Authors: Giurgiutiu, Victor¹; Lyons, Jed¹; Petrou, Michael²; Laub, Dorothy¹; Whitley, Shannon¹

Source: Journal of Adhesion Science and Technology, Volume 15, Number 11, 2001 , pp. 1351-1371(21)

Publisher: VSP, an imprint of Brill

Abstract:

This paper presents a methodology for assessing the bond strength of composite overlays to concrete utilizing a fracture toughness test. The principles and practices of existing ASTM standards for determining the fracture toughness of adhesive bonds between double cantilever beam (DCB) metallic and composite specimens (D 3433-93 and D 5528-94a) have been extended to cover the case of an elastic composite layer bonded to a rigid concrete/masonry substrate. In the theoretical section, the dominant loading conditions, relevant ASTM standards, and the development of energy release rate concepts for analyzing a disbonding composite layer modeled as an elastic cantilever beam are presented. The experimental section covers specimen fabrication and preparation, experimental setup, test procedures, post-test evaluation of the specimens, and data processing. The discussion of test results focuses on explaining the variability in measured strain energy release rate, and identifies trends between the measured strain energy release rate and the fraction of the fracture surface retaining cement paste after disbonding. It was found that good-quality composite-to-concrete bond is associated with high fracture toughness of the adhesive and location of the crack path in the concrete substrate. Strict enforcement of surface preparation and adhesive handling procedures was found to play an important role in promoting good bond strength and high fracture toughness. The fracture toughness test developed in this paper can be used for screening various composite-repair systems, to assess the effect of different environmental attacks, and as a quality control tool.

Keywords: ADHESIVE BOND; COMPOSITE OVERLAY; COMPOSITE REPAIR; AGING INFRASTRUCTURE; DOUBLE CANTILEVER BEAM; FRACTURE TOUGHNESS; FIBER REINFORCED POLYMERS; ENERGY RELEASE RATE; DCB

Document Type: Research article

DOI: 10.1163/15685610152599386

Affiliations: 1: Department of Mechanical Engineering, University of South Carolina, 300 South Main St, Columbia, SC 29208, USA 2: Department of Civil and Environmental Engineering, University of South Carolina, 300 South Main St, Columbia, SC 29208, USA

Share this item with others: These icons link to social bookmarking sites where readers can share and discover new web pages.

• Website © 2009 Ingenta. Article copyright remains with the publisher, society or author(s) as specified within the article.
• Terms and Conditions
• Privacy Policy
• Information for advertisers

Click here for Page Help

Browse

Search

Electronic content Journal or book title

 

• Search History
  • Ti: Korean pop... (tka)
    (578 hits)
  • Ti: ischemia-r... (tka)
    (1,700 hits)
  • Ti: Lake Erie (tka)
    (235 hits)
  • Ti: Generaliza... (tka)
    (10,342 hits)
  • Ti: scenarios (tka)
    (14,944 hits)
  • Ti: American w... (tka)
    (286 hits)
  • Current search history
  • Saved searches
  • Search alerts

Shopping cart

Tools

• Print
• Article access options
• Subscribe
  • Activate Personal Subscription
• Export
  • EndNote
  • BibT_EX
• Linking
  • IngentaConnect
  • OpenURL
  • DOI
• Alerting Options
  • Receive New Issue Alert
  • Latest TOC RSS Feed
  • Recent Issues RSS Feed
• Bookmark
  • Marked List
  • Add to Marked List
  • Social Bookmarking Links
• Get Permissions

Sign in

Text size: A | A | A | A