Annual Review of Materials Research, volume 52, issue 1, pages 219-248

Exothermic Formation Reactions as Local Heat Sources

Shane Q Arlington 1, 2
Gregory M Fritz 2
Timothy P. Weihs 1
1
 
2
 
Microsystems and Advanced Materials Division, The Charles Stark Draper Laboratory, Inc., Cambridge, Massachusetts, USA;
Publication typeJournal Article
Publication date2022-07-01
scimago Q1
SJR3.040
CiteScore17.7
Impact factor10.6
ISSN15317331, 15454118
General Materials Science
Abstract

This review focuses on the properties of reactive materials (RMs) that enable exothermic formation reactions and their application as local heat sources. We examine how the heat produced by these formation reactions can enable a range of useful functions including bonding, sealing, ignition, signaling, and built-in degradation. We begin by describing the chemistries, geometries, microstructures, and fabrication of RMs. We then explore the magnitude and measurement of their stored chemical energies and the rates and mechanisms by which the stored energy can be released to generate useful heat. The majority of the review focuses on how the released heat can be modeled and used to perform a range of functions.

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