Pre-yielding and necking process of double network hydrogels revealed by sample geometry effects

IF 4.3 3区 工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Extreme Mechanics Letters Pub Date : 2024-04-25 DOI:10.1016/j.eml.2024.102163
Masahiro Yoshida , Ryuji Kiyama , Ye Zhang , Daniel R. King , Takayuki Kurokawa , Jian Ping Gong
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Abstract

Understanding the yielding and necking mechanisms of double network (DN) materials is crucial for establishing structure-property correlations. While previous studies have primarily focused on how macro-yielding behavior changes with network structure and swelling, in this work, we study the local internal damage in the pre-yielding process to unveil the yielding and necking mechanisms for typical DN gels. Through birefringence retardation imaging during tensile deformation on DN gels of various sample geometries, our findings reveal the following key points: 1) Initiation and Growth of Damage Zones: Prior to macroscopic yielding, damage zones initiate from the sample edges and gradually grow towards the sample center with elongation. 2) Rapid Propagation and Yielding: Beyond a certain stress threshold, damage zones rapidly propagate under constant loading. Two damage zones eventually merge at the sample center, resulting in yielding. 3) Intrinsic Stress Determination: The stress at this point is intrinsic and determined by the structure of the two networks. 4) Pseudo Size-Dependency: Samples with insufficient width exhibit a pseudo size-dependency of yielding stress, as yielding occurs before reaching the critical stress. To explain the origin of intrinsic yielding stress, we introduce an intrinsic effective crack length (cI) as a measure of stress concentration around the internal crack tip of the damaged zone in the first network. Beyond this length, the influence on internal stress concentration around the damage zone is effectively screened by the load-bearing effect of the stretchable second network. The estimated cI, dependent on the microstructure of the two networks, was approximately 10 times the mesh size of the first network for typical DN gels.

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样品几何效应揭示的双网水凝胶预屈服和缩颈过程
了解双网络(DN)材料的屈服和缩颈机制对于建立结构-性能相关性至关重要。以往的研究主要关注宏观屈服行为如何随网络结构和膨胀而变化,而在这项工作中,我们研究了屈服前过程中的局部内部损伤,以揭示典型 DN 凝胶的屈服和缩颈机制。通过对不同几何形状的 DN 凝胶在拉伸变形过程中的双折射延迟成像,我们的研究结果揭示了以下要点:1) 损伤区的形成和发展:在宏观屈服之前,损伤区从样品边缘开始,随着拉伸逐渐向样品中心扩展。2) 快速扩展和屈服:超过一定的应力阈值后,损伤区会在恒定加载下快速扩展。两个损伤区最终在试样中心合并,导致屈服。3) 固有应力确定:此时的应力是固有的,由两个网络的结构决定。4) 伪尺寸依赖性:宽度不足的样品表现出屈服应力的伪尺寸依赖性,因为屈服发生在达到临界应力之前。为了解释本征屈服应力的起源,我们引入了本征有效裂纹长度(cI),作为第一个网络中受损区域内部裂纹尖端周围应力集中的度量。超过这一长度,损伤区周围的内应力集中的影响将被可拉伸的第二网络的承载效应有效屏蔽。对于典型的 DN 凝胶,估计的 cI 值取决于两个网络的微观结构,约为第一网络网格尺寸的 10 倍。
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来源期刊
Extreme Mechanics Letters
Extreme Mechanics Letters Engineering-Mechanics of Materials
CiteScore
9.20
自引率
4.30%
发文量
179
审稿时长
45 days
期刊介绍: Extreme Mechanics Letters (EML) enables rapid communication of research that highlights the role of mechanics in multi-disciplinary areas across materials science, physics, chemistry, biology, medicine and engineering. Emphasis is on the impact, depth and originality of new concepts, methods and observations at the forefront of applied sciences.
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