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CALL US
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06-02-2004 |
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ME |
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184797 |
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A+ |
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HINDUISM |
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1-455363845 |
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30-09-2009 |
| Teaching | Research | Industry |
|---|---|---|
| 192 | 60 | 84 |
| Date | Title | Journal | DOI | Link |
|---|---|---|---|---|
| 02-03-2024 | Experimental Analysis of Surface Roughness of Steel by Considering Variable Cutting Parameters for Turning | International Journal of Applied and Structural Mechanics | DOI | View |
| 08-02-2023 | Study of the Performance of Wire EDM on Titanium Alloy using Taguchi Method | Journal of Electronics, Computer Networking & Applied Mathematics (JECNAM) | DOI | View |
| 04-02-2023 | Experimental Study of Casting using Loose Piece Pattern(Dovetail) | International Journal of Applied & Structural Mechanics (IJASM) | DOI | View |
| 27-01-2023 | Experimental Study of Different Bio Based CuttingFluid using Multiple Machining Characteristics during Turning Operation | International Journal of Applied & Structural Mechanics (IJASM) | DOI | View |
| 21-10-2022 | "Experimental Study of the Impact of Various Bio Based Cutting Fluid Using Multiple Machining Characteristics during Shaping Operation " | International Journal of Applied & Structural Mechanics (IJASM) | DOI | View |
| 19-10-2022 | Additive Manufacturing Process (3D Printing):A Critical Review of Techniques, Applications & Future Scope | International Journal of Engineering Research & Technology (IJERT) | DOI | View |
| 05-05-2022 | A Critical Review on Classification of Materials used in 3D Printing Process | Materials Today: Proceedings, Elsevier | DOI | View |
| Date | Title | Conference | DOI | Link |
|---|---|---|---|---|
| 29-08-2025 | Analyzing, Predicting, and Optimizing Cutting Forces in Turning with a Lathe Tool Dynamometer with Variable Feed Rates | National Conference on Advanced & Emerging Materials for Technological Applications (AEMTA-2024) | DOI | View |
| 27-05-2025 | IMPACT OF PROCESS VARIABLES ON ROUGHNESS OF TURNED SURFACES USING BIODEGRADABLE CUTTING FLUIDS | INTERNATIONAL CONFERENCE ON MECHANICAL & INDUSTRIAL TECHNOLOGY (ICMIT-2025) | DOI | View |
| 27-05-2025 | EFEECT OF MOLDING SAND CONSTITUENTS ON CASTING QUALITY: A RSM BASED STUDY | INTERNATIONAL CONFERENCE ON MECHANICAL & INDUSTRIAL TECHNOLOGY (ICMIT-2025) | DOI | View |
| 05-01-2025 | EFFECT OF TIG WELDING PARAMETER OF WELDED JOINT FOR DIFFERENT MATERIALS | International Conference on Applied Mathematical Sciences for Emerging Technologies (ICAMSET-2025) | DOI | View |
| 05-01-2025 | SURFACE ROUGHNESS ANALYSIS: A COMPARATIVE STUDY OF EFFECTS OF CUTTING FLUID IN TURNING & SHAPING OPERATIONS | International Conference on Applied Mathematical Sciences for Emerging Technologies (ICAMSET-2025) | DOI | View |
| 21-02-2024 | Experimental & Parametric Study of Friction Stir Welding on Similar & Dissimilar Metals | 2nd International Conference on Nonlinear Dynamics and Applications (ICNDA 2024) | DOI | View |
| 03-02-2023 | Metal Inert Gas Cladding Simulation and Residual Stress analysis of Mild Steel | RECENT ADVANCES IN MATERIALS, MANUFACTURING AND MACHINE LEARNING | DOI | View |
| Committee Name | Start Date | End Date |
|---|---|---|
| WORKSHOP-GD&T,2D,3D (MAY2026) | 28-04-2026 | 21-05-2026 |
| WORKSHOP GD&T,2D,3D -MAY2026 | 21-04-2026 | 21-05-2026 |
| BOS(ME) | 11-03-2026 | 03-06-2026 |
| DAC(ME) | 11-03-2026 | 03-06-2026 |
| SDG-7 BASED CLEANENERGY_COMPETITION-2026 | 24-02-2026 | 25-03-2026 |
| WORKSHOP.(ME)-INNOVATION_INCUBATION_STARTUPS-2026/2 | 30-01-2026 | 28-02-2026 |
| WORKSHOP.(ME)-INNOVATION_INCUBATION_STARTUPS-2026/1 | 20-01-2026 | 10-02-2026 |
| INDUSTRIAL TOUR (ME)-2026/1 | 09-12-2025 | 21-01-2026 |
| FDP-MANUFACTURING&THERO.FLUID (2025-26/02) | 19-11-2025 | 14-03-2026 |
| FDP 2025-26 SMART MANUFACTURING IN INDUSTRIES | 08-09-2025 | 21-11-2025 |
| EXPERT LECTURE-AEROELASTICITY | 28-08-2025 | 10-09-2025 |
| SEMINAR(ME)-COMPETITIVE CODING | 23-07-2025 | 14-08-2025 |
| ANTI RAGGING SQUAD | 01-07-2025 | 03-06-2026 |
| NAAC (ME) | 01-07-2025 | 03-06-2026 |
| FAREWELL-2025 (ME) | 08-05-2025 | 27-05-2025 |
| WORKSHOP(ME)-Gen.AI | 25-04-2025 | 07-05-2025 |
| SEMINAR-25/1 | 04-02-2025 | 25-02-2025 |
| ATAL FDP COMMITTEE | 23-09-2024 | 28-09-2024 |
| Title | Patent Number | Patent Office | Date | Status | Country | Application No. | Abstract | Expiration Date |
|---|---|---|---|---|---|---|---|---|
| AI-POWERED PARAMETER OPTIMIZING HYBRID LASER AND ARC WELDING APPARATUS | 453307-001 | ThePatent Office, Goverment Of India | 23-06-2025 | PUBLISHED | INDIA | 453307-001 | The AI-powered parameter optimizing Hybrid laser and arc welding apparatus integrates laser and arc welding technologies to enhance precision, efficiency, and adaptability across industrial applications. The apparatus is a compact, intelligent control unit equipped with an advanced machine learning framework that dynamically adjusts critical welding parameters, including power, speed, and material response. By leveraging real-time data acquisition, predictive modeling, and adaptive learning algorithms, the system ensures consistent weld quality, defect minimization, and process stability. The AI-powered optimization enables automatic compensation for variations in material thickness and environmental conditions, significantly improving joint strength, operational efficiency, and overall productivity. With applications spanning automotive manufacturing, aerospace engineering, and heavy industries, this technology represents a significant advancement in welding automation, reducing reliance on manual intervention while enhancing reliability, adaptability, and manufacturing throughput. | 26-05-2035 |
| ADVANCED GAS SHIELDING SYSTEM FOR IMPROVED WELD QUALITY AND REDUCED SPATTER | 202531014459 | Office of controller Generel of Patents, Designs & Trademarks, Goverment Of India | 14-03-2025 | PUBLISHED | INDIA | 202531014459 | The present invention provides an advanced gas shielding system that incorporates intelligent control mechanisms to regulate gas flow and distribution in real time. The system includes an adaptive gas nozzle, a flow control unit, and a feedback mechanism to dynamically adjust shielding parameters based on welding conditions. The proposed system significantly improves gas efficiency, enhances arc stability, reduces spatter, and ensures high-quality welds by maintaining optimal shielding throughout the welding process. The system is applicable to various welding techniques, including Gas Metal Arc Welding (GMAW), Gas Tungsten Arc Welding (GTAW), and Plasma Arc Welding (PAW) | 14-03-2025 |