Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.
Mostafa, M., Saleh, O., El-Shahawy, M., Ghazy, R., Hemeda, O., Abd El-Kareem, S., Dorgham, A. (2022). Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.. EKB Journal Management System, 55(4), 16-28. doi: 10.21608/ajnsa.2022.113739.1537
Maha Mostafa; Oday Saleh; Mohamed El-Shahawy; Ryad Ghazy; Osama Hemeda; Samir Abd El-Kareem; Ali Dorgham. "Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.". EKB Journal Management System, 55, 4, 2022, 16-28. doi: 10.21608/ajnsa.2022.113739.1537
Mostafa, M., Saleh, O., El-Shahawy, M., Ghazy, R., Hemeda, O., Abd El-Kareem, S., Dorgham, A. (2022). 'Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.', EKB Journal Management System, 55(4), pp. 16-28. doi: 10.21608/ajnsa.2022.113739.1537
Mostafa, M., Saleh, O., El-Shahawy, M., Ghazy, R., Hemeda, O., Abd El-Kareem, S., Dorgham, A. Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.. EKB Journal Management System, 2022; 55(4): 16-28. doi: 10.21608/ajnsa.2022.113739.1537

Effect of Methyl Cellulose "MC" on some physical properties of Nickel Magnesium Ferrite - MC nanocomposite.

Arab Journal of Nuclear Sciences and Applications
Article 2, Volume 55, Issue 4, October 2022, Page 16-28  XML PDF (1.16 MB)
Document Type: Original Article
DOI: 10.21608/ajnsa.2022.113739.1537
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Authors
Maha Mostafa email 1; Oday Saleh2; Mohamed El-Shahawy2; Ryad Ghazy2; Osama Hemeda2; Samir Abd El-Kareem3; Ali Dorgham4
1Faculty of Science - Tanta University
2Tanta University - Faculty of Science
3Medical Research Institute, Alexandria University
4Higher Institute of Engineering and Technology, Tanta, Egypt
Abstract
Ni0.6Mg0.4Fe2O4 ferrite sample was attended employing the auto combustion flash technique and is overheated for three hours at 700℃. Utilizing the casting procedure, a freestanding magnetic film was created by combining Ni0.6Mg0.4Fe2O4 nanoparticles with methyl cellulose (MC). X-ray Diffraction (XRD), transmission electron microscopy (TEM), and Fourier transition infrared spectroscopy (FTIR) are hired to depict the structural properties of the synthesized samples. All samples' surface morphology was tutored employing scanning electron microscopy (SEM).The observed crystallographic d worth concurred with those gained from XRD dissection. M-H loops were harnessed to mensuration magnetic properties like coercivity (Hc), saturation magnetization (Ms), and retentivity (Mr). At various frequencies, the temperature dependence of the initial magnetic permeability was gauged. The Ultraviolet and visible spectroscopy (UV-vis) absorption spectrum displayed that the absorption of Ni0.6Mg0.4 Fe2O4 at MC is in the UV-A region up to 270 nm. The conductivity worth of the sample 0.8 is greater than that of the other samples.
Keywords
XRD; FTIR; HRTEM; SEM; TGA; Permeability; Methyl Cellulose
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