Your search keyword '"Finishing processes"' showing total 4 results

1. On the Relationship between Mechanical Properties and Crystallisation of Chemically Post-Processed Additive Manufactured Polylactic Acid Pieces

Author

A.J. Gámez, A.P. Valerga, Severo Raul Fernandez-Vidal, F. Girot, and Ingeniería Mecánica y Diseño Industrial

Subjects

0209 industrial biotechnology, Materials science, Polymers and Plastics, 02 engineering and technology, Surface finish, manufacturing design, Article, law.invention, lcsh:QD241-441, chemistry.chemical_compound, 020901 industrial engineering & automation, Polylactic acid, lcsh:Organic chemistry, law, Ultimate tensile strength, Immersion (virtual reality), Crystallization, Composite material, finishing processes, polylactic acid, crystallite, fused deposition modelling, biodegradable polymer, General Chemistry, 021001 nanoscience & nanotechnology, Biodegradable polymer, hardness, chemistry, tensile strength, Crystallite, Elongation, 0210 nano-technology

Abstract

Nowadays, improvement of the surface finish of parts manufactured by fused deposition modelling is a well-studied topic. Chemical post-treatments have proven to be the best technique in terms of time consumption and smoothness improvement. However, these treatments modify the structure of the material and, consequently, its mechanical properties. This relationship was studied in this work. In this case, on the basis of a previous study on crystallisation, polylactic acid pieces were subjected to different post-treatments to evaluate their effects on the sample&rsquo, s mechanical properties, i.e., tensile strength and hardness. Models were obtained according to their percentage of crystallisation, which was related to the different treatments, as well as immersion time. Dramatic changes were obtained within a wide range of material behaviour with some treatments. Specifically, changes were obtained in the maximum stress (from 55 to 20 MPa), in elongation (from 3% to 260%), and in the hardness scale (Shore D to A).

Published

2020

2. Impact of Chemical Post-Processing in Fused Deposition Modelling (FDM) on Polylactic Acid (PLA) Surface Quality and Structure

Author

A.J. Gámez, A.P. Valerga, Moises Batista, Severo Raul Fernandez-Vidal, and Ingeniería Mecánica y Diseño Industrial

Subjects

0209 industrial biotechnology, Materials science, Polymers and Plastics, chemical treatment, Thermal resistance, 02 engineering and technology, Surface finish, lcsh:QD241-441, Crystallinity, chemistry.chemical_compound, green technology, 020901 industrial engineering & automation, lcsh:Organic chemistry, Polylactic acid, Deposition (phase transition), finishing processes, Composite material, roughness, chemistry.chemical_classification, biodegradable polymer, General Chemistry, Polymer, 021001 nanoscience & nanotechnology, Biodegradable polymer, chemistry, organic solvent, 0210 nano-technology, Glass transition, additive manufacturing

Abstract

The application of techniques to improve the surface finish of pieces obtained by fused deposition modelling, as well as other functional aspects, is of great interest nowadays. Polylactic acid, a biodegradable material, has been considered a possible substitute for petroleum-based polymers. In this work, different chemical post-processing methods are applied to polylactic acid pieces obtained by fused deposition modelling and some characteristics are studied. Structural, thermal, and crystallinity property changes are analyzed according to the treatments applied. This can prevent degradation, eliminate the glass transition phase of the material, and thereby increase the thermal resistance by about 50 &deg, C. An improvement in the roughness of the pieces of up to 97% was also found.

Published

2019

3. On the Relationship between Mechanical Properties and Crystallisation of Chemically Post-Processed Additive Manufactured Polylactic Acid Pieces.

Author

Valerga, A.P., Fernandez-Vidal, S.R., Girot, F., and Gamez, A.J.

Subjects

*POLYLACTIC acid, *CRYSTALLIZATION, *FUSED deposition modeling, *ADDITIVES, *SURFACE finishing, *TENSILE strength

Abstract

Nowadays, improvement of the surface finish of parts manufactured by fused deposition modelling is a well-studied topic. Chemical post-treatments have proven to be the best technique in terms of time consumption and smoothness improvement. However, these treatments modify the structure of the material and, consequently, its mechanical properties. This relationship was studied in this work. In this case, on the basis of a previous study on crystallisation, polylactic acid pieces were subjected to different post-treatments to evaluate their effects on the sample's mechanical properties, i.e., tensile strength and hardness. Models were obtained according to their percentage of crystallisation, which was related to the different treatments, as well as immersion time. Dramatic changes were obtained within a wide range of material behaviour with some treatments. Specifically, changes were obtained in the maximum stress (from 55 to 20 MPa), in elongation (from 3% to 260%), and in the hardness scale (Shore D to A). [ABSTRACT FROM AUTHOR]

Published

2020

4. Impact of Chemical Post-Processing in Fused Deposition Modelling (FDM) on Polylactic Acid (PLA) Surface Quality and Structure.

Author

Valerga, Ana P., Batista, Moises, Fernandez-Vidal, Severo R., and Gamez, Antonio J.

Subjects

FUSED deposition modeling, POLYLACTIC acid, SURFACE structure, BIODEGRADABLE materials, SURFACE finishing, GLASS transitions

Abstract

The application of techniques to improve the surface finish of pieces obtained by fused deposition modelling, as well as other functional aspects, is of great interest nowadays. Polylactic acid, a biodegradable material, has been considered a possible substitute for petroleum-based polymers. In this work, different chemical post-processing methods are applied to polylactic acid pieces obtained by fused deposition modelling and some characteristics are studied. Structural, thermal, and crystallinity property changes are analyzed according to the treatments applied. This can prevent degradation, eliminate the glass transition phase of the material, and thereby increase the thermal resistance by about 50 °C. An improvement in the roughness of the pieces of up to 97% was also found. [ABSTRACT FROM AUTHOR]

Published

2019