Correlation Between Non-Destructive Assessment of Wood Veneers and the Resulting Laminated Veneer Lumber
MSU Affiliation
College of Forest Resources; Department of Sustainable Bioproducts; Forest and Wildlife Research Center
Creation Date
2025-11-03
Abstract
This study investigated correlations between the mechanical properties of individual red maple (Acer rubrum) veneers and that of associated laminated veneer lumber (LVL). Veneers with an average thickness of 3.5 mm, width of 304 mm, and length of 2.44 m, were first subjected to a nondestructive test (NDT) using stress wave analysis. Dynamic modulus of elasticity (MOEd) was used to classify 480 veneers into four equal groups: high-grade, medium-grade, low-grade, and a mixed group. Each LVL consisted of 12 veneers bonded with polyurethane (PUR) adhesive. All LVL billets were evaluated nondestructively to determine their dynamic modulus of elasticity. Two different measurement systems were employed: a Fakopp Microsecond Timer was used for a time-of-flight approach and a Hitman HM200 (resonance acoustics approach) applied the longitudinal stress wave method and assessed its reliability for predicting the mechanical performance of LVL billets. A strong correlation (r = 0.85 and R2 = 0.73) was found between the average MOEdVeneer of veneers and that of the LVL billets (MOEdLVL). There was a strong correlation between MOEd from the Hitman HM200 device (MOEdHitman) and that from the Fakopp device (MOEdFakopp) (r = 0.93 and R2 = 0.86).
Publication Date
9-20-2025
Publication Title
Wood and Fiber Science
Publisher
Society of Wood Science and Technology
First Page
187
Last Page
199
Rights
© Society of Wood Science and Technology
Recommended Citation
Belaidi, D., Mohammadabadi, M., Franca, F., Shmulsky, R., Wang, X., Seale, D., & Nkeuwa, W. (2025). Correlation between non-destructive assessment of wood veneers and the reulting laminated veneer lumber. Wood and Fiber Science, 57(4), 187–199. https://doi.org/10.22382/wfs-2025-16
