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Abstract

Additive manufacturing technology, specifically Digital Light Processing (DLP), offers a unique approach to fabricating intricate objects without the need for traditional molds or machining. The technique described entails the incremental construction of layers through the curing process polymer, facilitated by a projection light source. Digital Light Processing 3D printing is particularly suited for creating complex structures with small cross-sections, requiring high surface polish and durability. In this study, DLP-printed test coupons were produced using an Ultraviolet-sensitive resin, and the investigation focused on examining the impact of surface quality and toughness, adhering to guidelines outlined by the ASTM specifications. To optimize the DLP printing process, Taguchi and Grey relational optimization techniques were employed to find the best values for multiple factors. The parameters considered in this study were speed, layer thickness, orientation, and pattern type. By employing these techniques, the optimal parameters were identified as follows: The printing process is conducted at a speed of 3 mm per second, with each layer being 0.05 mm thick and the orientation of the printed object is set at 90 degrees, and the pattern employed is of the square type. Experimental results revealed that utilizing these parameters yielded a surface roughness of 2.58 µm and an impact strength of 9.1J. The results showed that the Grey relational grade improved from 0.6244 to 0.7974, with a deviation of 0.173 and 27.71%, indicating a significant enhancement in the optimization process. Additionally, contour plots depicting the relationships between speed and orientation, speed and layer thickness, and orientation and layer thickness were generated for surface roughness, impact strength, and the Grey relational grade. This research offers valuable insights into optimizing DLP 3D printing processes to achieve enhanced surface quality, toughness, and material efficiency while reducing costs and production time.

Keywords

Digital light processing Taguchi grey relational analysis surface roughness impact strength

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References

Ibrahim

Saude

Ibrahim

. Optimization of process parameter for digital light processing (DLP) 3d printing. Int J Mech Prod Eng. 2017; 5: 116–119.

Komissarenko

Sokolov

Evstigneeva

, et al. DLP 3D Printing of scandia-stabilised zirconia ceramics. J Eur Ceram Soc. 2020; 5: 116–119.

BagheriSaeda

Behravesh

Hasanniab

, et al. Functionalised poly L-lactic acid synthesis and optimisation of process parameters for 3D printing of porous scaffolds via digital light processing (DLP) method. J Manuf Processes. 2020; 56: 550–561.

Komissarenko

Sokolov

Evstigneeva

, et al. Rheological and curing behavior of acrylate-based suspensions for the DLP 3D printing of Complex zirconia parts. Materials (Basel) 2018; 50: 1–12.

Shah

Morris

Plaisted

, et al. Highly filled resins for DLP-based printing of low density, high modulus materials. Addit Manuf 2021; 37: 101736.

Osman

Alharbi

Wismeijer

. Build angle: does it influence the accuracy of 3D-printed dental restorations using digital light-processing technology. Materials (Basel) 2017; 30: 182–188.

Moganapriya

Rajasekar

Sathish Kumar

, et al. Achieving machining effectiveness for AISI 1015 structural steel through coated inserts and grey-fuzzy coupled Taguchi optimisation approach. Struct Multidiscip Optim. 2020; 50: 1–12.

Aznarte

Ayranci

Qureshi

. Digital light processing (DLP): anisotropic tensile considerations. In: Proceedings of the 28th Annual International Solid Freeform Fabrication Symposium – An Additive Manufacturing Conference, pp. 413–418, 2017.

Farzadi

Solati-Hashjin

Asadi-Eydivand

, et al. Effect of layer thickness and printing orientation on mechanical properties and dimensional accuracy of 3D printed porous samples for bone tissue engineering. Materials. 2018; 9: 1–14.

10.

Çakmak

Cuellar

Donmez

, et al. Effect of printing layer thickness on the trueness and margin quality of 3D-printed interim dental crowns. Appl Sci 2021; 11: 1–14.

11.

Putra

Romli, Yanis

, et al. Optimisation of production process parameters of DLP type 3D printer design for product roughness value. Atlantis Highlights Eng 2020; 07: 179–183.

12.

Wang

, et al. A photocurable hybrid chitosan/acrylamide bioink for DLP based 3D bioprinting. Mater Des 2021; 20: 1–8.

13.

Borlaf

Conti

Graule

. Optimisation of production process parameters of DLP type 3D printer design for product roughness value. Open Ceramics 2021; 05: 1–5.

14.

Carroll

Palmer

Beese

. Anisotropic tensile behavior of ti-6Al-4V components fabricated with directed energy deposition additive manufacturing. Acta Mater 2015; 87: 309–320.

15.

Lin

. Use of the Taguchi method and grey relational analysis to optimise turning operations with multiple performance characteristics. Mater Manuf Processes. 2004; 19: 209–220.

16.

Hsiao

Tarng

Huang a

. Optimisation of plasma arc welding parameters by using the Taguchi method with the grey relational analysis. Mater Manuf Processes. 2014; 23: 51–58.

17.

Senthilkumar

Tamizharasan

Anandakrishnan

. Experimental investigation and performance analysis of cemented carbide inserts of different geometries using Taguchi based grey relational analysis. Measurement (Mahwah N J). 2014; 58: 520–536.

18.

Charles

Bassan

Mueller

, et al. On the assessment of thermo-mechanical degradability of multi-recycled ABS polymer for 3D printing applications, sustainable design and manufacturing, pp. 363–373, 2019.

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Experimental investigation and optimization of process parameters on digital light processing (DLP) 3D printing process based on Taguchi-grey relational analysis

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