S. Ateş Et Al. , "LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization," International Materials Technologies and Metallurgy Conference 2019 , 2019
Ateş, S. Et Al. 2019. LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization. International Materials Technologies and Metallurgy Conference 2019 .
Ateş, S., KARAAĞAÇ, Ö., KÖÇKAR, H., & GÜRMEN, S., (2019). LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization . International Materials Technologies and Metallurgy Conference 2019
Ateş, Semih Et Al. "LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization," International Materials Technologies and Metallurgy Conference 2019, 2019
Ateş, Semih Et Al. "LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization." International Materials Technologies and Metallurgy Conference 2019 , 2019
Ateş, S. Et Al. (2019) . "LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization." International Materials Technologies and Metallurgy Conference 2019 .
@conferencepaper{conferencepaper, author={Semih Ateş Et Al. }, title={LaFeSi Based Magnetocaloric Production by Hydrogen Reduction Method from Their Oxalate Powders and Production Optimization}, congress name={International Materials Technologies and Metallurgy Conference 2019}, city={}, country={}, year={2019}}