Relationship of the interaction load capacity of anchors on their number and anchoring system

Q3 Materials Science Archives of materials science and engineering Pub Date : 2021-12-01 DOI:10.5604/01.3001.0015.6286

A. Baryłka, D. Tomaszewicz

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Abstract

Purpose: The article presents the possibilities of using anchoring systems in the walls of three-layer large slab panel buildings. The use of diagonal anchors allows to increase the effective anchorage depth, which significantly increases the durability of the façade textured layer. Design/methodology/approach: Pilot tests have confirmed the necessity to use an anchor system in various configurations. Findings: The documents used included the conclusions of the pilot tests on the real object and the main experimental tests carried out on concrete samples. Research limitations/implications: The design of new anchorage systems and the proposed theoretical models for estimating their theoretical load capacity are based on the Guidelines contained in the European Technical Approvals. Practical implications: Single bonded anchorages used in engineering practice require evaluation in order to increase the durability of larger areas of the façade textured layer. Originality/value: The possibility of differentiating system anchors makes it possible to use them in very thin structural layers (diagonal anchors).

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锚的相互作用承载能力与其数量和锚固系统的关系

目的：本文介绍了在三层大型板式建筑的墙体中使用锚固系统的可能性。斜锚的使用可以增加有效锚固深度，从而显著提高立面纹理层的耐久性。设计/方法/方法：试点测试已确认在各种配置中使用锚固系统的必要性。调查结果：使用的文件包括实物试点试验的结论和混凝土样品的主要实验试验。研究局限性/影响：新锚固系统的设计和估计其理论承载能力的拟议理论模型基于欧洲技术批准中包含的指南。实际影响：工程实践中使用的单粘结锚固需要进行评估，以提高更大面积立面的耐久性纹理层。独创性/价值：区分系统锚的可能性使其可以在非常薄的结构层（对角锚）中使用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Archives of materials science and engineering Materials Science-Materials Science (all)

CiteScore

2.90

自引率

0.00%

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