A review on magnetic abrasive finishing
C Qian, Z Fan, Y Tian, Y Liu, J Han, J Wang - The International Journal of …, 2021 - Springer
Magnetic abrasive finishing (MAF) has attracted much attention as an advanced nano-
finishing technology in achieving high-quality surface for finishing superalloys, composites …
finishing technology in achieving high-quality surface for finishing superalloys, composites …
Electrolytic magnetic abrasive finishing process–a review
A Malpotra, B Singh, L Singh - Materials Today: Proceedings, 2023 - Elsevier
The electrolytic magnetic abrasive finishing process (EMAF) is hybrid machining, which
combines electrochemical machining (ECM) with the magnetic abrasive finishing process …
combines electrochemical machining (ECM) with the magnetic abrasive finishing process …
Modeling of material removal in ultrasonic assisted magnetic abrasive finishing process
Ultrasonic assisted magnetic abrasive finishing (UAMAF) integrates ultrasonic vibrations
with magnetic abrasive finishing (MAF) process to finish the workpiece surface more …
with magnetic abrasive finishing (MAF) process to finish the workpiece surface more …
Study of magnetic abrasive finishing for AISI321 stainless steel
P Saraeian, H Soleimani Mehr, B Moradi… - Materials and …, 2016 - Taylor & Francis
In recent years, magnetic abrasive finishing (MAF) has become a reliable unconventional
technology among researchers in industries due to need for the surface roughness …
technology among researchers in industries due to need for the surface roughness …
Mathematical modeling and process parameters optimization of ultrasonic assisted electrochemical magnetic abrasive machining
HS Farwaha, D Deepak, GS Brar - Journal of Mechanical Science and …, 2020 - Springer
A new machining technique called ultrasonic assisted electrochemical magnetic abrasive
machining integrates ultrasonic vibrations, electrochemical machining and magnetic …
machining integrates ultrasonic vibrations, electrochemical machining and magnetic …
Development and experimentation of modified electro-chemical magnetic abrasive finishing
AR Chaudhari, KB Judal - Materials and Manufacturing Processes, 2022 - Taylor & Francis
The present research focuses on the development of modified electrochemical magnetic
abrasive finishing set up to reduce the issues like abrasive washing and electrolytic short …
abrasive finishing set up to reduce the issues like abrasive washing and electrolytic short …
Development of hybrid forms of abrasive flow machining process: a review
In the present era, the demand of products with better surface finish and quality has
improved drastically which promoted the industries to make their products with better …
improved drastically which promoted the industries to make their products with better …
Experimental investigation of electro-chemical magnetic abrasive finishing of SS 304 workpiece
AR Chaudhari, KB Judal - Materials Today: Proceedings, 2022 - Elsevier
Industry demands Nano level of surface finishing and development of advanced material
makes finishing difficult to attain for modern grinding industry. The Electro-Chemical …
makes finishing difficult to attain for modern grinding industry. The Electro-Chemical …
Hybrid post-processing effects of electropolishing-assisted magnetic abrasive finishing using CNTs-Co abrasive on stainless steel 316 surface
JH Lee, JS Kwak - 2024 - researchsquare.com
The magnetic abrasive finishing (MAF) process has potential as an advanced surface
finishing technique, capable of achieving micro/nano-level finishes with minimal residual …
finishing technique, capable of achieving micro/nano-level finishes with minimal residual …
[PDF][PDF] EXPERIMENTATION AND SIMULATION OF ELECTRO-CHEMICAL MAGNETIC ABRASIVE FINISHING
CA Ramjibhai, KB Judal - gtusitecirculars.s3.amazonaws.com
The demand for nanometer-level surface finishes is increasing for high functional
components used in robotics, automation, aerospace, nuclear industry, etc. The use of …
components used in robotics, automation, aerospace, nuclear industry, etc. The use of …