Optimal Design Method and Experiment for Improved Wedge-Type Anchors of Large-Diameter Smooth CFRP Tendons

CFRP tendons with smooth surface conditions have good applicability in prestressed structures and structural reinforcement because of their high load-carrying capacity and simple production. However, they are difficult to anchor reliably. This paper developed an improved wedge-type anchor for large-...

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Bibliographic Details
Published inApplied composite materials Vol. 28; no. 6; pp. 1997 - 2019
Main Authors Zhuge, Ping, Tao, Guocheng, Jie, Zhiyu, Ding, Yong, Wang, Bing
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.12.2021
Springer Nature B.V
Subjects
Bearing strength
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Coefficient of friction
Design optimization
Design techniques
Industrial Chemistry/Chemical Engineering
Load
Load carrying capacity
Materials Science
Mechanical properties
Optimization
Performance evaluation
Polymer Sciences
Systems design
Tendons
Anchors
Wedge type
Smooth surface
CFRP
Optimal design
Tendons
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Summary:CFRP tendons with smooth surface conditions have good applicability in prestressed structures and structural reinforcement because of their high load-carrying capacity and simple production. However, they are difficult to anchor reliably. This paper developed an improved wedge-type anchor for large-diameter CFRP tendons. The mechanical behavior analysis theories of wedge-type anchors, including the load-carrying capacity evaluation model, were presented. The friction behavior of the sand-coated sleeve-tendon, which was used to evaluate the load-carrying capacity of the anchor, was experimentally investigated. The influence laws of the main wedge-type anchor parameters on the mechanical behavior of the anchor were obtained through theoretical analysis. Then, the optimal anchorage system design method was proposed, and the optimal anchor designs for smooth CFRP tendons with various diameters were presented. The anchor performance was experimentally evaluated, and the sleeve-tendon interface friction coefficient was approximately doubled after optimization, reaching 0.475. The wedge and barrel cone angles, preset load and anchor length had significant effects on the mechanical behavior of the anchor. The optimal design anchors for smooth CFRP tendons with diameters of 10 mm and 12.7 mm and spiral-wrapped CFRP tendons with diameters of 10 mm reached failure loads up to 93.8, 91.2 and 95.4% of the tensile capacity of the tendons, respectively.
ISSN:0929-189X
1573-4897
DOI:10.1007/s10443-021-09945-4