Spectroscopic Characterization of Some Foil Alloys Based on Nickel

Zeynep Aygun

doi:10.34088/kojose.535175

Araştırma Makalesi

Yıl 2019, Cilt: 2 Sayı: 2, 39 - 44, 30.11.2019

Zeynep Aygun

https://doi.org/10.34088/kojose.535175

Cited By: 1

Öz

Kaynakça

Aygun Z., Aygun M., Han I., 2018. Magnetic and Structural Analysis of CuxNi12x and CuyNizMn12y2z Alloys Using EPR, XRD and SEM Methods. Iranian Journal of Science and Technology Transaction Science, 42, 951–957.
Aygun Z., 2018. Application of Spectroscopic Methods for Analysis of Ni-Based Alloys (Ni% ≥70). Cumhuriyet Science Journal, 39, 144-151.
Alım B., Ugurlu M., Han İ., Demir L., 2018. Investigation of Alloying Effects on XRF Parameters of 3D Transition Metals in Permendur49, Kovar and Ti50Co50 Alloys. Journal of Radiation Research and Applied Sciences, 11, 144-149.
Han I., Demir L., 2009. Valence-electron Configuration of Fe, Cr, and Ni in Binary and Ternary Alloys from K-to-K X-ray Intensity Ratios. Physical Review A, 80, 1-6.
Symmons M. C. R., Peterson R. L., 1978. Electron Capture by Oxyhemoglobin: An ESR Study. Proceedings of the Royal Society B, 201, 285-300.
Reddy A. J., Kokila M. K., Nagabhushana H., Chakradhar R. P. S., Shivakumara C., Rao J. L., Nagabhushana B. M., 2011. Structural, Optical and EPR Studies on ZnO:Cu Nanopowders Prepared via Low Temperature Solution Combustion Synthesis. Journal of Alloys and Compounds, 509, 5349–5355.
Prakash C., Husain S., Singh R. J., Mollah S., 2001. Electron Paramagnetic Resonance of Fe Ions in BiO –PbO–Fe O 23 23 glasses. Journal of Alloys and Compounds, 326,47–49.
Ikeya M., 1993. New Applications of ESR Dating Dosimetry Microscopy; eds: Zimmerman M. R., Whitehead N., Singapore.
Delineau T., Allard T., Muller J. P., Barges D., Yvon J., Cases J. M., 1994. FTIR Reflectance vs. EPR Studies of Structural Iron in Kaolinites. Clays and Clay Mineralogy, 3, 308-320.
Ledoux F., Zhilinskaya E. A., Courcot D., Aboukais A., Puskaric E., 2004. EPR Investigation of Iron in Size Segregated Atmospheric Aerosols Collected at Dunkerque, Northern France. Atmospheric Environment, 38, 1201–1210.
Davis L. C., Henzl M. T., Burris R. H., Orme-Johnson W. H., 1979. Iron-Sulfur Clusters in the Molybdenum-Iron Protein Component of Nitrogenase. Electron Paramagnetic Resonance of the Carbon Monoxide Inhibited State. Biochemistry, 1, 4860-4869.
Kumar P., Lee H. N., Kumar R., 2014. Synthesis of Phase Pure Iron Oxide Polymorphs Thin Films and Their Enhanced Magnetic Properties. Journal of Materials Science: Materials in Electronics, 25, 4553–4561.
Carter E. A., Hargreaves M. D., Kononenko N., Howell G. I., Edwards G. M., Swarbrick B., Torrence R., 2009. Raman Spectroscopy Applied to Understanding Prehistoric Obsidian Trade, in the Pacific Region. Vibrational Spectroscopy, 50, 116-124.
Hanesch M., 2009. Raman Spectroscopy of Iron Oxides and (oxy)Hydroxides at Low Laser Power and Possible Applications in Environmental Magnetic Studies. Geophysical Journal International, 177, 941-948.
Wang L., Lu X., Han C., Lu R., Yang S., Song X., 2014. Electrospun Hollow Cage-like α-Fe2O3 Microspheres: Synthesis, Formation Mechanism, and Morphology-preserved Conversion to Fe. Nanostructures. Crystal Engineering Communications, 16, 10618–10623.
Neale A. R., Jin Y., Ouyang J., Hughes S., Hesp D., Dhanak V., Dearden G., Edwardson S., Hardwick L. J., 2014. Electrochemical Performance of Laser Micro-structured Nickel Oxyhydroxide Cathodes. Journal of Power Sources, 271, 42-47.
Yoon H., Xu A., Sterbinsky G. E., Arena D. A., Wang Z., Stephens P. W., Meng Y. S., Carroll K. J., 2015. In Situ Non-aqueous Nucleation and Growth of Next Generation Rare-earth-free Permanent Magnets. Physical Chemistry Chemical Physics, 17, 1070-1076.
Namduri H., Nasrazadani S., 2008. Quantitative Analysis of Iron Oxides Using Fourier Transform Infrared Spectrophotometry. Corrosion Science, 50, 2493–2497.

Spectroscopic Characterization of Some Foil Alloys Based on Nickel

Yıl 2019, Cilt: 2 Sayı: 2, 39 - 44, 30.11.2019

Zeynep Aygun

https://doi.org/10.34088/kojose.535175

Cited By: 1

Öz

In this research, we carried out some structural and magnetic analyses of foil alloys in the form of NixCr1-x (x=0.8); NixCuyFez (x=0.65, y=0.33, z=0.02); NixFeyCuzMot (x=0.77, y=0.14, z=0.05, t=0.04); NixCryCoz(MoTiAlFe)t (x=0.58, y=0.19, z=0.14, t=0.09) and NixCoyCrzFet(NMoMn)w (x=0.13, y=0.425, z=0.20, t=0.20, w=0.045). In order to have knowledge about the magnetic properties, we use electron paramagnetic resonance spectroscopy which is effective to see the paramagnetism in the structure. For structural analyses, several techniques were studied. Fouirer transform infrared spectrophotometer was performed to understand the functional groups in the structures. Raman experiment was applied for determination of molecular contents and minerology of the samples. Energy dispersive spectrosopy was used to learn the elemental compositions of the foils. The surface morphologies were seen by scanning electron microscopy. The obtained magnetic, structural and elemental results of the nickel based foil alloys are discussed in detail.

Anahtar Kelimeler

Foil Alloy, Nickel-based, Sprectroscopic Analysis, Structural Study

Kaynakça

Aygun Z., Aygun M., Han I., 2018. Magnetic and Structural Analysis of CuxNi12x and CuyNizMn12y2z Alloys Using EPR, XRD and SEM Methods. Iranian Journal of Science and Technology Transaction Science, 42, 951–957.
Aygun Z., 2018. Application of Spectroscopic Methods for Analysis of Ni-Based Alloys (Ni% ≥70). Cumhuriyet Science Journal, 39, 144-151.
Alım B., Ugurlu M., Han İ., Demir L., 2018. Investigation of Alloying Effects on XRF Parameters of 3D Transition Metals in Permendur49, Kovar and Ti50Co50 Alloys. Journal of Radiation Research and Applied Sciences, 11, 144-149.
Han I., Demir L., 2009. Valence-electron Configuration of Fe, Cr, and Ni in Binary and Ternary Alloys from K-to-K X-ray Intensity Ratios. Physical Review A, 80, 1-6.
Symmons M. C. R., Peterson R. L., 1978. Electron Capture by Oxyhemoglobin: An ESR Study. Proceedings of the Royal Society B, 201, 285-300.
Reddy A. J., Kokila M. K., Nagabhushana H., Chakradhar R. P. S., Shivakumara C., Rao J. L., Nagabhushana B. M., 2011. Structural, Optical and EPR Studies on ZnO:Cu Nanopowders Prepared via Low Temperature Solution Combustion Synthesis. Journal of Alloys and Compounds, 509, 5349–5355.
Prakash C., Husain S., Singh R. J., Mollah S., 2001. Electron Paramagnetic Resonance of Fe Ions in BiO –PbO–Fe O 23 23 glasses. Journal of Alloys and Compounds, 326,47–49.
Ikeya M., 1993. New Applications of ESR Dating Dosimetry Microscopy; eds: Zimmerman M. R., Whitehead N., Singapore.
Delineau T., Allard T., Muller J. P., Barges D., Yvon J., Cases J. M., 1994. FTIR Reflectance vs. EPR Studies of Structural Iron in Kaolinites. Clays and Clay Mineralogy, 3, 308-320.
Ledoux F., Zhilinskaya E. A., Courcot D., Aboukais A., Puskaric E., 2004. EPR Investigation of Iron in Size Segregated Atmospheric Aerosols Collected at Dunkerque, Northern France. Atmospheric Environment, 38, 1201–1210.
Davis L. C., Henzl M. T., Burris R. H., Orme-Johnson W. H., 1979. Iron-Sulfur Clusters in the Molybdenum-Iron Protein Component of Nitrogenase. Electron Paramagnetic Resonance of the Carbon Monoxide Inhibited State. Biochemistry, 1, 4860-4869.
Kumar P., Lee H. N., Kumar R., 2014. Synthesis of Phase Pure Iron Oxide Polymorphs Thin Films and Their Enhanced Magnetic Properties. Journal of Materials Science: Materials in Electronics, 25, 4553–4561.
Carter E. A., Hargreaves M. D., Kononenko N., Howell G. I., Edwards G. M., Swarbrick B., Torrence R., 2009. Raman Spectroscopy Applied to Understanding Prehistoric Obsidian Trade, in the Pacific Region. Vibrational Spectroscopy, 50, 116-124.
Hanesch M., 2009. Raman Spectroscopy of Iron Oxides and (oxy)Hydroxides at Low Laser Power and Possible Applications in Environmental Magnetic Studies. Geophysical Journal International, 177, 941-948.
Wang L., Lu X., Han C., Lu R., Yang S., Song X., 2014. Electrospun Hollow Cage-like α-Fe2O3 Microspheres: Synthesis, Formation Mechanism, and Morphology-preserved Conversion to Fe. Nanostructures. Crystal Engineering Communications, 16, 10618–10623.
Neale A. R., Jin Y., Ouyang J., Hughes S., Hesp D., Dhanak V., Dearden G., Edwardson S., Hardwick L. J., 2014. Electrochemical Performance of Laser Micro-structured Nickel Oxyhydroxide Cathodes. Journal of Power Sources, 271, 42-47.
Yoon H., Xu A., Sterbinsky G. E., Arena D. A., Wang Z., Stephens P. W., Meng Y. S., Carroll K. J., 2015. In Situ Non-aqueous Nucleation and Growth of Next Generation Rare-earth-free Permanent Magnets. Physical Chemistry Chemical Physics, 17, 1070-1076.
Namduri H., Nasrazadani S., 2008. Quantitative Analysis of Iron Oxides Using Fourier Transform Infrared Spectrophotometry. Corrosion Science, 50, 2493–2497.

Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Zeynep Aygun 0000-0002-2979-0283
Yayımlanma Tarihi	30 Kasım 2019
Kabul Tarihi	28 Ağustos 2019
Yayımlandığı Sayı	Yıl 2019 Cilt: 2 Sayı: 2

Kaynak Göster

APA	Aygun, Z. (2019). Spectroscopic Characterization of Some Foil Alloys Based on Nickel. Kocaeli Journal of Science and Engineering, 2(2), 39-44. https://doi.org/10.34088/kojose.535175

Cited By

Evaluation of radiation shielding potentials of Ni-based alloys, Inconel-617 and Incoloy-800HT, candidates for high temperature applications especially for nuclear reactors, by EpiXS and Phy-X/PSD codes

Kocaeli Journal of Science and Engineering

Öz

Kaynakça

Spectroscopic Characterization of Some Foil Alloys Based on Nickel

Öz

Anahtar Kelimeler

Kaynakça

Ayrıntılar

Kaynak Göster

Cited By

Evaluation of radiation shielding potentials of Ni-based alloys, Inconel-617 and Incoloy-800HT, candidates for high temperature applications especially for nuclear reactors, by EpiXS and Phy-X/PSD codes

Journal of Polytechnic

https://doi.org/10.2339/politeknik.1004657