The Influence of Thermal Conditions on the Stability and Load-Carrying Capacity of Compressed Thin-Walled Composite Profiles
Hubert Debski, Patryk Rozylo, Michal Kuciej, Katarzyna Falkowicz, Pawel Wysmulski, Adam Tomczyk, Przemyslaw Mazurek

TL;DR
This study examines how temperature affects the strength and stability of carbon-epoxy composite structures under compression.
Contribution
The paper introduces a combined experimental and numerical method to assess temperature effects on composite structures.
Findings
Load-carrying capacity changes by up to 26.5% with temperature variations.
Sub-zero temperatures cause minor stiffness changes, while higher temperatures lead to significant stiffness reduction.
Digital image correlation and numerical modeling were used to analyze buckling behavior.
Abstract
This paper presents experimental and numerical investigations on thin-walled carbon-epoxy composite structures subjected to axial compression under varying thermal conditions. The primary objective of the study was to determine the influence of temperature on the stability, postbuckling behavior, and load-carrying capacity of the tested profiles. To achieve this, an innovative research methodology combining laboratory experiments and numerical simulations was developed, enabling a comprehensive assessment of the performance of compressed composite structures at different operating temperatures. The obtained results allowed for both qualitative and quantitative evaluation of the temperature-dependent behavior (from −20 °C to +80 °C) of thin-walled composite elements under compressive loading, offering new insights into their structural performance in thermally variable environments. The…
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Taxonomy
TopicsComposite Structure Analysis and Optimization · Cellular and Composite Structures · Mechanical Behavior of Composites
