Collection's Items (Sorted by Submit Date in Descending order): 501 to 520 of 1265
Issue Date | Title | Author(s) |
2022-03 | Development of a deposition framework for implementation of a region-based adaptive slicing strategy in arc-based metal additive manufacturing | Kala, Prateek |
2022-10 | Process window identification for 3D printing low melting point alloy (LMPA) using fused deposition modelling (FDM) | Kala, Prateek |
2021-08 | Bibliometric Analysis-Based Review of Fused Deposition Modeling 3D Printing Method (1994–2020) | Kala, Prateek |
2022-09 | Trends, opportunities, and challenges in the integration of the additive manufacturing with Industry 4.0 | Kala, Prateek |
2015-12 | Experimental investigations of chemo-ultrasonic assisted magnetic abrasive finishing process | Kala, Prateek |
2015-05 | Experimental investigations into ultrasonic-assisted double-disk magnetic abrasive finishing of two paramagnetic materials | Kala, Prateek |
2021 | Analysis of a hybrid ultrasonic horn profile using finite element analysis | Kala, Prateek |
2021-02 | Investigations of process parameters during dissolution studies of drug loaded 3D printed tablets | Kala, Prateek |
2019 | Optimization of process variables to improve the mechanical properties of FDM structures | Kala, Prateek |
2021 | Thermal analysis of TIG-WAAM based metal deposition process using finite element method | Kala, Prateek |
2019-11 | Thin-walled metal deposition with GTAW welding-based additive manufacturing process | Kala, Prateek |
2017-08 | Understanding flexible abrasive brush behavior for double disk magnetic abrasive finishing based on force signature | Kala, Prateek |
2017-01 | Surface roughness modelling for Double Disk Magnetic Abrasive Finishing process | Kala, Prateek |
2014 | In the era of globalization, the demand of new products with advanced material and process technologies is increasing. Conventional manufacturing techniques are not capable to process the advanced engineering materials with stringent properties. This paper presents a novel approach to finish some advanced engineering materials with stringent properties, which is a challenge for existing conventional machining processes. In this study the positive outcomes of Magnetic Abrasive Finishing (MAF), Chemical-Mechanical Polishing (CMP), and ultrasonic vibrations have been integrated and a novel finishing process Chemo Ultrasonic Assisted Magnetic Abrasive Finishing (CUMAF) has been developed. The machining performance has been enhanced with the process resulting in better surface finish and reduced finishing time. In order to establish the process, an experimental study was done to analyze the influence of five different process variables on surface roughness of workpiece. The response surface methodology and analysis of variance was used to design the experiments and analyze the results respectively. A regression model was also developed and validated, to foresee the process response. Optimization of the model was carried out at the end to obtain the best performance. | Kala, Prateek |
2017 | Analysis of Surface Finish Improvement during Ultrasonic Assisted Magnetic Abrasive Finishing on Chemically treated Tungsten Substrate | Kala, Prateek |
2012-10 | Polishing of Copper Alloy Using Double Disk Ultrasonic Assisted Magnetic Abrasive Polishing | Kala, Prateek |
2020-10 | Sustainable techniques in grinding: State of the art review | Kala, Prateek |
2015 | Chemo Assisted Magnetic Abrasive Finishing: Experimental Investigations | Kala, Prateek |
2016-05 | Experimental investigations into internal magnetic abrasive finishing of pipes | Kala, Prateek |
2015-01 | Comparison of finishing characteristics of two paramagnetic materials using double disc magnetic abrasive finishing | Kala, Prateek |
Collection's Items (Sorted by Submit Date in Descending order): 501 to 520 of 1265