Journal of Applied Physics, volume 113, issue 14, pages 143509

Studying exothermic reactions in the Ni-Al system at rapid heating rates using a nanocalorimeter

P. SWAMINATHAN ^{1, 2}

M. D. Grapes ¹

K Woll ¹

S C Barron ^{1, 2}

D A Lavan ²

T. P. Weihs ¹

Hide authors affiliations

Johns Hopkins University 1 Department of Materials Science and Engineering, , Baltimore, Maryland 21218, USA |

Functional Properties Group, Materials Measurement Science Division, Material Measurement Laboratory, National Institute of Standards and Technology 2 , Gaithersburg, Maryland 20899, USA |

Publication type: Journal Article

Publication date: 2013-04-10

AIP Publishing

Journal: Journal of Applied Physics

scimago Q2

SJR: 0.649

CiteScore: 5.4

Impact factor: 2.7

ISSN: 00218979, 10897550

DOI: 10.1063/1.4799628

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General Physics and Astronomy

Abstract

Heats of reaction and heat capacity changes were measured using scanning nanocalorimetry for a nickel and aluminum bilayer where initial heating rates of 104 K/s were achieved. Multiple exotherms were observed on the initial heating, but the number of intermediate exotherms decreased with increasing heating rate. The final phase was the B2 NiAl intermetallic. Results from the nanocalorimeter were compared with a conventional differential scanning calorimeter (operating at 0.7 K/s) to understand the effect of significant (10 000×) increases in heating rate on the phase transformation sequence. The high heating rate in the nanocalorimeter delays reaction initiation, causes the exothermic peaks to shift to higher temperatures, and appears to suppress the formation of intermediate, metastable phases. Potential explanations for this apparent suppression are discussed.

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Publisher

AIP Publishing

Journal

Journal of Applied Physics

scimago Q2

SJR

0.649

CiteScore

5.4

Impact factor

2.7

ISSN

00218979 (Print)

10897550 (Electronic)

Studying exothermic reactions in the Ni-Al system at rapid heating rates using a nanocalorimeter

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