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A reaction–diffusion model for grayscale digital light processing 3D printing

Journal Article · · Extreme Mechanics Letters
 [1];  [2];  [1];  [1]
  1. Georgia Institute of Technology, Atlanta, GA (United States)
  2. Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)
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We report that digital light processing (DLP) 3D printing is an additive manufacturing process that utilizes light patterns to photopolymerize a liquid resin into a solid. Due to the accuracy of modern digital micromirror devices (DMD) and recent advances in resin chemistry, it is now possible to create functionally graded structures using different light intensity values, also known as grayscale DLP (g-DLP). Different intensities of light lead to differences in the polymer crosslinking density after curing, which ultimately produces a part with gradients of material properties. However, g-DLP is a complicated process. First, the DLP printing is a highly coupled chemical and physical process that involves light propagation, chemical reactions, species diffusion, heat transfer, volume shrinkage, and changes in mechanical behaviors of the curing resin. Second, in g-DLP, light gradients create strong in plane gradients of chemical species concentrations in the curing liquid resin due to the strong dependence of light intensity on the rate of monomer crosslinking. Furthermore, light gradients through the depth create concentration gradients due to the degree of cure dependent light absorption and the use of photoabsorbers. These complex physical features of the printing process must be understood in order to properly control printing parameters such as light exposure time, printing speed, and grayscale variations to achieve accurate mechanical properties. In this paper, a photopolymerization reaction–diffusion model is developed and used in conjunction with experiments to investigate the coupled effects of light propagation, chemical reaction rates, and species diffusion during g-DLP 3D printing. The model is implemented numerically utilizing the finite difference method and simulation results are compared to experimental findings of simple printed structures. The agreement between experimental and model predictions of simple quantities of interest, such as geometric feature sizes, shows that the model can capture the overcure due to free-radical and other species diffusion during printing when grayscale patterns are employed. This model lays the groundwork for future extensions that can incorporate more complex coupled physics such as heat transfer, volume shrinkage, and material property evolution, which are critically important in utilizing g-DLP 3D printing for the fabrication of high-performance parts which excellent geometric and material property tolerances.

Research Organization:
Sandia National Laboratories (SNL-NM), Albuquerque, NM (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA); Air Force Office of Scientific Research (AFOSR); HP, Inc; Northrop Grumman Corporation
Grant/Contract Number:
NA0003525
OSTI ID:
1870447
Alternate ID(s):
OSTI ID: 1862078
Report Number(s):
SAND2022-3602J; 704494
Journal Information:
Extreme Mechanics Letters, Journal Name: Extreme Mechanics Letters Vol. 53; ISSN 2352-4316
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (42)

A Review of 3D Printing Technologies for Soft Polymer Materials journal April 2020
Active Mixing of Disparate Inks for Multimaterial 3D Printing journal April 2019
Kinetic parameters for step and flash imprint lithography photopolymerization journal January 2006
Modeling of termination in intermediate and high conversion free radical polymerizations journal February 1994
Desolvation Induced Origami of Photocurable Polymers by Digit Light Processing journal December 2016
High-Speed 3D Printing of High-Performance Thermosetting Polymers via Two-Stage Curing journal January 2018
Diffusion-limited photopolymerization in scanning micro-stereolithography journal December 2004
Process capability study of polyjet printing for plastic components journal April 2011
Effects of oxygen on interfacial strength of incremental forming of materials by photopolymerization journal December 2016
Design for the reduction of volume shrinkage-induced distortion in digital light processing 3D printing journal October 2021
Multiphysical modeling of the photopolymerization process for additive manufacturing of ceramics journal September 2018
Multi-step exposure method for improving structure flatness in digital light processing-based printing journal March 2019
Modeling A Scanning-Mask Projection Vat Photopolymerization System For Multiscale Additive Manufacturing journal May 2020
Photomechanics of light-activated polymers journal July 2009
Thermodynamics and mechanics of photochemcially reacting polymers journal November 2013
Evolution of material properties during free radical photopolymerization journal March 2018
3D printing of materials with spatially non-linearly varying properties journal October 2018
A feasibility study on process monitoring and control in vat photopolymerization of ceramics journal December 2018
Experimental investigation and modelling of the curing behaviour of photopolymers journal March 2020
Projection micro-stereolithography using digital micro-mirror dynamic mask journal May 2005
Photopolymerizable Biomaterials and Light-Based 3D Printing Strategies for Biomedical Applications journal April 2020
Rapid Volatilization Induced Mechanically Robust Shape-Morphing Structures toward 4D Printing journal March 2020
Multi-Material Direct Ink Writing (DIW) for Complex 3D Metallic Structures with Removable Supports journal January 2019
Layer-by-Layer Printing of Photopolymers in 3D: How Weak is the Interface? journal January 2020
Inkjet Printing for Materials and Devices journal October 2001
Kinetics and Modeling of Free-Radical Batch Polymerization of Nonionized Methacrylic Acid in Aqueous Solution journal September 2008
Modeling of Oxygen-Inhibited Free Radical Photopolymerization in a PDMS Microfluidic Device journal November 2008
Modeling Primary Radical Termination and Its Effects on Autoacceleration in Photopolymerization Kinetics journal September 1999
Spatially and optically tailored 3D printing for highly miniaturized and integrated microfluidics journal September 2021
Three-dimensional printing of multicomponent glasses using phase-separating resins journal November 2019
Voxelated soft matter via multimaterial multinozzle 3D printing journal November 2019
Effects of oxygen on light activation in covalent adaptable network polymers journal January 2015
Voxel based method for predictive modelling of solidification and stress in digital light processing based additive manufacture journal January 2021
Experimental and numerical investigations on microstereolithography of ceramics journal October 2002
High-Efficiency High-Resolution Multimaterial Fabrication for Digital Light Processing-Based Three-Dimensional Printing journal September 2018
Lightweight Mechanical Metamaterials with Tunable Negative Thermal Expansion journal October 2016
Autoacceleration in Free Radical Polymerization journal September 1994
Modeling effects of oxygen inhibition in mask‐based stereolithography journal April 2011
Origami by frontal photopolymerization journal April 2017
Grayscale digital light processing 3D printing for highly functionally graded materials journal May 2019
Numerical Model of Radical Photopolymerization Based on Interdiffusion journal January 2014
A Simplified 2D Numerical Simulation of Photopolymerization Kinetics and Oxygen Diffusion–Reaction for the Continuous Liquid Interface Production (CLIP) System journal April 2020

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Related Subjects

36 MATERIALS SCIENCE
3D printing
additive manufacturing
digital light processing
process modeling