Optimization of FDM manufacturing parameters for the compressive behavior of cubic lattice cores: an experimental approach by Taguchi method

Abstract: Lattice structures are regularly employed in different industries ranging from biomedical to automobile and aircraft due to their excellent mechanical properties, outstanding load carrying and energy absorption capabilities, and better strength-to-weight ratio compared to traditional structures. On the other hand, fused deposition modeling (FDM) is a cost-effective method of additive manufacturing (AM) vastly used for plastic materials which are biocompatible, biodegradable, and environment-friendly in nature.… Show more

“…Literature studies on the compressive strength of FDM-fabricated lattice structures are given below. Rahman et al [14] achieved optimal results by combining 0.1 mm layer thickness, 205°C printing temperature, 50 mm/s printing speed, and 60°C bed temperature. These parameters yielded the maximum modulus of elasticity and compressive strength, showcasing the significant impact of manufacturing settings on PLA lattice cubic structures in biomedical applications.…”

Optimizing printing parameters for enhanced mechanical properties of 3D printed PLA octet lattice structures

“…Literature studies on the compressive strength of FDM-fabricated lattice structures are given below. Rahman et al [14] achieved optimal results by combining 0.1 mm layer thickness, 205°C printing temperature, 50 mm/s printing speed, and 60°C bed temperature. These parameters yielded the maximum modulus of elasticity and compressive strength, showcasing the significant impact of manufacturing settings on PLA lattice cubic structures in biomedical applications.…”

Optimizing printing parameters for enhanced mechanical properties of 3D printed PLA octet lattice structures

Integration of FDM process-structure relationship in topology optimization formulation

Fuzzy validation of Taguchi-based convolutional fuzzy neural classifier for lung cancer imaging