Reactive Shell Model for Boron Oxidation
Document Type
Article
Publication Date
5-9-2019
Abstract
An approach suitable for quantitative description of oxidation of porous powders with a complex particle morphology is developed and applied for a 95% pure boron powder. It is shown that boron particles, which are agglomerates of nanosized, partially fused primary particles, can be represented as spheres with reactive porous shells and impenetrable cores. The oxidation of such powders is assumed to occur volumetrically within the reactive shells. The shell thickness is obtained from simple experiments with the actual powders. To determine the thickness, thermo-gravimetric measurements are performed and processed for powders with different but overlapping particle size distributions. The processing uses measured powder particle size distributions to assign fractions of the powder mass gain to individual particle size bins. Selection of the appropriate initial reactive shell thickness makes it possible to ensure that particles of the same size present in samples with different size distributions oxidize in the same way. The specific powder studied here was successfully described with a reactive shell thickness of about 1.28 μm. Surface area measurements can be used to interpret the reactive shell as comprising packed spherical primary particles. For the powder used here, the radius of such primary particles is 80 nm. The proposed reactive shell model is shown to be valid as long as the thickness of boron oxide grown on the primary particles does not exceed 15 nm. The approach is useful for describing reactions leading to ignition of porous powders and of powders consisting of irregular aggregates in particular. It is also expected to be applicable to describe corrosion, catalyst aging, and other phenomena involving surface reactions for such powders.
Identifier
85065624976 (Scopus)
Publication Title
Journal of Physical Chemistry C
External Full Text Location
https://doi.org/10.1021/acs.jpcc.9b03363
e-ISSN
19327455
ISSN
19327447
First Page
11807
Last Page
11813
Issue
18
Volume
123
Grant
B17004
Fund Ref
Office of Naval Research
Recommended Citation
Sun, Yalun; Chintersingh, Kerri Lee; Schoenitz, Mirko; and Dreizin, Edward L., "Reactive Shell Model for Boron Oxidation" (2019). Faculty Publications. 7601.
https://digitalcommons.njit.edu/fac_pubs/7601
