Abstract
The test method described by Gagliano and Frazier (2001) was used for the measurement of fracture energy of wood adhesives applied in thick joints for on-site assembling or repair of timber structures.
Zusammenfassung
Die von Gagliano und Frazier (2001) beschriebene Testmethode wurde verwendet um die Bruchenergie von Klebern für Bauholz zu messen, die für breite Verbindungen zur einseitigen Verstärkung oder Restauration von Holzkonstruktionen angewendet wurden.
Similar content being viewed by others
References
ASTM D 638:1999 — Standard Test Method for Tensile Properties of Plastics
ASTM D 3433:1993 — Standard test method for fracture strength in cleavage of adhesives in bonded metal joints. Annual Book of ASTM Standards, Vol. 15.06
Davalos JF et al. (1997) Characterization of mode-I fracture of hybrid material interface bonds by contoured DCB specimens. Eng Fracture Mech 58(3):173–192
Duchanois G (1984) Mesure de la tenacité et étude du comportement mécanique des joints bois-colle. Thèse de Docteur-Ingénieur INPL-Nancy
Ebewele R et al. (1979) Tapered double cantilever beam fracture tests of phenolic-wood adhesive joints. Part 1. Development of specimen geometry, effects of bondline thickness, wood anisotropy and cure time on fracture energy. Wood and Fiber 11(3):197–213
Ebewele R et al. (1980) Tapered double cantilever beam fracture tests of phenolic-wood adhesive joints. Part 2. Effects of surface roughness, the nature of surface roughness, and surface ageing on joint fracture. Wood and Fiber 12(1):40–65
Ebewele R et al. (1982) Relationship between phenolic adhesive chemistry, cure and joint performance. Part 1. Effect of base resin constitution and hardener on fracture energy and thermal effects during cure. J Adhesion 14:189–217
Feligioni L, Lavisci P, Duchanois G, De Ciechi M, Spinelli P (2003) Influence of glue rheology and joint thickness on the strength of bonded-in rods. Holz Roh- Werkstoff (in press)
Gagliano JM, Frazier CE (2001) Improvements in the Fracture Cleavage Testing of Adhesively-Bonded Wood. Wood and Fiber Science 33(3):377–385
Lavisci P, Berti S, Pizzo B, Triboulot P, Zanuttini R (2001a) A shear test for structural adhesives used in the consolidation of old timber. Holz Roh- Werkstoff 59:145–152
Lavisci P, Berti S, Pizzo B, Triboulot P, Zanuttini R (2001b) A delamination test for structural wood adhesives used in thick joints. Holz Roh- Werkstoff 59:153–154
Lavisci P, Masson D (1992) Quality of Turkey Oak (Quercus cerris L.) wood. III. Microscopy and X-Ray spectroscopy of fractured surfaces. Holzforschung 46(2):103–107
Mijovic JS, Koutsky JA (1979) Effect of wood grain angle on fracture properties and fracture morphology of wood-epoxy joints. Wood Science 11(3):164–168
Rakestraw MD et al. (1995) Time dependent crack growth and loading rate effects on interfacial and cohesive fracture of adhesive joints. J Adhesion 55:123–149
River BH et al. (1989) Adhesive joint fracture behaviour during setting and ageing. Forest Prod J 39(11/12):23–28
River BH, Okkonen EA (1993) Contoured wood double cantilever beam specimen for adhesive joint fracture tests. J Testing and Evaluation 21(1):21–28
Scott CT et al. (1992) Fracture testing wood adhesives with composite cantilever beams. J Testing and Evaluation 20(4):259–264
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Lavisci, P., Pizzo, B., Gagliano, J. et al. Fracture energy testing of thick joints with structural wood adhesives. Holz Roh Werkst 61, 355–357 (2003). https://doi.org/10.1007/s00107-003-0385-6
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00107-003-0385-6