硅酸盐玻璃断裂过程中的内摩擦与能量耗散。

IF 3.1 2区化学 Q3 CHEMISTRY, PHYSICAL

Journal of Chemical Physics Pub Date : 2025-05-21 DOI:10.1063/5.0255432

Tina Waurischk, Joachim Deubener, Ralf Müller

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引用次数: 0

摘要

为了更深入地了解断裂过程中能量耗散的本质，使用动态机械热分析方法测量了已知惰性裂纹扩展数据的13种硼硅酸盐、铝硅酸盐、钠石灰和含铅玻璃的内摩擦。对于非对称弯曲玻璃梁，在273 K和玻璃化转变温度Tg之间的0.2 ~ 50 Hz范围内测定了损耗正切tan δ。在裂纹扩展速度v与应力强度KI的经验v = v0·KIn关系中，tan δ vs T·Tg-1曲线下的面积与裂纹扩展指数n相关，表明n与亚tg弛豫现象的能量耗散程度有关。

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Internal friction and energy dissipation during fracture in silicate glasses.

To obtain a deeper insight into the nature of energy dissipation during fracture, the internal friction of 13 borosilicate, aluminosilicate, soda-lime, and lead-containing glasses, for which inert crack growth data are known, was measured using dynamic mechanical thermal analysis. For asymmetrically bent glass beams, the loss tangent, tan δ, was determined between 0.2 and 50 Hz at temperatures between 273 K and the glass transition temperature, Tg. It was found that the area under the tan δ vs T·Tg-1 curve correlates with the crack growth exponent, n, in the empirical v = v0·KIn relation between crack growth velocity, v, and stress intensity, KI, which indicates that n correlates with the degree of energy dissipation of sub-Tg relaxation phenomena.

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来源期刊

Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

7.40

自引率

15.90%

发文量

1615

审稿时长

2 months

期刊介绍： The Journal of Chemical Physics publishes quantitative and rigorous science of long-lasting value in methods and applications of chemical physics. The Journal also publishes brief Communications of significant new findings, Perspectives on the latest advances in the field, and Special Topic issues. The Journal focuses on innovative research in experimental and theoretical areas of chemical physics, including spectroscopy, dynamics, kinetics, statistical mechanics, and quantum mechanics. In addition, topical areas such as polymers, soft matter, materials, surfaces/interfaces, and systems of biological relevance are of increasing importance. Topical coverage includes: Theoretical Methods and Algorithms Advanced Experimental Techniques Atoms, Molecules, and Clusters Liquids, Glasses, and Crystals Surfaces, Interfaces, and Materials Polymers and Soft Matter Biological Molecules and Networks.