Tianyun Yao scite author profile

The creep behavior caused by the viscous mechanical effect of biodegradable polylactic acid (PLA‐max) material is of great significance to its application. To better understand the creep properties of PLA‐max materials processed by fused filament fabrication, the effects of printing parameters including printing angle and layer thickness on them are studied theoretically and experimentally. The experimental results show that within the range of loading stress and loading time, the creep deformation of the PLA‐max material decreases with the increase of the printing angle or the decrease of the layer thickness. The experimental results are processed and analyzed, and a modified Burger model is proposed to quantitatively analyze the creep deformation of PLA‐max. In this modified Burger model, the four parameters are functions of printing angle and stress level. The modified model can accurately calculate the creep deformation of the specimen at other printing angles, which provides an important reference for the design of functional structures with specific mechanical properties.

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Effects of manufacturing micro-structure on vibration of FFF 3D printing plates: Material characterisation, numerical analysis and experimental study

Yao

Ouyang

Dai

et al. 2021

Composite Structures

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Tianyun Yao

A method to predict the ultimate tensile strength of 3D printing polylactic acid (PLA) materials with different printing orientations

Tensile failure strength and separation angle of FDM 3D printing PLA material: Experimental and theoretical analyses

A novel generalized stress invariant-based strength model for inter-layer failure of FFF 3D printing PLA material

A modified creep model of polylactic acid (PLA‐max) materials with different printing angles processed by fused filament fabrication

Effects of manufacturing micro-structure on vibration of FFF 3D printing plates: Material characterisation, numerical analysis and experimental study

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