Measurements of Surface Roughness in Ultrasonic Assisted Grinding of Ceramic Materials

Roman Wdowik; Marek Magdziak; Janusz Porzycki

doi:10.4028/www.scientific.net/AMM.627.191

Paper Titles

Coordinate Measurements of Geometrically Complex Ceramic Parts
p.172

Analysis of Mechanical Error’s Effect on the Measurement Accuracy of the Six-Axis Force Sensor
p.177

Sun Intensity and Angle on Efficiency of Solar Cell System
p.182

Damage Observation of Glass Fiber/Epoxy Composites Using Thermography and Supported by Acoustic Emission
p.187

Measurements of Surface Roughness in Ultrasonic Assisted Grinding of Ceramic Materials
p.191

Study on the Young’s Modulus of Red Blood Cells Using Atomic Force Microscope
p.197

Characteristic Analysis on Transverse Comb Structure Using PSpice
p.202

Reliability Analysis of Plug Door System Based on Dynamic Fault Tree
p.207

A Compact Low Cost Wearable Sensor System for Quantitative Gait Measurement
p.212

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 627Measurements of Surface Roughness in Ultrasonic...

Measurements of Surface Roughness in Ultrasonic Assisted Grinding of Ceramic Materials

Abstract:

The paper presents the results of investigations regarding surface roughness measurements in ultrasonic assisted grinding of selected ZrO₂based ceramic material. There are different results, in the area of surface roughness measurements, presented in the literature. The entry data of hybrid machining process (e.g. grinding wheel type, feed, machining strategy or process variant) may influence these results. The analysis of literature encourages to take up the investigations of surface quality in ultrasonic assisted machining. These investigations may be performed for specific ceramic products and technological tasks which are commonly applied in ceramic machining processes. The knowledge about the machining of ceramic materials in different sintering states is very limited. Based on this finding, ultrasonic assisted and conventional machining processes of ZrO₂ based ceramic material in different sintering states were investigated.

You might also be interested in these eBooks

Advanced Development in Industry and Applied Mechanics

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 627)

Pages:

191-196

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.627.191

Citation:

Cite this paper

Online since:

September 2014

Authors:

Roman Wdowik, Marek Magdziak, Janusz Porzycki

Keywords:

Ceramic Material, Hybrid Machining, Surface Roughness (SR), Ultrasonic Assisted Grinding (UAG)

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] G. Spur, E. Uhlmann, S. -E. Holl, N. -A. Daus: Ultrasonic Machining of Ceramics. in: Handbook of Advanced Ceramics Machining (ed. Ioan D. Marinescu), CRC Press Taylor & Francis Group, Boca Raton, 2007, 327-353.

DOI: 10.1201/9781420005547.ch17

Google Scholar

[2] I. D. Marinescu, M. Hitchiner, E. Uhlmann, W.B. Rowe, I. Inasaki: Handbook of Machining with Grinding Wheels. CRC Press Taylor & Francis Group, Boca Raton, 2007, 549-562.

DOI: 10.1201/b19462

Google Scholar

[3] R. Wdowik, J. Porzycki, P. Nazarko, J. Świder: Microscopic estimation of parameters of grinding wheel axial ultrasonic oscillations [in Polish]. Mechanik, 8/9, 2013, CD: 417-23.

Google Scholar

[4] Ultrasonic Assisted Grinding of brittle hard materials. Final Technical Report, CORNET Project, Austria, April 28th 2010, 1-75.

Google Scholar

[5] B. Lauwers, F. Bleicher, P. Ten Haaf, M. Vanparys, J. Bernreiter, T. Jacobs, J. Loenders: Investigation of the Process-Material Interaction in Ultrasonic Assisted Grinding of ZrO2 based Ceramic Materials. Proceedings of the 4th CIRP International Conference on High Performance Cutting, (2010).

Google Scholar

[6] Kyung-Hee Park, Yun-Hyuck Hong, Kyeong-Tae Kim, Seok-Woo Lee, Hon-Zong Choi, Young-Jae Choi: Understanding of Ultrasonic Assisted Machining with Diamond Grinding Tool. Modern Mechanical Engineering, 4, 2014, 1-7.

DOI: 10.4236/mme.2014.41001

Google Scholar

[7] B. Denkena, H. -W. Hoffmeister, M. Reichstein, S. Hlenseer, M. Hlavae: Micro-machining processes for microsystem technology. Microsyst. Technol, 12, 2006, 659-664.

DOI: 10.1007/s00542-006-0089-z

Google Scholar

[8] Na Qin: Modeling and experimental investigation on ultrasonic-vibration-assisted grinding. Doctoral dissertation, Kansas State University, Manhattan, Kansas, (2011).

Google Scholar

[9] J. Akbari, H. Borzoie, M. H. Mamduhi: Study on Ultrasonic Vibration Effects on Grinding Process of Alumina Ceramic (Al2O3). World Academy of Science, Engineering and Technology, 41, 2008, 785-789.

Google Scholar

[10] G. F. Gao, B. Zhao, D. H. Xiang, Q. H. Kong: Research on the surface characteristics in ultrasonic grinding nano-zirconia ceramics. Journal of Materials Processing Technology, 209, 2009, 32-37.

DOI: 10.1016/j.jmatprotec.2008.01.061

Google Scholar