Effects of forming temperature and sintering rate to the final properties of FeCuAl powder compacts formed through uniaxial die compaction process
This paper presents the outcomes of an experimental investigation on the effects of forming temperature and sintering schedule to the final characteristics of FeCuAl powder mass formed at different temperature and sintered at different schedule. A lab-scale uni-axial die compaction rig was design...
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| Main Authors: | , , , |
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| Format: | Conference or Workshop Item |
| Language: | English English English |
| Published: |
Institute of Physics Publishing
2018
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| Subjects: | |
| Online Access: | http://irep.iium.edu.my/62780/1/62780_Effects%20of%20Forming%20Temperature%20and%20Sintering.pdf http://irep.iium.edu.my/62780/2/62780_Effects%20of%20Forming%20Temperature%20and%20Sintering_SCOPUS.pdf http://irep.iium.edu.my/62780/13/62780_Effects%20of%20forming%20temperature%20and%20sintering%20rate%20to%20the%20final%20properties%20of%20FeCuAl%20powder%20compacts_WoS.pdf http://irep.iium.edu.my/62780/ http://iopscience.iop.org/article/10.1088/1757-899X/290/1/012007 |
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| Summary: | This paper presents the outcomes of an experimental investigation on the effects of
forming temperature and sintering schedule to the final characteristics of FeCuAl powder mass
formed at different temperature and sintered at different schedule. A lab-scale uni-axial die
compaction rig was designed and fabricated which enabled the compaction of powder mass at
room temperature as well as elevated temperature. Iron (Fe) powder ASC 100.29 was
mechanically mixed with other elemental powders, namely copper (Cu), and aluminum (Al)
for 60 minutes and compacted at three different temperature, i.e., 30°C, 150°C, and 200°C by
applying 425 MPa of simultaneous downward and upward axial loading to generate green
compacts. The as-pressed samples were inspected visually and the defect-free green compacts
were subsequently sintered in an argon gas fired furnace at 800°C for 60 min at three different
heating/cooling rates, i.e., 5, 10, and 15°C/min, respectively. The sintered samples were then
characterised for their physical, electrical, and mechanical properties. The microstructures of
the sintered samples were also analysed. The results revealed that a forming temperature of
150°C and a sintering rate of 10°C/min could produce a product with better characteristics. |
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