Yus Prasetyo scite author profile

The investigation of Oxide Inclusions removal in aluminium scrap casting process with sodium based fluxes has been carried out. The purpose of this research is to investigate the effect of Na2SO4 and NaCl based fluxes addition onto the fluidity and microstructure of aluminium product. The alloy which is used in this investigation is Al-Si which mixed with metal scrap using gravity casting method. The variation of melting temperature in this investigation are 700°C, 740°C, and 780°C. In this research, material characterization was determined using DSC, EDAX, XRD, and fluidity test. The results show that the number of oxide inclusions decrease as the addition of 0,2% wt. flux, and completly removed after the addition of 0,4% wt. flux. The highest fluidity and tensile strength was obtained after the addition of 0,4% wt. flux. at 740°C.

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Comparative study of degassing method by using NaF-NaNO3-based tablet degasser, technical argon gas, and pure argon gas in aluminum casting

Dhaneswara¹,

Firmansyah²,

Prasetyo³

et al. 2020

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Microstructure analysis of synthesized iron substituted Ni44Fe6Mn32Al18 Heusler alloy

Notonegoro

Ferdian²,

Prasetyo

et al. 2016

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Effect of Copper Addition on Mechanical Properties of Nodular Indefinite Chilled Iron (NICI)

Prasetyo

Lee

Baek

2010

KEM

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Nodular infinite chilled iron (NICI) material with high content of nickel (~4.00%) was usually used as work roll in hot strip rolling mill. Microstructure of NICI was consists with nodular graphite and cementite with matrix phase consist of pearlite, martensite and ausferrite that depend on the alloying content. The introduction of copper was successfully increasing the hardenability of NICI by only using low nickel content (~2.50 %) with small addition of copper (0.52%). The development of NICI was done by hot shakeout of CO2 sand mold of as-cast iron and then isothermal heating in muffle furnace in temperature 300 oC in 6 hours to achieve ausferritic transformation. By achieving the martensite and ausferrite phase in as-cast condition, the sample will not need austenitizing and quenching process and the sample that will be free of quenching crack and thermal stress that usually occurred austenitizing and quenching process. It was confirmed by optical microscope and scanning electron microscope (SEM) observations that with the small addition of copper (0.52%), the amount of pearlite was very small (~1.00%), but with further addition of copper (2.02%), the amount of martensite was significantly increase the hardness until 51.56 HRC but the tensile strength was significantly dropped into 442 Mpa from previously 571 Mpa without copper addition. From hardness and tensile strength data it can be seen that the optimum content of copper is 1.45 % that have good combination of hardness (47.75 HRC) and moderate tensile strength (508 Mpa).

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Yus Prasetyo

Effect of boron addition on the microstructure and mechanical properties of 6.5% V-5% W high speed steel

Removal of Oxide Inclusions in Aluminium Scrap Casting Process with Sodium based Fluxes

Comparative study of degassing method by using NaF-NaNO3-based tablet degasser, technical argon gas, and pure argon gas in aluminum casting

Microstructure analysis of synthesized iron substituted Ni44Fe6Mn32Al18 Heusler alloy

Effect of Copper Addition on Mechanical Properties of Nodular Indefinite Chilled Iron (NICI)

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