Abstract
This study evaluated the structural effects of applying fiber-reinforced polymer (FRP) wraps around their trunks to support old trees of national importance. High wind loads such as windstorms or hurricanes represent a major threat to tall trees, and researchers have assessed the structural behaviors of trees under wind loads using both analytical and experimental approaches. As yet, however, there is no widely accepted method to safely reinforce the structural stability of nationally and historically important tall trees subject to severe wind loads. Traditional reinforcing methodologies can actually damage supported areas as the supports are relatively stiff compared to the main trunk, introducing stressful interactions. FRP materials have high tensile strength, durability, and flexibility; hence, wrapping them around the surface of the tree trunk could enhance the overall stability of a tall tree subjected to high winds without sacrificing the tree’s visual aesthetics or damaging the bark. This study applied nonlinear finite element (FE) analyses to evaluate the complex structural behaviors of the wood and FRP wraps, both of which are anisotropic materials. The results revealed that FRP wraps offer a highly effective way to enhance the structural stability of tall trees with minimal cost.
Highlights
Tall old trees are reinforced or supported using anchors, wires, hoses, or wooden stakes
The objective of this study was to analyze the structural effects of using fiber-reinforced polymer (FRP) wraps around the trunk of a carefully preserved old and large tree of national importance that is subjected to high wind loads, taking into account the anisotropic material properties of both the wood and the FRP wrap material using finite element (FE) models specially developed for this project
As tree failure is largely governed by the bending curvatures of the stem, it is essential to accurately evaluate the curvature if we are to develop a good understanding of the structural behaviors of trees under high wind loads
Summary
Tall old trees are reinforced or supported using anchors, wires, hoses, or wooden stakes. These conventional methods often degrade the stability of the main trunk of a tree subjected to severe wind loads because the supporting or reinforcing structures (Figure 1) are usually stiffer than the main trunk. Conditions that lead to branches being broken or trees uprooted can be assessed using pulling or winching tests without incurring invasive damage [7,8,9]; Chiba [10] proposed a useful simulation model that addresses the effect of a tree’s shape on potential stem breakage. A dynamic analysis overcomes the limitations of a static analysis, which is important as the dynamic interaction between a tree’s stem and its branches has a significant impact on the dynamic response of the tree under wind loads [11]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
