Characterization Of Graphite Particle Shape In Spheroidal Graphite Iron Using A Computer-Based Image Analyzer

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Journal of Minerals and Materials Characterization and Engineering

ISSN Print: 2327-4077
ISSN Online: 2327-4085
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"Characterization Of Graphite Particle Shape In Spheroidal Graphite Iron Using A Computer-Based Image Analyzer"
written by B. I. Imasogie, U. Wendt,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.3 No.1, 2004

has been cited by the following article(s):

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[1]	ПРОБЛЕМИ ОЦІНКИ ФОРМИ ГРАФІНТИХ ВКЛЮЧЕНЬ У ЧАВУНІ


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[5]	Study of Sphericity and Compactness Parameters in Spheroidal Graphite Iron Using X-Ray Micro-computed Tomography and Image Processing
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[6]	Spheroidal graphite coalescence during thermal cycling in the ferritic domain of a high-silicon cast iron studied by optical microscopy and X-ray computed tomography
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[8]	Analysis Of Load Variations On ST 60 Steel Using Vickers Method
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[13]	Conductive Carbon Materials from the Hydrothermal Carbonization of Vineyard Residues for the Application in Electrochemical Double-Layer Capacitors (EDLCs) …
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[14]	Influence of Austempering Temperature and Time on the Microstructure and Mechanical Properties of Ductile Iron Weldment Using Developed Coated Electrode
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[15]	Fatigue crack growth in compacted and spheroidal graphite cast irons
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[16]	Microstructural Study for Optimization of Ce Content of Austempered Ductile Iron (ADI) Weld Metal
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[17]	Micro-CT Quantitative Evaluation of Graphite Nodules in SGI
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[18]	Primerjava matematičnih modelov za določitev nodularnosti grafita v sivih litinah s kroglastim grafitom
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[19]	Determination of the Size-topological Parameters the Structure of Cast Iron
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[23]	Response of Austempering Heat Treatment on Microstructure and Mechanical Property in Different Zones of As-Welded Ductile Iron (DI),”
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[24]	Development of a new coated electrode with low nickel content for welding ductile iron and its response to austempering
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[25]	Response of Austempering Heat Treatment on Microstructure and Mechanical Property in Different Zones of As-Welded Ductile Iron (DI)
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[26]	Effect of graphite on folded metal occurrence in honed surfaces of grey and compacted cast irons
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[27]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons
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[28]	The Effect of Pouring Temperature on Graphitization of Cast Bars Produced by in-Mold Lost Foam Process
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[29]	Spheroidal Graphite Iron
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[30]	Cast iron: compacted graphite
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[31]	The image processing handbook
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[32]	Study and Observation of Process Parameters for Spheroidal Graphite (SG) Iron Casting
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[33]	A novel Vickers hardness measurement technique based on Adaptive Balloon Active Contour Method
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[34]	ФРАКТАЛЬНЫЙ АНАЛИЗ МИКРОСТРУКТУР ГРАФИТИЗИРОВАННЫХ ЧУГУНОВ
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[35]	Analysis of the Graphite Shape in Cast Iron Obtaining by Inmold Process
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[36]	Modelling and simulations of ductile iron solidification-induced variations in mechanical behaviour on component and microstructural level
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[39]	Microstructure Image Analysis for Estimating Mechanical Properties of Ductile Cast Iron
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[40]	Criteria of shape recognition for cast iron
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[41]	Wear Characterization of Nodular Cast Iron Based on Clusters of Nodules
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[42]	Microstructure analysis of spheroidal graphite iron (SGI) using hybrid image processing approach
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[43]	Nodule Evolution of Ductile Cast Iron During Solidification
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[44]	Characterization of the roundness degree of graphite nodules in ductile iron: A new discrete measure independent to resolution
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[46]	873~ 1273 K 에서 열화된 강화흑연강의 기계적 특성 연구
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[48]	The Study of Mechanical Properties of Degraded Compacted Graphite Iron (CGI) Under 873~ 1273 K
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[49]	873∼ 1173 K 에서 열처리된 강화흑연강 (Compacted Graphite Iron, CGI) 의 음향방출 특성
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[50]	Automatic Estimation of Artemia Hatching Rate Using an
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[51]	Acoustic Emission of Heat Treated Compacted Graphite Iron under 873~ 1173 K
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[52]	The Study of Mechanical Properties of Degraded Compacted Graphite Iron (CGI) Under 873-1273 K
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[53]	Study of the tribological behavior in a nodular foundry by techniques of morphological processing of images
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[54]	Measuring shape
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[55]	Optimizing the SG Iron Properties by Designing an Automated Microstrucure Image Analysis System
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[56]	Solidificación de hierros nodulares
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[57]	Estudio del comportamiento tribológico en una fundición nodular mediante técnicas de procesamiento morfológico de imágenes
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[59]	Size and spatial distributions characterization of graphite nodules based on connectivity by dilations
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[63]	Spatial distribution and spheroidicity characterization of graphite nodules based on morphological tools
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[65]	Quantitative 3D characterisation of graphite morphology in cast iron–correlation between processing, microstructure and properties
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[66]	Идентификация графитовых включений в чугунах
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[67]	Discrete Image Model and Segmentation for Microstructure Features Identification in Ductile Irons
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[68]	Quantitative 3D characterization of graphite morphologies in cast iron using FIB microstructure tomography
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[72]	Optimal binarization of images by neural networks for morphological analysis of ductile cast iron
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[73]	Influence of Graphite Morphology and Matrix Structure on Fatigue Strength and Wear Resistance of Ductile and Austempered Ductile Iron
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[74]	Compacted Graphite Iron and Ultrasonic Testing
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[75]	Bildanalytische Formanalyse und Klassifizierung der irregulären Graphitmorphologie in Gusseisen Shape Analysis and Classification of Irregular Graphite Morphology in Cast Iron
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[76]	daugiaciklio nuovargio plyšių susidarymo ir plitimo sluoksniuotajame ketuje tyrimas
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[77]	Bildanalytische Formanalyse und Klassifizierung der irregulären Graphitmorphologie in Gusseisen Shape Analysis and Classification of Irregular Graphite …
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[78]	Bundesministerium für Bildung und Forschung (BMBF) 53170 Bonn
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[79]	Influence of Graphite Morphology and Matrix Structure on Fatigue Strength and Wear Resistance of Ductile and Austempered Ductile Iron Society
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[80]	Klassifikation von Werkstoffgefügebildern aufgrund teilchenbasierter Kenngrößen
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[81]	Classification of Graphite Particles in Metallographic Images of Cast Irons–Quantitative Image Analysis Versus Deep Learning


[82]	A Review on Analysis and Optimization of Parameters for Spheroidal Graphite (SG) Iron Casting

[1]	Effect of regular thicknesses on the microstructural and quantitative analysis for a hypo-eutectic ductile iron alloyed with Ni and V Journal of Mining and Metallurgy, Section B: Metallurgy, 2024 DOI:10.2298/JMMB231114002C

[2]	ASSESSING THE VOLUME FRACTIONS OF THE PHASES, NODULARITY AND NODULE COUNT OF SPHEROIDAL GRAPHITE CAST IRON USING IMAGEJ SOFTWARE Mugla Journal of Science and Technology, 2019 DOI:10.22531/muglajsci.521128

[3]	Conductive Carbon Materials from the Hydrothermal Carbonization of Vineyard Residues for the Application in Electrochemical Double-Layer Capacitors (EDLCs) and Direct Carbon Fuel Cells (DCFCs) Materials, 2019 DOI:10.3390/ma12101703

[4]	Recent Advances in Engineering Materials and Metallurgy [Working Title] 2019 DOI:10.5772/intechopen.84763

[5]	ASSESSING THE VOLUME FRACTIONS OF THE PHASES, NODULARITY AND NODULE COUNT OF SPHEROIDAL GRAPHITE CAST IRON USING IMAGEJ SOFTWARE Mugla Journal of Science and Technology, 2019 DOI:10.22531/muglajsci.521128

[6]	Microstructural Study for Optimization of Ce Content of Austempered Ductile Iron (ADI) Weld Metal ISIJ International, 2019 DOI:10.2355/isijinternational.ISIJINT-2019-083

[7]	Determination of the Size-topological Parameters the Structure of Cast Iron GraphiCon'2019 Proceedings. Volume 2, 2019 DOI:10.30987/graphicon-2019-2-244-247

[8]	Three-Dimensional Microstructural Characterization of Cast Iron Alloys for Numerical Analyses Materials Science Forum, 2018 DOI:10.4028/www.scientific.net/MSF.925.427

[9]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[10]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[11]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[12]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[13]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[14]	Quantitative Evaluation of the Shape of Graphite (Circularity) in Graphitic Cast Irons Manufacturing Technology, 2017 DOI:10.21062/ujep/x.2017/a/1213-2489/MT/17/4/617

[15]	FRACTAL ANALYSIS OF MICROSTRUCTURES IN GRAPHITIZED CAST IRON Bulletin of Bryansk state technical university, 2016 DOI:10.12737/18185

[16]	A novel Vickers hardness measurement technique based on Adaptive Balloon Active Contour Method Expert Systems with Applications, 2016 DOI:10.1016/j.eswa.2015.09.025

[17]	Encyclopedia of Iron, Steel, and Their Alloys 2016 DOI:10.1081/E-EISA-120050166

[18]	The Image Processing Handbook, Seventh Edition 2015 DOI:10.1201/b18983-17

[19]	Wear Characterization of Nodular Cast Iron Based on Clusters of Nodules Advanced Materials Research, 2014 DOI:10.4028/www.scientific.net/AMR.976.184

[20]	Acoustic Emission of Heat Treated Compacted Graphite Iron under 873~1173 K Journal of the Korean Society for Nondestructive Testing, 2013 DOI:10.7779/JKSNT.2013.33.5.415

[21]	The Study of Mechanical Properties of Degraded Compacted Graphite Iron(CGI) Under 873~1273 K Journal of the Korean Society for Nondestructive Testing, 2013 DOI:10.7779/JKSNT.2013.33.2.173

[22]	Measuring Shape 2012 DOI:10.1201/b12092-8

[23]	Mathematical Morphology and Its Applications to Image and Signal Processing Lecture Notes in Computer Science, 2011 DOI:10.1007/978-3-642-21569-8_40

[24]	Spatial distribution and spheroidicity characterization of graphite nodules based on morphological tools Journal of Materials Processing Technology, 2010 DOI:10.1016/j.jmatprotec.2009.09.020

[25]	Brinell and Vickers Hardness Measurement Using Image Processing and Analysis Techniques Journal of Testing and Evaluation, 2010 DOI:10.1520/JTE102220

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[27]	A discrete level set approach to image segmentation Signal, Image and Video Processing, 2007 DOI:10.1007/s11760-007-0032-5

[28]	Simulation Studies of Nodular Iron’s Bull’s Eye Effect on Stress Concentration under Plane Stress Conditons Journal of Minerals and Materials Characterization and Engineering, 2007 DOI:10.4236/jmmce.2007.62007

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