This paper is the final part of a series reporting on the penetration (P) and bonding behaviour of urea-formaldehyde (UF) resins of different viscosities based on different degrees of condensation (DCs). The various resins were applied onto radial and tangential wood surfaces, and solid wood assemblies were prepared by hot pressing. P-t and P-r were observed by evaluation of photomicrographs of the bond lines. The mean and maximum depth of penetration was inversely proportional to the DC. The average depth of P-t was found to be slightly higher than P-r because of the abundance of pits on the radial walls. However, the maximum P was higher in radial direction, due to the elliptic shape of vessels in poplar as well as due to rays improving the resin flow. The lap shear strength (sigma(m)) of the same bonded assemblies was determined. Despite the fact that the wood failure always was very high, the sigma(m) increased with the better penetration of the resins with low viscosity. The highe...r strength values measured has been interpreted as a fortification effect of the interphase by bulk resin penetration, as cell wall penetration cannot be expected due to the large size of such resin molecules.
Keywords:
viscosity / UF resin / poplar / penetration / degree of condensation / bond strength
TY - JOUR
AU - Gavrilović-Grmuša, Ivana
AU - Dunky, Manfred
AU - Miljković, Jovan
AU - Điporović-Momčilović, Milanka
PY - 2012
UR - https://omorika.sfb.bg.ac.rs/handle/123456789/487
AB - This paper is the final part of a series reporting on the penetration (P) and bonding behaviour of urea-formaldehyde (UF) resins of different viscosities based on different degrees of condensation (DCs). The various resins were applied onto radial and tangential wood surfaces, and solid wood assemblies were prepared by hot pressing. P-t and P-r were observed by evaluation of photomicrographs of the bond lines. The mean and maximum depth of penetration was inversely proportional to the DC. The average depth of P-t was found to be slightly higher than P-r because of the abundance of pits on the radial walls. However, the maximum P was higher in radial direction, due to the elliptic shape of vessels in poplar as well as due to rays improving the resin flow. The lap shear strength (sigma(m)) of the same bonded assemblies was determined. Despite the fact that the wood failure always was very high, the sigma(m) increased with the better penetration of the resins with low viscosity. The higher strength values measured has been interpreted as a fortification effect of the interphase by bulk resin penetration, as cell wall penetration cannot be expected due to the large size of such resin molecules.
T2 - Holzforschung
T1 - Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints
EP - 856
IS - 7
SP - 849
VL - 66
DO - 10.1515/hf-2011-0177
UR - conv_1049
ER -
@article{
author = "Gavrilović-Grmuša, Ivana and Dunky, Manfred and Miljković, Jovan and Điporović-Momčilović, Milanka",
year = "2012",
abstract = "This paper is the final part of a series reporting on the penetration (P) and bonding behaviour of urea-formaldehyde (UF) resins of different viscosities based on different degrees of condensation (DCs). The various resins were applied onto radial and tangential wood surfaces, and solid wood assemblies were prepared by hot pressing. P-t and P-r were observed by evaluation of photomicrographs of the bond lines. The mean and maximum depth of penetration was inversely proportional to the DC. The average depth of P-t was found to be slightly higher than P-r because of the abundance of pits on the radial walls. However, the maximum P was higher in radial direction, due to the elliptic shape of vessels in poplar as well as due to rays improving the resin flow. The lap shear strength (sigma(m)) of the same bonded assemblies was determined. Despite the fact that the wood failure always was very high, the sigma(m) increased with the better penetration of the resins with low viscosity. The higher strength values measured has been interpreted as a fortification effect of the interphase by bulk resin penetration, as cell wall penetration cannot be expected due to the large size of such resin molecules.",
journal = "Holzforschung",
title = "Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints",
pages = "856-849",
number = "7",
volume = "66",
doi = "10.1515/hf-2011-0177",
url = "conv_1049"
}
Gavrilović-Grmuša, I., Dunky, M., Miljković, J.,& Điporović-Momčilović, M.. (2012). Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints. in Holzforschung, 66(7), 849-856.
https://doi.org/10.1515/hf-2011-0177
conv_1049
Gavrilović-Grmuša I, Dunky M, Miljković J, Điporović-Momčilović M. Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints. in Holzforschung. 2012;66(7):849-856.
doi:10.1515/hf-2011-0177
conv_1049 .
Gavrilović-Grmuša, Ivana, Dunky, Manfred, Miljković, Jovan, Điporović-Momčilović, Milanka, "Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints" in Holzforschung, 66, no. 7 (2012):849-856,
https://doi.org/10.1515/hf-2011-0177 .,
conv_1049 .
