Behavior of Sandwich Timber Slabs with a Core Formed by Bio-Plastic Fiber Using 3D Printing Technology
Keywords:
3D printing technology, Sandwich timber slab, Honeycomb, BioplasticAbstract
This research investigates the behavior of laminated wood panels with a core structure fabricated using 3D printing technology from bio-based plastic filament (Polylactic acid, PLA). The study of the effects of fiber printing angles and found that PLA+ printed in the direction parallel to the load (0 degrees) exhibits higher tensile and compressive strength than PLA+ printed at a 45-degree angle to the load by 17.92% and 12.81%, respectively. The study examines the mechanical properties of three types of PLA, including PLA-CF (Carbon fiber), PLA-GF (Glass fiber), and PLA+ (Plus). It was found that PLA+ has a tensile and compressive strength per unit material cost higher than PLA-CF by 35.62% and 22.83%, respectively, and higher than PLA-GF by 43.11% and 43.87%, respectively. PLA+ printed in the 0-degree direction (parallel to the load) was selected as the core material for the sandwich structure, which was fabricated with two core configurations: honeycomb and honeycomb lattice and sandwiched between bamboo layers on the top and bottom. The bending strength test results indicated that the structure with a honeycomb core had a bending strength-to-weight ratio 1.8 times higher than the structure with a honeycomb lattice core. The failure occurred in the form of horizontal shear failure at the core area.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 วิศวกรรมสถานแห่งประเทศไทย
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The selected article presented at the NCCE conference is the copyright of the Engineering Institute of Thailand under the Royal Patronage (EIT).
