Evaluation of Tool Life in Casting Machining- A Review
Abstract
Machining is a manufacturing process that involves removing materials using cutting tools
for getting rid of the unwanted materials from some workpiece and converting it into the
shape you desire. A large piece of stock is used for cutting the workpiece. The large stock
might be in any shape such as solid bar, flat sheet, beam or even hollow tubes. The process
can also be performed on some existing part like forging or casting. The manufacturing
process broadly classify as machining, casting, joining, mechanical working and forging. The
machining process is very common and very widely used in any manufacturing industries.
The major concern about the machining process is to identify appropriate tool material for
specific workpiece materials. This requirement is very typical when we want to select tool
material for machining of casting. The major concern in machining is surface finish and tool
wear during machining process. This review paper covers the effect of machining parameter
on tool life. To establish relationship between tool life and tool wear. So this review paper
deals with different types of tool wear in terms of tool life.
Keywords
Full Text:
PDFReferences
Collini, L., Nicoletto, G., & Konečná, R. J. M. S. (2008). Microstructure and
mechanical properties of pearlitic gray cast iron. Materials Science and Engineering:
A, 488(1-2), 529-539.
de Sousa, J. A. G., Sales, W. F., & Machado, A. R. (2018). A review on the machining
of cast irons. The International Journal of Advanced Manufacturing
Technology, 94(9), 4073-4092.
Dawson, S., & Hang, F. (2009). Compacted graphite iron-a material solution for
modern diesel engine cylinder blocks and heads. China foundry, 6(3), 241-246.
Burke, C. M., Moore, D. J., Parolini, J. R., Rundman, K. B., & Waarala, D. (1999).
Machinability of gray cast iron: a drilling study. AFS Transactions, 106, 567-575
Collini, L., Nicoletto, G., & Konečná, R. J. M. S. (2008). Microstructure and
mechanical properties of pearlitic gray cast iron. Materials Science and
Engineering: A, 488(1-2), 529-539
Dawson, S., & Schroeder, T. (2004). Practical applications for compacted graphite
iron. AFS transactions, 47(5), 1-9.
Brabazon, D. (Ed.). (2021). Encyclopedia of Materials: Composites. Elsevier.
Abdullah, A. B., & Sapuan, S. M. (Eds.). (2019). Hole-making and drilling technology
for composites: advantages, limitations and potential. Woodhead Publishing.
Turning Viktor P. Astakhov, General Motors Business Unit of PSMi, USA
Oraby, S. E., & Hayhurst, D. R. (2004). Tool life determination based on the
measurement of wear and tool force ratio variation. International Journal of
Machine Tools and Manufacture, 44(12-13), 1261-1269.
Kumar, M. P., Ramakrishna, N., Amarnath, K., Kumar, M. S., Kumar, M. P., &
Ramakrishna, N. (2015). Study on tool life and its failure mechanisms. Int J, 2, 126-
Kanta Das, D., Mishra, P. C., Singh, S., & Thakur, R. K. (2015). Tool wear in turning
ceramic reinforced aluminum matrix composites—A review. Journal of Composite
Materials, 49(24), 2949-2961.
Liang, S. Y., Hecker, R. L., & Landers, R. G. (2004). Machining process monitoring
and control: the state-of-the-art. J. Manuf. Sci. Eng., 126(2), 297-310
Hashmi, S. (2014). Comprehensive materials processing. Newnes.
de Lacalle, L. N. L., Campa, F. J., & Lamikiz, A. (2011). Milling. In Modern
Machining Technology (pp. 213-303). Woodhead Publishing.
MacAngus-Gerrard, G. (2017). Offshore Electrical Engineering Manual. Gulf
Professional Publishing.
Singhal, P., & Saxena, K. K. (2020). Effect of silicon addition on microstructure and
mechanical properties of grey cast Iron: An overview. Materials Today:
Proceedings, 26, 1393-1401.
Zhukov, A. A., Shalashov, V. A., Osmantsev, A. G., & Karaseva, V. A. (1975). High-
sulfur cast iron with high strength. Metal Science and Heat Treatment, 17(5), 404-408.
ELSawy, E. E. T., El-Hebeary, M. R., & El Mahallawi, I. S. E. (2017). Effect of
manganese, silicon and chromium additions on microstructure and wear characteristics
of grey cast iron for sugar industries applications. Wear, 390, 113-124.
Refbacks
- There are currently no refbacks.