Abstract
The paper aimed to reveal, qualitatively and quantitatively, the modifications suffered by the PLA during the complex heating cycle specific to the 3D printing followed by laser marking. The obtained results showed that the melting point of the PLA decreases from 162.2oC (which is specific to PLA filament) to 153.1oC after the 3D printing process and to 149.7oC after the laser heating. The glass transition suffered the same lowering after the printing process but an important increasing after the laser heating. The elastic modulus evolution proved a decreasing of the plasticity and that is hapenning when the material suffers an increasing of its rigidity. The elongation viscosity was analyzed and its values were decreasing with the increasing of the temperature that happened on the material. The decreasing was produced by the reduction of the elasticity, when the chain branches are decreasing their length. The decreasing is more pronounced with the increasing of the temperature. The ratio between the loss modulus to the storage modulus and quantifies the way in which the PLA absorbs and disperses energy moves its peak from 65oC (curve specific to the PLA filament) to 45oC (curve specific to the last layer deposited by 3D printing process and re-heated by laser beam for marking). The peak means the lowest storage modulus, which is a measure of elastic response of a material, so the transition from glass to high elasticity moves to the lower temperatures.
Highlights
The succession of the two heating processes is expected to produce modifications in the characteristics of the deposited polymer
It will be used Differential Scanning Calorimetry (DSC) techniques to evaluate the thermal characteristics which give relevant information on the plasticity of the Polylactic Acid (PLA) in different stages related to the complex process of 3D printing followed by laser heating for marking [22, 23]
The scope of research was the evaluation of the modifications suffered by the PLA during successive heating which is specific to 3D printing process followed by laser heating dedicated to the marking of the product
Summary
The succession of the two heating processes is expected to produce modifications in the characteristics of the deposited polymer. The Polylactic Acid (PLA) is an ecologic thermoplastic material, having good strength and high modulus [11, 12]. It has a glass-transition of about 55oC and a melt temperature around 175oC. Maroti [18, 19] reported modifications of the physical properties of PLA during 3D printing, modifications which affect its functionality in medical implants Due to these conclusions the paper aims to bring results of short evaluations of the modification of different characteristics of the PLA which was deposited in 3D printing followed by laser heating (dedicated to marking) process [20, 21]. It will be used Differential Scanning Calorimetry (DSC) techniques to evaluate the thermal characteristics which give relevant information on the plasticity of the PLA in different stages related to the complex process of 3D printing followed by laser heating for marking [22, 23]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
