Title:
Engineering Properties of Epoxy Resins Used as Concrete
Adhesives
Author(s):
Lin Tu and Deon Kruger
Publication:
Materials Journal
Volume:
93
Issue:
1
Appears on pages(s):
26-35
Keywords:
absorption; adhesives; bonding; creep tests; curing; joints
(junctions); pullout tests; shear tests.
DOI:
10.14359/9793
Date:
1/1/1996
Abstract:
Some mechanical properties of two commercial bulk-hardened epoxy adhe-sives were investigated to update and complement existing data on these materials. Results obtained in these tests indicated that cured epoxy adhe-sives possess five to eight times higher tensile and shear strength than port-land cement concrete and much-reduced Young’s and shear moduli. The influence of curing temperature on the mechanical strength of the material was investigated by testing the strength of epoxies after curing at temperatures of 10, 20, and 40 C. Long-term tensile creep tests of epoxy adhesives subjected to difSerent sustained stresses that were conducted indicated that bulk-hardened epoxies have creep strains of less than 0.04. Long-term water resistance of concrete-to-concrete adhesion joints was investigated by comparing bond strength after 135 days of water immersion with control samples. Tests showed that the efSect of water on adhesion joints was significant. Long-term water absorption of epoxies that was measured indicated that cured epoxies possess long-term water absorption values between 1.2 and 1.4 percent. Bond strength of hardened-to-hardened con-crete and hardened-to-wet concrete adhesion joints subjected to different curing times and temperatures were determined using a slant shear test. The bond strength of concrete-to-concrete joints made with these epoxies generally exceeded 10 MPa at 23 &2 C and the effect of curing temperature and time on bond strengths was notable. Pullout tests to determine epoxy adhesion joints between portland cement concrete and deformed steel bars were also conducted and theoretical maximum adhesive bond stress, apparent adhesive bond stress, and pullout load-deformation were calculated. Results showed that the epoxies tested possess high pullout resis-tance and the higher deformation of the adhesive layers benefits concrete-to- epoxy-to-steel adhesion.