Ramzul Irham Riza scite author profile

Ramzul Irham Riza

3Publications

1Citation Statement Received

1Citation Statement Given

How they've been cited

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180

Affiliations

Muhammadiyah University of Surakarta, University of Indonesia

Publications

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Cooling Rate Observation in Quenching Process Using Carbon Nanofluids for S45C Carbon Steel

Riza

Putra²,

Harjanto³

2020

KEM

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Quenching process is the most important step in steel heat treatment as this process will determine the properties of the steel such as strength and hardness. Different cooling rate and thermal conductivity provided by the quench medium affect strongly to the mentioned steel properties. Recently, studies for nanoparticle added in the quench medium are developing rapidly. This nanoparticle added fluid is known as nanofluid and could affect the thermal property of the quench medium which ultimately changes the properties of the steel. The nanoparticle composition in nanofluid will affect its thermal property. In this research, carbon was used as the nanoparticle. The composition variations were 0.1, 0.3, and 0.5 weight percent in 100 ml distilled water. Pure distilled water was also used as a comparison control. Planetary ball-mill were utilized for 15 hours at 500 rpm to produce nanosized carbon particle. Field-Emission Scanning Microscope (FE-SEM) and Energy Dispersive X-Ray (EDX) were used to check the particle size, shape and purity of the carbon nanoparticles. These nanofluids were then used to quench S45C carbon steels samples annealed at 1000°C for 1 hour. Samples were attached with a thermocouple which connected to temperature data logger to observe the cooling rate of the quench medium. The quenched samples were be tested to get the information of hardness and metallography analysis for supporting data.

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Data on the cooling rate using nano carbon-fluid quenching medium and its effect on the hardness of S45C steel

Riza

Ilman

2023

Data in Brief

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Thermal efficiency enhancement of parabolic trough concentrators: A review

Riza¹,

Chekifi²,

Boukraa³

2023

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