Effect of hydraulic pressure on hardness, density, tool wear and surface roughness in the fabrication of alumina based cutting tool
Cutting tools can be considered major industrial necessities as it applied mostly to machine components. Development of self-fabricated cutting tool can facilitate lower machining cost as long as the cutting tool can perform effectively. This paper presents the effect of hydraulic pressure on...
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| Main Authors: | , , , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
UNIVERSITI TEKNIKAL MELAKA
2018
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| Subjects: | |
| Online Access: | http://eprints.uthm.edu.my/7211/1/J14194_605818b1a33ebf1d76b6bb0274522699.pdf http://eprints.uthm.edu.my/7211/ |
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| Summary: | Cutting tools can be considered major industrial necessities as it
applied mostly to machine components. Development of self-fabricated cutting
tool can facilitate lower machining cost as long as the cutting tool can perform
effectively. This paper presents the effect of hydraulic pressure on density, hardness,
wear performance and surface roughness during fabrication of the alumina based
ceramic cutting tool. Specific raw of alumina powders were ball milled compacted
into green body using hydraulic press with different pressures of 6, 7, 8 and 9 tons.
These green bodies were sintered at 1700°C in 4 hours soaking time. Hardness
and density of sintered bodies were examined in order to correlate the effect of
hydraulic pressure on mechanical properties. The samples were further tested into
machining with AISI 1045 in order to evaluate their wear performances and surface
roughness. The results show that density and hardness increased as the hydraulic
pressure increased. The highest pressure of 9 tons demonstrated highest density
and hardness of 2.77 g/cm3
and 86.1 HRA respectively. The fabricated cutting tool
capable to cut the AISI 1045 steel with the minimum wear rate recorded at 0.0025
mm/s for 9 ton of pressured sample. In terms of failure modes, the cutting tool
suffered with abrasive wear and cracks at the edge of tool nose radius. Surface
roughness demonstrate minimum 1.24 µm for 7 ton of pressure, which considered
high for short time machining process. Overall, the self-fabricated cutting tool
capable to cut the steel without catastrophic failure which demonstrated promising
results to be improved in the future. |
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