Abstract
Nowadays miniaturization with precision is an important requirement in the field of medical devices and high-end applications. This work introduces the concept of 3D complex geometry fabrication in microscale using typical 2-Axis wire-cut electric discharge machine (WEDM). In this regard, the threaded profile micro-pin has been chosen in the present study. Synchronizing the workpiece rotating speed with feed rate along with a suitable depth of cut is the required condition for fabricating a screw. A separate attachment has been developed and used to rotate the workpiece at different speeds. Further, a CNC code has been generated to design the tool path with the required tool feed and depth of cut. Initially, turning operation has been performed which results in reduction in the tool diameter into the desired dimension along with the elimination of the eccentricity of the rotating rod. Consequently, the thread cutting operation has been accomplished with the adjusted set of parameters. Besides, the surface topography and material characteristics of the fabricated screw fin have also been observed based on scanning electron microscopic images and energy-dispersive X-ray analysis. Finally, the established process has been escalated further to fabricate screws of minimum possible dimension using the WEDM.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- α :
-
Thread angle
- D 1 :
-
Major diameter of the screw
- D 2 :
-
Minor diameter of the screw
- F :
-
Wire feed
- I :
-
Peak current
- L :
-
Length of the screw
- m :
-
Number of threads starts in a screw
- n :
-
Number of turn in a screw
- P :
-
Pitch
- r :
-
Radius of the semicircular thread
- S :
-
Table feed
- S S :
-
Spindle speed
- T :
-
Machining time
- T on :
-
Pulse-on-time
- T off :
-
Pulse-off-time
- V :
-
Voltage
- v :
-
Volume
- 2D:
-
Two dimensional
- 3D:
-
Three dimensional
- µEDM:
-
Micro-electrical discharge machining
- CNC:
-
Computer numerical control
- DC:
-
Direct current
- EDM:
-
Electrical discharge machining
- EDX:
-
Energy-dispersive x-ray
- EJT:
-
Electrolytic jet turning
- MRR:
-
Material removal rate
- RPM:
-
Revolution per minute
- SEM:
-
Scanning electron microscope
- TPC:
-
Teeth per centimeter
- WECM:
-
Wire electrochemical machining
- WEDG:
-
Wire electrical discharge grinding
- WEDM:
-
Wire electrical discharge machining
- WEDT:
-
Wire electrical discharge turning
- WEDTC:
-
Wire electrical discharge thread cutting
References
All About Screws (2019). https://www.elexp.com/Images/AllAboutScrews.pdf. Accessed 22 Feb 2019
Majhi A, Bhanja D, Patowari PK (2018) Effect of knurled fin surface on thermal performance of perforated fin heat sink. J Thermophys Heat Transf. https://doi.org/10.2514/1.t5506
Webzell S (2001) That first step into EDM. Findlay Publications Ltd., Findlay
Jameson EC (2001) Description and development of electrical discharge machining (EDM). Electrical Discharge Machining, Society of Manufacturing Engineers, Dearborn
Singh AK, Patowari PK, Deshpande NV (2016) Experimental analysis of reverse micro-EDM for machining microtool. Mater Manuf Process 31(4):530–540
Ho KH, Newman ST, Rahimirard S et al (2004) State of the art in wire electrical discharge machining (WEDM). Int J Mach Tools Manuf 44(12–13):1247–1259
Zivanovic S, Puzovic R (2015) Off-line programming and simulation for 2-axis wire-EDM. FME Trans 43:138–143
Klocke F, Welling D, Klink A et al (2014) Evaluation of advanced wire-EDM capabilities for the manufacture of fir tree slots in inconel 718. Proc CIRP 14:430–435
Debnath T, Patowari PK (2018) Fabrication of an array of micro-fins using wire-EDM and its parametric analysis. Mater Manuf Process. https://doi.org/10.1080/10426914.20191566959
Chen C, Li J, Zhan S et al (2016) Study of micro grooves machined by micro ECM. Proc CIRP 42:418–422
Yukui W, Xiang C, Zhenlong W et al (2016) Complex rotary structures machined by micro-WEDM. Proc CIRP 42:743–747
Miyoshi K, Kunieda M (2016) Fabrication of micro rods of cemented carbide by electrolyte jet turning. Proc CIRP 42:373–378
Sharma V, Patel DS, Jain VK et al (2018) Wire electrochemical threading: a technique for fabricating macro/micro thread profiles. J Electrochem Soc 165(9):397–405
Pater Z, Gontarz A, Weronski W (2004) New method for thread rolling. J Mater Process Technol 153–154:722–728
https://www.barnesballscrew.com/how-a-ball-screw-works/. Accessed 22 Feb 2019
https://www.anaheimautomation.com/manuals/forms/ball-screw-guide.php. Accessed 22 Feb 2019
Zahiruddin M, Kunieda M (2016) Analysis of micro fin deformation due to micro EDM. In: 18th CIRP conference on electro physical and chemical machining, procedia CIRP, vol 42, pp 569–574
Sarkar S, Sekh M, Mitra S et al (2011) A novel method of determination of wire lag for enhanced profile accuracy in WEDM. Precis Eng 35:339–347
Author information
Authors and Affiliations
Corresponding author
Additional information
Technical Editor: Lincoln Cardoso Brandao.
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Debnath, T., Patowari, P.K. Concept development for fabricating threaded micro-pin using wire-EDM. J Braz. Soc. Mech. Sci. Eng. 41, 402 (2019). https://doi.org/10.1007/s40430-019-1916-3
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s40430-019-1916-3