Eucalyptus-Based Glued Laminated Timber: Evaluation and Prediction of Its Properties by Non-Destructive Techniques

Eucalyptus-based glued laminated timber (glulam) was produced to determine the feasibility of a non-destructive method (drilling resistance) to predict the properties of structural elements and add value to lower-quality hardwood species. Glulam was manufactured with formaldehyde (Resorcinol), refer...

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Bibliographic Details
Published in:Forests 2024-09, Vol.15 (9), p.1658
Main Authors: Oliveira, Ramon Ferreira, Segundinho, Pedro Gutemberg de Alcântara, da Silva, João Gabriel Missia, Gonçalves, Fabricio Gomes, Lopes, Dercílio Junior Verly, Silva, Jeferson Pereira Martins, Lopes, Nayara Franzini, Mastela, Leonor da Cunha, Paes, Juarez Benigno, de Souza, Clara Gaspar Fossi, Lahr, Francisco Antônio Rocco, Belumat, Maria Alice Romanha, Christoforo, André Luis, de Araujo, Caroline Palacio
Format: Article
Language:English
Subjects:
Adhesion
Adhesives
Analysis
Bond strength
Castor oil
Compression
Compressive strength
Delamination
Density
Drilling
Drilling machines (tools)
Eucalyptus
Feasibility
formaldehyde
Glulam
hardwood
Hardwoods
Lamellae
Laminated materials
Mechanical properties
Methods
Modulus of elasticity
Moisture content
nondestructive methods
Nondestructive testing
Open source software
Physical properties
prediction
Production costs
Quality control
Resorcinol
Shear strength
species
Structural members
Wood composites
wood density
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Summary:Eucalyptus-based glued laminated timber (glulam) was produced to determine the feasibility of a non-destructive method (drilling resistance) to predict the properties of structural elements and add value to lower-quality hardwood species. Glulam was manufactured with formaldehyde (Resorcinol), reference condition, and bio-based (Castor oil-based) adhesives in two assembly schemes, the core composed either of two continuous lamellae each 105 cm long, or of two formed by the juxtaposition of shorter boards (35 and 55 cm). The shear strength of the glue line (fv0), modulus of elasticity (Ec90), and strength (fc90) in compression perpendicular to the grain; delamination (DL); and main and extended glue line thicknesses were evaluated. The Resistograph equipment was used to perform the perforation perpendicular to the glue line (samples extracted from the glulam elements) to correlate the properties. The results of this research demonstrate that the scheme of the boards had little effect on the physical and mechanical properties evaluated (except the main glue line and delamination), and the drilling resistance (DR) presents a significant correlation with practically all properties evaluated (variations in density values and other properties are explained by variations in DR values), making it possible to estimate Ec90 and fc90 with desired precision (R2adj ≈ 80%). This highlights the feasibility of using this methodology in the quality control of glulam elements. It is concluded that regardless of the adhesive, elements comprising a 105 cm-length core and external lamellae (T1 and control) are indicated for external use, presenting low delamination. Short-length central lamellae adhesively glued with PUR (T2) are not recommended for external applications due to their susceptibility to delamination. However, T2 is indicated for internal environments due to its low production cost. This study also proved the efficiency of using models based on drilling resistance to estimate wood density and its resistance to compression perpendicular to the fiber.
ISSN:1999-4907
1999-4907
DOI:10.3390/f15091658