Abstract
The material extrusion (ME) process is one of the most widely used 3D printing processes, especially considering its use of inexpensive materials. However, the error known as the “spaghetti-shape error,” related to filament tangling, is a common problem associated with the ME process. Once occurring, this issue, which consumes both time and materials, requires a restart of the entire process. In order to prevent this, the user must constantly monitor the process. In this research, a failure detection method which uses a webcam and deep learning is developed for the ME process. The webcam captures images and then analyzes them by machine learning based on a convolutional neural network (CNN), showing outstanding performance in both image classification and the recognition of objects. Sample images were trained based on a modified Visual Geometry Group Network (VGGNet) model and the trained model was evaluated, resulting in 97% accuracy. The pre-trained model was tested on a 3D printer monitoring system for its ability to recognize the “spaghetti-shape-error” and was able to detect 96% of abnormal deposition processes. The proposed method can analyze the ME process in real time and informs the user or halts the process when abnormal printing is detected.
Highlights
IntroductionConsidering the “Fourth Industrial Revolution,” 3D printing, or additive manufacturing, is ready to emerge from its niche status and become a viable alternative to conventional manufacturing processes in an increasing number of applications
1.1 Global trend about 3D printerCurrently, considering the “Fourth Industrial Revolution,” 3D printing, or additive manufacturing, is ready to emerge from its niche status and become a viable alternative to conventional manufacturing processes in an increasing number of applications
There are several different processes developed for 3D printers, such as material extrusion (ME), vat photopolymerization (VP), and power bed fusion (PBF), among others, each with its own unique set of competencies and limitations [6]
Summary
Considering the “Fourth Industrial Revolution,” 3D printing, or additive manufacturing, is ready to emerge from its niche status and become a viable alternative to conventional manufacturing processes in an increasing number of applications. There are several different processes developed for 3D printers, such as material extrusion (ME), vat photopolymerization (VP), and power bed fusion (PBF), among others, each with its own unique set of competencies and limitations [6] Among these printing processes, the ME process is one of the most commonly used 3D printing processes for the fabrication of pure plastic parts at a low cost and with minimal material usage and ease of material changes.
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