Abstract
The article deals by design, programming production, measuring and evaluation of the longitudinal roughness of the contact surface of the thin-walled cooler for the robot control system. The dimensional design was made on the basis of the output of the power supply. A software model Autodesk Inventor 2019 was used to model the 3D model of the heat sink and generate the NC code for the program needed for its production. The milling and drilling was done on a Pinacacle 2100 Vertical CNC Machining Center with Fanuc Control System. The surface roughness was measured using a Mitutoyo SJ 400 whereby was measured with a maximum value of Ra = 0,69 µm and Rz = 4,1 µm.
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References
Mudawar I (2001) Assessment of high-heat-flux thermal management schemes. IEEE Trans Compon Packag Tech 24(2):122–141
Michalik P et al (2014) Monitoring surface roughness of thin-walled components from steel C45 machining down and up milling. Measurement 58:416–428
Straka L et al (2016) Properties evaluation of thin microhardened surface layer of tool steel after wire EDM. Metals, 95–103
Meshreki M (2009) Dynamics of Thin-Walled Aerospace Structures for Fixture Design in Multi-axis Milling (2009)
Kuram E et al (2013) Multi-objective optimization using Taguchi based grey relational analysis for micro-milling of Al 7075 material with ball nose end mill. Measurement 46:1849–1864
Miko E et al (2012) Analysis and verification of surface roughness constitution model after machining process. Procedia Eng 39:395–404
Duplak J et al Evaluation of T-vc dependence for the most commonly used cutting tools. Key Eng Mater 663:278–285
Fedorko G et al (2011) The influence of Ni and Cr-content on mechanical properties of Hadfield’s steel. In: Met., Tanger Ostrava, pp 1–6
Fedorko G et al (2014) Failure analysis of irreversible changes in the construction of rubber–textile conveyor belt damaged by sharp-edge material impact. Eng Fail Anal 39
Lehocka D et al (2017) Comparison of the influence of acoustically enhanced pulsating water jet on selected surface integrity characteristics of CW004A copper and CW614 N brass. Measurement 110:230–238
Baron P et al (2016) Research and application of methods of technical diagnostics for the verification of the design node. Measurement 94:245–253
Fabian M et al (2014) Influence of the CAM parameters and selection of end-mill cutter when assessing the resultant surface quality in 3D milling. Appl Mech Mater 474:267–272
Michalik P et al (2013) Programming CNC machines using computer-aided manufacturing software. Adv Sci Lett 19:369–373
Kral J et al (2008) Creation of 3D parametric surfaces in CAD systems. Acta Mech Slovaca, 223–228
Mantic M et al (2016) Influence of selected digitization methods on final accuracy of 3D model, 475–480
Michalik P et al (2011) CAM software products for creation of programs for CNC machining. Lect Notes Electr Eng 141:421–425
Peterka J et al (2013) Optical 3D scanning of cutting tools. Appl Mech Mater 421:663–667
Hutyrova Z et al (2013) Non-destructive testing of inhomogeneity of composite material. In: ICET 2013, pp 133–136
Acknowledgments
This work is a part of research project VEGA 1/0045/18, VEGA 1/0492/16, VEGA 1/0403/18
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Tirpak, P., Michalik, P., Zajac, J., Molnar, V., Knezo, D., Petruš, M. (2019). Evaluation of the Longitudinal Roughness of the Thin-Walled Cooler for the Robot Control System Made Using CAM Programming. In: Diering, M., Wieczorowski, M., Brown, C. (eds) Advances in Manufacturing II. MANUFACTURING 2019. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-18682-1_22
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DOI: https://doi.org/10.1007/978-3-030-18682-1_22
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