Tuning Thermal Expansion From Strong Negative to Zero to Positive in Cu 2-xZn xP 2O 7 Solid Solutions

Chemical Engineering (Engineering) eJournal Pub Date : 2021-01-01 DOI:10.2139/ssrn.3854490
Naike Shi, A. Sanson, Alessandro Venier, Longlong Fan, Yang Ren, Danilo Oliveira de Souza, L. Olivi, Yuzhu Song, X. Xing, Jun Chen
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引用次数: 1

Abstract

Chemical substitution is an effective method to control the thermal expansion properties in solid solutions. In this work, a series of solid solutions Cu2-xZnxP2O7(0 ≤ x ≤ 2) were synthesized by solid state methods. The thermal expansion in Cu2-xZnxP2O7 is tuned from strong negative thermal expansion (αv ~ -33.5×10-6 K-1, 100 - 375K) to near zero thermal expansion (αv ~ -2.78×10-6 K-1, 100 - 225K), and then to positive thermal expansion gradually with increasing content of Zn2+ substitution. The direct experiment results reveal that the Zn2+ substitution diminishes the rigidity of Cu/Zn-O and P-O bonds and the transverse vibrations of O atoms arousing negative thermal expansion. The present work realizes the control of thermal expansion from negative to near zero, and then to positive in the Cu2P2O7 system.
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在cu2 - xzn xP 2O - 7固溶体中调整热膨胀从强负到零到正
化学取代是控制固溶体热膨胀性能的有效方法。本文采用固相法合成了一系列Cu2-xZnxP2O7(0≤x≤2)固溶体。随着Zn2+取代物含量的增加,Cu2-xZnxP2O7中的热膨胀由强烈的负热膨胀(αv ~ -33.5×10-6 k - 1,100 - 375K)转变为接近零的热膨胀(αv ~ -2.78×10-6 k - 1,100 - 225K),然后逐渐转变为正热膨胀。直接实验结果表明,Zn2+取代降低了Cu/Zn-O和P-O键的刚性,并引起O原子的横向振动引起负热膨胀。本工作实现了在Cu2P2O7体系中由负到近零再到正的热膨胀控制。
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Chemical Engineering (Engineering) eJournal
Chemical Engineering (Engineering) eJournal
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