Saravana Murthi Chinnasamy, Shanmugasundaram Brindavanam, Allwin Ebinesar Jacob Samuel Sehar, Srinivasnaik Mukuloth, Yuvaraj Kunnathur Periyasamy, Jitendra Mohan Giri, Javvadi Eswara Manikanta
Revista Materia, 2024
Nanoparticle Enriched Cutting Fluids in Metal Cutting Operation: A Review
J. E. Manikanta, B. Naga Raju, B. S. S. Phanisankar, M. Rajesh, Tarun Kumar Kotteda
Lecture Notes in Mechanical Engineering, 2023
Hybrid polymer nano fillers on mechanical properties for current applications: An overview
G. Naveen Kumar, G. Naga Durga Rao, J. Durga Prasad, K. Avinash kumar, Javvadi Eswara Manikanta
Materials Today Proceedings, 2023
Experimental and finite element investigations on formability of friction stir welded tailor welded blanks of AA6061 and AA2017
N Malleswararao Battina, Hari Krishna Chirala, Varaha Siva Prasad Vanthala, Eswara Manikanta Javvadi, Raja Sekhar Nukathoti, Azaharahmed Mohammed
Materials Today Proceedings, 2023
Machining performance on SS304 using nontoxic, biodegradable vegetable-based cutting fluids
Javvadi Eswara Manikanta, B. Naga Raju, Chitrada Prasad, B.S.S. Phani Sankar
Chemical Data Collections, 2022
Mechanical and microstructural behaviour of aluminium/TiB2composites fabricated through multi-pass friction stir processing
D. Santha Rao, B.N.V.S.K. Ganesh Gupta, T. Venkateswara Rao, J. Eswera Manikanta
Materials Today Proceedings, 2021
Conversion of waste plastic to fuel products
B.S.S. Phanisankar, N. Vasudeva Rao, J.E. Manikanta
Materials Today Proceedings, 2020
The performance of alumina mixed coconut oil in turning of SS304 alloy
Javvadi Eswara Manikanta et al., Javvadi Eswara Manikanta et al., and
International Journal of Mechanical and Production Engineering Research and Development, 2019
Integrality characterization of machining with nano cutting fluids
International Journal of Mechanical Engineering and Technology, 2018

RECENT SCHOLAR PUBLICATIONS

Cryogenic cooling in sustainable machining: current status and future outlook
JE Manikanta, N Ambhore, C Prasad, A Dhumal, GR Thellaputta
Journal of Engineering and Applied Science 73 (1), 178 , 2026
2026
Analysis and optimization of low-cost compression molding process for manufacture of particulate bone powder PLA composites
SR Dakarapu, PC Maddili, JE Manikanta, N Ambhore, A Szántó, TI Erdei
Discover Materials 6 (1), 46 , 2026
2026
Citations: 1
Toward Sustainable Machining: A Comprehensive Review of Surface Modification Techniques for Cutting Tools
JE Manikanta, BK Murthy, N Ambhore, C Prasad, NK Gurajala
AUT Journal of Mechanical Engineering 10 (2), 139-152 , 2026
2026
Enhanced Machinability of Additively Manufactured Copper with Diamond-Like Carbon (DLC)-Coated Tools: An Experimental Investigation
RR Mohan, K Hareharen, JE Manikanta, SN Krishnan, B Sakthivel, ...
Journal of Materials Engineering and Performance 35 (7), 6519-6530 , 2026
2026
Employing artificial neural networks and grey-based taguchi approach for optimization of sustainable turning of SS304 alloy
JE Manikanta, A Khalad, S Santosh, NK Gurajala, C Prasad
International Journal on Interactive Design and Manufacturing (IJIDeM) 20 (1 … , 2026
2026
Citations: 3
Machining performance evaluation of eco-friendly copper oxide-based nanofluids in turning operations
JE Manikanta, N Ambhore, KB Murthy, GR Thellaputta, D Agrawal
Obrabotka Metallov/Metal Working and Material Science 27 (4), 6-15 , 2025
2025
Citations: 1
A comprehensive review on elastomers manufactured through additive manufacturing
JE Manikanta, N Ambhore, KVG Praveen, A Dhumal, D Agrawal
Journal of Engineering and Applied Science 72 (1), 253 , 2025
2025
Citations: 1
Recent advances in additive manufacturing for nanosensors: a review of fabrication techniques, nanomaterial integration, and biomedical applications
N Ambhore, M Rajesh, JE Manikanta, A Dhumal
Journal of Umm Al-Qura University for Engineering and Architecture, 1-11 , 2025
2025
Citations: 4
Investigation of the AISI 1040 Steel Machining Characteristics with the Application of Cutting Fluid (Corn oil+ A l 2 O 3) Using the Taguchi-TOPSIS (TT) Approach
JE Manikanta, RR Mohan, N Ambhore, NK Gurajala, K Hareharen, ...
Process Modeling and Optimization in Modern Manufacturing, 78-89 , 2025
2025
Laser applications in surface treatment: a comprehensive review
N Ambhore, JE Manikanta, NK Gurajala, C Nikhare
Laser Physics 35 (10), 106101 , 2025
2025
Citations: 6
Sustainable machining strategies for metal matrix composites: a comprehensive review
EM Javvadi, S S, N Ambhore, D Santha Rao, RR Mohan
Engineering Research Express 7 (2), 022401 , 2025
2025
Citations: 3
Analysis of machining performance in turning with trihybrid nanofluids and minimum quantity lubrication
JE Manikanta, M Abdullah, N Ambhore, TK Kotteda
Scientific Reports 15 (1), 12194 , 2025
2025
Citations: 15
Sustainable machining: enhancing performance with vegetable oil-based nano cutting fluids
JE Manikanta, N Ambhore, C Nikhare, NK Gurajala, HK Ch
Discover Materials 5 (1), 63 , 2025
2025
Citations: 5
Investigation of vegetable oil-based cutting fluids enhanced with nanoparticle additions in turning operations
JE Manikanta
Obrabotka metallov - Metal Working and Material Science 27 (1), . 20–33 , 2025
2025
A review on hybrid nanofluids: preparation methods, thermo physical properties and applications
JE Manikanta, C Nikhare, NK Gurajala, N Ambhore, RR Mohan
Iranian Journal of Science and Technology, Transactions of Mechanical … , 2025
2025
Citations: 20
Effect of AA 6351-ZrB 2 in-situ composition on dry sliding wear performance at elevated temperatures
NK Gurajala, M Abdullah, JE Manikanta, N Ambhore
Oxford Open Materials Science 5 (1), itaf010 , 2025
2025
Citations: 2
Machining performance of SS 304 steel with hybrid nanocutting fluids using Taguchi-based gray relational analysis
JE Manikanta, N Ambhore, C Nikhare, NK Gurajala
Journal of Mechanical Engineering and Sciences, 10290-10302 , 2024
2024
Citations: 6
A comprehensive review on sensor supported monitoring of machining processes
EM Javvadi, S S, N Ambhore, D Nalawade
Engineering Research Express 6 (4), 042404 , 2024
2024
Citations: 6
Machine learning and artificial intelligence supported machining: a review and insights for future research
JE Manikanta, N Ambhore, A Dhumal, NK Gurajala, G Narkhede
Journal of The Institution of Engineers (India): Series C 105 (6), 1653-1663 , 2024
2024
Citations: 10
Development and Characterization of Novel Green Cutting Fluids with Nano-additives
JE Manikanta, BN Raju, RK Satankar
Periodica Polytechnica Mechanical Engineering 68 (4), 304-311 , 2024
2024
Citations: 5

MOST CITED SCHOLAR PUBLICATIONS

Conversion of waste plastic to fuel products
BSS Phanisankar, NV Rao, JE Manikanta
Materials Today: Proceedings 33, 5190-5195 , 2020
2020
Citations: 64
Optimization parameters for electro discharge machining on Nimonic 80A alloy using grey relational analysis
M Rajesh, MNS Sri, S Jeyakrishnan, P Anusha, JE Manikanta, N Sateesh, ...
International Journal on Interactive Design and Manufacturing (IJIDeM) 18 (3 … , 2024
2024
Citations: 46
Examination of electrochemical machining parameters for AA6082/ZrSiO4/SiC composite using Taguchi-ANN approach
K Srividya, S Ravichandran, M Thirunavukkarasu, I Veeranjaneyulu, ...
International Journal on Interactive Design and Manufacturing (IJIDeM) 18 (3 … , 2024
2024
Citations: 35
Mechanical and microstructural behaviour of aluminium/TiB2 composites fabricated through multi-pass friction stir processing
DS Rao, BG Gupta, TV Rao, JE Manikanta
Materials Today: Proceedings 44, 413-418 , 2021
2021
Citations: 27
Machining performance on SS304 using nontoxic, biodegradable vegetable-based cutting fluids
JE Manikanta, BN Raju, C Prasad, BSSP Sankar
Chemical Data Collections 42, 100961 , 2022
2022
Citations: 24
A review on hybrid nanofluids: preparation methods, thermo physical properties and applications
JE Manikanta, C Nikhare, NK Gurajala, N Ambhore, RR Mohan
Iranian Journal of Science and Technology, Transactions of Mechanical … , 2025
2025
Citations: 20
Application of sustainable techniques in grinding process for enhanced machinability: a review
JE Manikanta, N Ambhore, C Nikhare
Journal of the Brazilian Society of Mechanical Sciences and Engineering 46 … , 2024
2024
Citations: 20
Analysis of machining performance in turning with trihybrid nanofluids and minimum quantity lubrication
JE Manikanta, M Abdullah, N Ambhore, TK Kotteda
Scientific Reports 15 (1), 12194 , 2025
2025
Citations: 15
Optimizing sustainable machining processes: a comparative study of multi-objective optimization techniques for minimum quantity lubrication with natural material derivatives in …
JE Manikanta, BN Raju, N Ambhore, S Santosh
International Journal on Interactive Design and Manufacturing (IJIDeM) 18 (2 … , 2024
2024
Citations: 15
A review on mechanical properties of hybrid polymer composites
GN Kumar, K Rajesh, MRD Rao, KPS Bharath, JE Manikanta
Materials Today: Proceedings , 2023
2023
Citations: 15
Nanoparticle Enriched Cutting Fluids in Metal Cutting Operation: A Review
JE Manikanta, B Naga Raju, BSS Phanisankar, M Rajesh, TK Kotteda
Recent Advances in Mechanical Engineering, 147-156 , 2022
2022
Citations: 15
Experimental and finite element investigations on formability of friction stir welded tailor welded blanks of AA6061 and AA2017
NM Battina, HK Chirala, VSP Vanthala, EM Javvadi, RS Nukathoti, ...
Materials Today: Proceedings , 2023
2023
Citations: 12
Machine learning and artificial intelligence supported machining: a review and insights for future research
JE Manikanta, N Ambhore, A Dhumal, NK Gurajala, G Narkhede
Journal of The Institution of Engineers (India): Series C 105 (6), 1653-1663 , 2024
2024
Citations: 10
Recent Advances in Mechanical Engineering
JE Manikanta, BN Raju, BSS Phanisankar, M Rajesh, TK Kotteda
Springer , 2023
2023
Citations: 10
Integrality characterization of machining with nano cutting fluids
JE Manikanta, B Ganesh Gupta, KJT Manikanta, R Pradeep
International Journal of Mechanical Engineering and Technology 9 (10), 1033-1042 , 2018
2018
Citations: 10
Optimization of tribological behavior of Aluminium (A356) composites using TGRA technique
SCK Venkata Ramana Murty Naidu, S Vellingiri, SM Chinnasamy, ...
Matéria (Rio de Janeiro) 29 (3), e20240129 , 2024
2024
Citations: 8
Laser applications in surface treatment: a comprehensive review
N Ambhore, JE Manikanta, NK Gurajala, C Nikhare
Laser Physics 35 (10), 106101 , 2025
2025
Citations: 6
Machining performance of SS 304 steel with hybrid nanocutting fluids using Taguchi-based gray relational analysis
JE Manikanta, N Ambhore, C Nikhare, NK Gurajala
Journal of Mechanical Engineering and Sciences, 10290-10302 , 2024
2024
Citations: 6
A comprehensive review on sensor supported monitoring of machining processes
EM Javvadi, S S, N Ambhore, D Nalawade
Engineering Research Express 6 (4), 042404 , 2024
2024
Citations: 6
Sustainable machining: enhancing performance with vegetable oil-based nano cutting fluids
JE Manikanta, N Ambhore, C Nikhare, NK Gurajala, HK Ch
Discover Materials 5 (1), 63 , 2025
2025
Citations: 5

Javvadi Eswara Manikanta

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Scopus Publications

RECENT SCHOLAR PUBLICATIONS

MOST CITED SCHOLAR PUBLICATIONS