An online tool wear detection system in dry milling based on machine vision

Abstract Machine tools are important factor to determine the surface quality of the workpiece, and the online detection of tool wear is of great significance to the production and processing. In this paper, turning tools are taken as the research object, the tool wear evaluation index is defined, and the online detection system of lathe tool wear based on machine vision is designed. The workpiece processing, tool wear image acquisition, transmission, storage, and processing are completed in this system. Aiming at the problem of tool wear state detection, an adaptive hybrid filtering method is proposed in order to remove noise in the image acquisition process, nonlinear transformation and unsharp masking methods are used to enhance tool wear image quality. The GrabCut improved algorithm is used to segment the tool wear image. The Canny edge detection operator with adaptive double thresholds is used to detect the edge of the tool wear area. Finally, the upper and lower boundaries of the tool wear area are detected by using the Hough transform method, and the wear value of the tool flank is calculated, which is compared with the blunt standard VB=06mm to determine whether the tool needs to be replaced. The accuracy of the detection method is verified by experimental measurement of the surface roughness of the workpiece after machining.

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A Detection System for Rail Defects Based on Machine Vision

Journal of Physics Conference Series ◽

10.1088/1742-6596/1748/2/022012 ◽

2021 ◽

Vol 1748 ◽

pp. 022012

Author(s):

Qianxi Zhou

Keyword(s):

Machine Vision ◽

Detection System

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Development of a real-time machine vision system for functional textile fabric defect detection using a deep YOLOv4 model

Textile Research Journal ◽

10.1177/00405175211034241 ◽

2021 ◽

pp. 004051752110342

Author(s):

Sifundvolesihle Dlamini ◽

Chih-Yuan Kao ◽

Shun-Lian Su ◽

Chung-Feng Jeffrey Kuo

Keyword(s):

Machine Vision ◽

Real Time ◽

Defect Detection ◽

Data Augmentation ◽

Detection System ◽

Vision System ◽

Good Precision ◽

Machine Vision System ◽

Time Machine ◽

Textile Fabric

We introduce a real-time machine vision system we developed with the aim of detecting defects in functional textile fabrics with good precision at relatively fast detection speeds to assist in textile industry quality control. The system consists of image acquisition hardware and image processing software. The software we developed uses data preprocessing techniques to break down raw images to smaller suitable sizes. Filtering is employed to denoise and enhance some features. To generalize and multiply the data to create robustness, we use data augmentation, which is followed by labeling where the defects in the images are labeled and tagged. Lastly, we utilize YOLOv4 for localization where the system is trained with weights of a pretrained model. Our software is deployed with the hardware that we designed to implement the detection system. The designed system shows strong performance in defect detection with precision of [Formula: see text], and recall and [Formula: see text] scores of [Formula: see text] and [Formula: see text], respectively. The detection speed is relatively fast at [Formula: see text] fps with a prediction speed of [Formula: see text] ms. Our system can automatically locate functional textile fabric defects with high confidence in real time.

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Online Tool Wear Classification during Dry Machining Using Real Time Cutting Force Measurements and a CNN Approach

Journal of Manufacturing and Materials Processing ◽

10.3390/jmmp2040072 ◽

2018 ◽

Vol 2 (4) ◽

pp. 72 ◽

Cited By ~ 5

Author(s):

German Terrazas ◽

Giovanna Martínez-Arellano ◽

Panorios Benardos ◽

Svetan Ratchev

Keyword(s):

Tool Wear ◽

High Speed ◽

Big Data Analytics ◽

Design Development ◽

Online Tool ◽

Overall Evaluation ◽

Intelligent Information ◽

Key Enabling Technologies ◽

Processing Techniques ◽

Tool Wear Classification

The new generation of ICT solutions applied to the monitoring, adaptation, simulation and optimisation of factories are key enabling technologies for a new level of manufacturing capability and adaptability in the context of Industry 4.0. Given the advances in sensor technologies, factories, as well as machine tools can now be sensorised, and the vast amount of data generated can be exploited by intelligent information processing techniques such as machine learning. This paper presents an online tool wear classification system built in terms of a monitoring infrastructure, dedicated to perform dry milling on steel while capturing force signals, and a computing architecture, assembled for the assessment of the flank wear based on deep learning. In particular, this approach demonstrates that a big data analytics method for classification applied to large volumes of continuously-acquired force signals generated at high speed during milling responds sufficiently well when used as an indicator of the different stages of tool wear. This research presents the design, development and deployment of the system components and an overall evaluation that involves machining experiments, data collection, training and validation, which, as a whole, has shown an accuracy of 78 % .

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Artificial neural network based tool wear estimation on dry hard turning processes of AISI4140 steel using coated carbide tool

Bulletin of the Polish Academy of Sciences Technical Sciences ◽

10.1515/bpasts-2017-0060 ◽

2017 ◽

Vol 65 (4) ◽

pp. 553-559 ◽

Cited By ~ 1

Author(s):

D. Rajeev ◽

D. Dinakaran ◽

S.C.E. Singh

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Tool Wear ◽

Hard Turning ◽

Cutting Tool ◽

Carbide Tool ◽

Online Tool ◽

Coated Carbide Tool ◽

Tool Wear Estimation ◽

Coated Carbide

AbstractNowadays, finishing operation in hardened steel parts which have wide industrial applications is done by hard turning. Cubic boron nitride (CBN) inserts, which are expensive, are used for hard turning. The cheaper coated carbide tool is seen as a substitute for CBN inserts in the hardness range (45–55 HRC). However, tool wear in a coated carbide tool during hard turning is a significant factor that influences the tolerance of machined surface. An online tool wear estimation system is essential for maintaining the surface quality and minimizing the manufacturing cost. In this investigation, the cutting tool wear estimation using artificial neural network (ANN) is proposed. AISI4140 steel hardened to 47 HRC is used as a work piece and a coated carbide tool is the cutting tool. Experimentation is based on full factorial design (FFD) as per design of experiments. The variations in cutting forces and vibrations are measured during the experimentation. Based on the process parameters and measured parameters an ANN-based tool wear estimator is developed. The wear outputs from the ANN model are then tested. It was observed that as the model using ANN provided quite satisfactory results, and that it can be used for online tool wear estimation.

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ONLINE TOOL WEAR PREDICTION IN MILLING OPERATION USING FEED MOTOR CURRENT SIGNAL

ARIMPIE - 2016 ◽

10.16962/elkapj/si.arimpie-2016.33 ◽

2016 ◽

Keyword(s):

Tool Wear ◽

Current Signal ◽

Wear Prediction ◽

Online Tool ◽

Motor Current ◽

Tool Wear Prediction ◽

Milling Operation

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Online Biscuit Detection System Based on Machine Vision

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.341-342.597 ◽

2013 ◽

Vol 341-342 ◽

pp. 597-600

Author(s):

Xin Wei ◽

Guang Feng Chen ◽

Lin Lin Zhai ◽

Qing Qing Huang

Keyword(s):

Machine Vision ◽

Detection Rate ◽

Detection System ◽

Control Logic ◽

Control Software ◽

Matching Algorithm ◽

Geometric Matching ◽

Detection Software ◽

And Control ◽

Manipulator Control

In order to complete the automated sorting, the manipulator needs the accurate coordinate and angle information of the biscuits. This article design a machine vision based online biscuit detection system. Devise the hardware structure and control logic. Base on geometric matching algorithm, develop the detection software with NI Vision. The software could acquire video to analysis to get the coordinates of biscuits, and update and exchange the data with manipulator control software. The system has been tested to achieve a complete detection rate about 96%.

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