@article{oai:yamagata.repo.nii.ac.jp:00000885,
 author = {佐藤,  誠 and 松木,  健三 and 遠藤,  孝志},
 issue = {2},
 journal = {山形大学紀要.工学},
 month = {Feb},
 note = {論文(Article), The electrolytic manganese oxide (IV) (EMD) produced under the potentiostatic condition at various concentrations of MnSO_4 and H_2SO_4, and various temperatures of electrolytic solution have been studied by means of thermal analysis. The thermal decomposition products were identified by X-ray analysis, chemical analysis and IR spectrum.　All of these EMD obtained give a crystal structure of γ-type and a chemical composition of MnO_.　Upon heating at 600℃ in air, the thermal decomposition reaction of EMD proceeds in three stages, the first-step of 40℃ - (110℃ - 120℃), the second-step of (110℃ - 120℃) - (400℃ - 420℃) and the third-step of (400℃ - 420℃). Each of those stages depend on the desorption of adsorbed water, desorption of a part of a combined water and trace amount of oxygen in EMD, and a transition of EMD to Mn_2O_3 respcctively. At heating around 200℃ in air, (110) planeS of EMD (γ-MnO_2) already have a tendency to change slightly to (11O) planes of β-MnO_2.　The lower the bath temperature and higher the concentrat1on of MnSO4 in the electroIyte, the weight loss of the EMD become large and the transition temperature of the EMD to α-Mn_2O_3 shift to lower value.　Differential thermal analysis and IR spectra did not give any clear information about bonding status of combined water in the EMD.},
 pages = {1--11},
 title = {電解酸化マンガン(IV)の熱分解},
 volume = {15},
 year = {1979}
}