Sharma Paswan scite author profile

A study on nonisothermal and cyclic oxidation behavior of the reaction-hot-pressed 76Mo-14Si-10B, 77Mo-12Si- alloys has been carried out in dry air, and the results have been compared with those of isothermal tests. Nonisothermal studies by thermogravimetric (TG) analysis up to 1300°C have shown a transient mass gain between 700°C and 860°C, followed by a sharp mass loss with increased temperature, with the amount of mass change dependent on the heating rate (5°C/min to 35°C/min). The X-ray diffraction (XRD) and scanning electron microscopy (SEM) studies of oxide scales formed on the alloys held at 790°C and 820°C for 10 or 20 minutes suggest that the oxidation of a-Mo and Mo 3 Si precedes that of Mo 5 SiB 2 . Thermal cyclic tests involving exposure at 1150°C for 1 hour, followed by either air cooling to room temperature (RT) or furnace cooling to 700°C, 800°C, or 900°C, and the subsequent examination of oxidation products, have confirmed that the formation of B 2 O 3 -SiO 2 scale provides complete and partial protection for the Mo-Si-B and Mo-Si-B-Al alloys, respectively. The results of this study show that oxidation resistance is deteriorated upon Al addition. Residual stress measured by XRD is found to be largely compressive in Mo and in mullite phases of oxide scales. Thermal shock and the mismatch in the coefficients of thermal expansion (CTEs) between the constituent phases of the oxide scale appear to be the main causes of damage.

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Role of environmental particulate matters on corrosion of copper

Saha

Pandya²,

Singh

et al. 2016

Atmospheric Pollution Research

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Sharma Paswan

Oxidation behaviour of the Mo–Si–B and Mo–Si–B–Al alloys in the temperature range of 700–1300°C

Isothermal oxidation behaviour of Mo–Si–B and Mo–Si–B–Al alloys in the temperature range of 400–800°C

Alumina-titanium diboride in situ composite by self-propagating high-temperature synthesis (SHS) dynamic compaction: Effect of compaction pressure during synthesis

Nonisothermal and Cyclic Oxidation Behavior of Mo-Si-B and Mo-Si-B-Al Alloys

Role of environmental particulate matters on corrosion of copper

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