14, February 2025

Design & Thermal Analysis of Single Point Cutting Tool by Using Ansys Workbench

VOLUME-9; ISSUE-2; FEB-2025

Author(s): Sandeep Kajalekar

Authors Affiliations:

M-Tech Student, Mechanical Engg, College of Engineering Dharashiv, India

DOIs:10.2017/IJRCS/202502005     |     Paper ID: IJRCS202502005


Abstract
Keywords
Cite this Article/Paper as
References

At numerous operational cutting speed of lathe, temperature of the tool-chip interface is decided experimentally and modelled. Specifically, Analyses are done of High Speed Steel and of a Carbide Tool tip machining technique at three varying cutting speeds, so as to examine to experimental outcomes produced as part of this study. Heat generation during cutting operation at tool chip interface is investigated by varying cutting parameters at the suitable cutting tool geometry. The experimental readings shows that the elements which can be accountable for increasing cutting temperature are cutting speed, depth of cut and feed respectively. Various methods can be used to calculate those cutting temperatures generated all through machining. “Infrared Thermometer” is mostly used for measuring temperature at tool-chip interface. Single point cutting tool has been modelled and analyzed with the help of ANSYS.

HSS Tool, Carbide Tool, Thermal Analysis, Ansys etc.

Sandeep Kajalekar (2025), Design & Thermal Analysis of Single Point Cutting Tool by Using Ansys Workbench, International Journal of Research Culture Society,    ISSN(O): 2456-6683,  Volume – 9,   Issue –  2.,  Pp.28-34.        Available on – https://ijrcs.org/

  1. Joao Roberto Ferreira, (2009): Thermal analysis in coated cutting tools. International Communications in Heat and Mass Transfer 36, 314–321.
  2. HAMEEDULLAH, (2010): Chip-Tool Interface Temperature Prediction Model for Turning Process International Journal of Engineering Science and Technology Vol. 2(4), 382-393.
  3. P. D. Kamble, (2013): Finite element analysis on temperature distribution in turning process using deform-3D International Journal of Research in Engineering and Technology ISSN: 2319-1163.
  4. Shreepad Sarange, (2014): Numerical analysis to determine the distribution of tool forces and temperatures of single point cutting tool. International Journal of Science and Research (IJSR) ISSN (Online): 2319-7064.
  5. Razik, (2014): Finite Element Analysis of Single Point Cutting Tool. IJMER | ISSN: 2249–6645 | Vol. 4 | Iss. 3 | 12 |.
  6. Zhanqiang Liu, (2008): An analytical model for transient temperature distributions in coated carbide cutting tools. International Communications in Heat and Mass Transfer 35, 1311–1315.
  7. Niesłony. (2005): Finite element modeling of temperature distribution in the cutting zone in turning processes with differently coated tools. 13th international scientific conference.
  8. Guimar, (2006): Temperature determination at the chip–tool interface using an inverse thermal model considering the tool and tool holder. Journal of Materials Processing Technology 179 (2006) 97–104

Loading

Download Full Paper

Download PDF No. of Downloads:6 | No. of Views: 21