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Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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This book contains manuscripts related to alloys (engineering materials) to discuss potential materials, methods for improvement of the strength and cyclic properties of alloys, the stability of microstructures, the possible application of new (or improved) alloys, and the use of treatment for alloy improvement. The broad spectrum of topics included in the articles of this Special Issue demonstrates that research into the microstructural and mechanical characteristics of alloys represents a contemporary field. These topics are also envisaged to be of interest to scientists in other research centers, and we can still expect new developments in this investigation field.
History of engineering & technology --- magnesium alloy --- ECAP --- texture --- mechanical properties --- Co-based alloy --- tribological properties --- wear --- microstructure --- selective laser sintering (SLS) --- powder injection molding (PIM) --- medium-carbon low-alloy steel --- lath martensite --- effective grain size --- strength --- carbon content --- hot-work die steel --- thermal stability --- carbide --- dislocation --- tempering kinetics --- AZ91 magnesium alloys --- age-hardening response --- microstructure evolution --- β-Mg17Al12 phase --- artificial neural network model --- AA6063 --- fly ash --- response surface methodology --- wear rate --- friction coefficient --- Al-Cu-Li-Mg-Ag alloy --- constitutive equation --- EBSD --- recrystallization --- Cu-Mg alloy --- equal channel angular pressing (ECAP) --- metallic alloys --- chemical composition --- treatment
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book contains manuscripts related to alloys (engineering materials) to discuss potential materials, methods for improvement of the strength and cyclic properties of alloys, the stability of microstructures, the possible application of new (or improved) alloys, and the use of treatment for alloy improvement. The broad spectrum of topics included in the articles of this Special Issue demonstrates that research into the microstructural and mechanical characteristics of alloys represents a contemporary field. These topics are also envisaged to be of interest to scientists in other research centers, and we can still expect new developments in this investigation field.
magnesium alloy --- ECAP --- texture --- mechanical properties --- Co-based alloy --- tribological properties --- wear --- microstructure --- selective laser sintering (SLS) --- powder injection molding (PIM) --- medium-carbon low-alloy steel --- lath martensite --- effective grain size --- strength --- carbon content --- hot-work die steel --- thermal stability --- carbide --- dislocation --- tempering kinetics --- AZ91 magnesium alloys --- age-hardening response --- microstructure evolution --- β-Mg17Al12 phase --- artificial neural network model --- AA6063 --- fly ash --- response surface methodology --- wear rate --- friction coefficient --- Al-Cu-Li-Mg-Ag alloy --- constitutive equation --- EBSD --- recrystallization --- Cu-Mg alloy --- equal channel angular pressing (ECAP) --- metallic alloys --- chemical composition --- treatment
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book contains manuscripts related to alloys (engineering materials) to discuss potential materials, methods for improvement of the strength and cyclic properties of alloys, the stability of microstructures, the possible application of new (or improved) alloys, and the use of treatment for alloy improvement. The broad spectrum of topics included in the articles of this Special Issue demonstrates that research into the microstructural and mechanical characteristics of alloys represents a contemporary field. These topics are also envisaged to be of interest to scientists in other research centers, and we can still expect new developments in this investigation field.
History of engineering & technology --- magnesium alloy --- ECAP --- texture --- mechanical properties --- Co-based alloy --- tribological properties --- wear --- microstructure --- selective laser sintering (SLS) --- powder injection molding (PIM) --- medium-carbon low-alloy steel --- lath martensite --- effective grain size --- strength --- carbon content --- hot-work die steel --- thermal stability --- carbide --- dislocation --- tempering kinetics --- AZ91 magnesium alloys --- age-hardening response --- microstructure evolution --- β-Mg17Al12 phase --- artificial neural network model --- AA6063 --- fly ash --- response surface methodology --- wear rate --- friction coefficient --- Al-Cu-Li-Mg-Ag alloy --- constitutive equation --- EBSD --- recrystallization --- Cu-Mg alloy --- equal channel angular pressing (ECAP) --- metallic alloys --- chemical composition --- treatment --- magnesium alloy --- ECAP --- texture --- mechanical properties --- Co-based alloy --- tribological properties --- wear --- microstructure --- selective laser sintering (SLS) --- powder injection molding (PIM) --- medium-carbon low-alloy steel --- lath martensite --- effective grain size --- strength --- carbon content --- hot-work die steel --- thermal stability --- carbide --- dislocation --- tempering kinetics --- AZ91 magnesium alloys --- age-hardening response --- microstructure evolution --- β-Mg17Al12 phase --- artificial neural network model --- AA6063 --- fly ash --- response surface methodology --- wear rate --- friction coefficient --- Al-Cu-Li-Mg-Ag alloy --- constitutive equation --- EBSD --- recrystallization --- Cu-Mg alloy --- equal channel angular pressing (ECAP) --- metallic alloys --- chemical composition --- treatment
Book
ISBN: 3834362379 Year: 2018 Publisher: Würzburg Vogel Communications Group
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Long description: Der Einstieg in die Additive Fertigung (AM) von Serien- und Endkundenteilen ist für viele Unternehmen eine Herausforderung: Standards, Dimensionierungsgrundlagen, Konstruktionsmethoden, technisch-wirtschaftliche Berechnungsgrundlagen, CAD-Tools und Erfahrung für die Entwicklung von additiven Serien- und Endkundenteilen existieren zum Großteil noch nicht oder sind wenig etabliert. Industrieunternehmen, die das Ziel haben, additiv gefertigte Endkundenteile zu entwickeln, sehen sich schnell ähnlichen Fragestellungen gegenüber. Mit praxisorientierten Methoden und Beispielen greift das Buch diese Fragen auf: Welche AM-Verfahren gibt es und welche eignen sich für industrielle Endkundenbauteile? (Kap. 2) Wie können AM-Verfahren mit konventioneller Fertigung kombiniert werden? (Kap. 3) Wie sieht die digitale Prozesskette aus? (Kap. 4) Welche Qualität haben AM-Bauteile und wie kann sie geprüft werden? (Kap. 5) Wie sieht die Kostenstruktur von AM-Bauteilen aus? (Kap. 6) Was sind etablierte Anwendungsfelder für AM? (Kap.7) Wie können potentialträchtige Bauteile und Anwendungsfelder der AM identifiziert werden? (Kap. 8) Wie werden Bauteile für AM optimal konstruiert? (Kap. 9) Was sind Beispiele von erfolgreich implementierten AM-Endkundenbauteilen? (Kap. 10) Wie sehen die Schritte aus, mit denen sich AM erfolgreich im Unternehmen implementieren lässt? (Kap. 11) Das Buch ist ein Grundlagenwerk für die industrielle Entwicklung und Konstruktion von additiv gefertigten Serien und Endkundenteilen, indem es praxisgerecht Methoden und Wissen bereitstellt, die eine erfolgreiche Implementierung additiver Verfahren in Unternehmen unterstützen. Neben neuen Methoden und Vorgehensweisen zeigt das Buch anschaulich Möglichkeiten der Implementierung anhand einer Vielzahl von erfolgreichen Produktbeispielen aus der Industrie. Long description: Dieses Grundlagenwerk für die industrielle Entwicklung und Konstruktion von additiv gefertigten Serien- und Endkundenteilen stellt praxisgerecht neue Methoden, Wissen und Vorgehensweisen bereit, die eine erfolgreiche Implementierung additiver Verfahren in Unternehmen unterstützen.
Entwicklung --- Kosten --- Konstruktion --- FEM-Analyse --- Leichtbau --- Anwendungsfelder --- Photogrammetrie --- Additive Manufacturing --- Lasersintern --- Strukturmodell --- 3d druck --- 3 D -CAD -Modell --- 3D-CAD-Modell --- 3D-Datenerzeugung --- 3D-Datenmodell --- 3D-Scannen --- 3MF-Dateiformat --- AMF-Format --- Additive Fertigungsverfahren --- Anisotropie --- Bauraumorientierung --- Bauteilorientierung --- Binder Jetting (BJ) --- Bridge Manufacturing --- CLI-Format --- Complexity for Free --- Customization --- Elektronenstrahlschmelzen --- Fused Deposition Modelling (FDM) --- Gestaltungsleitfaden --- Gitterstrukturen --- Hilfsgeometrien --- Hülle-Kern-Strategie --- Laserscanner --- Laserschmelzen --- Losgrößenunabhängigkeit --- Material Jetting (MJ) --- NURBS --- Photopolymere Jetting (PJ) --- Potentialcluster --- Prinzip des Materialminimalismus --- Proof of concept-Prototyp --- Prozesskette --- Pulverentfernung --- Punktewolke --- Reverse Engineering --- SIMP-Verfahren --- SLM-Bauteil --- STL-Format --- Schichtdaten --- Selective Laser Melting (SLM) --- Selective Laser Sintering (SLS) --- Slicen --- Stereolithografie --- Strategische Implementierung --- Streifenlichtscanner --- Stützstrukturen --- Supportstrukturen --- Topologieoptimierung --- User-experience Prototyp --- Visualisierungsmodell --- Voxel --- generativen Fertigungsverfahren --- pulverbettbasierten Verfahren --- virtueller Bauraum
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