Author: Johannes Günther
Publisher: BoD – Books on Demand
ISBN: 3737608482
Category : Technology & Engineering
Languages : en
Pages : 170
Book Description
The primary focus of this work is the processing – microstructure – property correlation of EBM manufactured high-alloyed austenitic CrMnNi stainless steel. Independent of the applied process parameters, to this point this alloy exhibits a fine-grained and weak textured microstructure in the as-built state upon EBM processing. As detailed in the literature review, this is opposite to numerous alloys like the benchmark AISI 316L stainless steel, which are commonly characterized by epitaxial growth of columnar grains elongated parallel to building direction. A theory for this unusual observation is presented based on a grain refinement due the process-inherent cyclic heat-treatment, i.e. repetitive reheating and partial melting of the consolidated material due to the energy input during melting of subsequent layers and resulting solid-liquid as well as solid-solid (ferritic bcc to austenitic fcc phase and vice versa) phase transformations. A calculation of the phase diagram, differential thermal II Abstract analysis and the investigation of the uppermost layers of bulky and thin-walled EBM processed structures are conducted to support this assumption. Moreover, the CrMnNi stainless steel specimens are characterized by an outstanding damage tolerance, which is demonstrated by tensile testing and examination of the fracture surfaces revealing large lack-of-fusion defects due to unsuitable process parameters. Combined EBSD and X-ray diffraction analysis attribute the high damage tolerance to a pronounced strain hardening and mitigation of the effect of defects due to the transformation-induced plasticity (TRIP) effect. The deformation-induced martensitic transformation and associated strain hardening has also been correlated to a considerable low-cycle fatigue performance even under the presence of large inhomogeneities. The chemical composition of the alloy upon EBM processing is strongly dependent on the process parameters, i.e. it is demonstrated that the evaporation rate of Mn varies with the scan strategy and volumetric energy density. This phenomenon is utilized for the fabrication of homogeneous specimens with different Mn concentrations and resulting mechanical properties.These findings are subsequently employed for a prove-of-concept of the possibility to produce functionally graded material by a spatial adjustment of the scan strategy throughout the layer-wise built-up of objects. This is a novel approach for the synthetization of functionally graded materials based on the processing of one homogenous precursor powder feedstock. In summary, the particular CrMnNi stainless steel is introduced as a novel alloy design for AM because it addresses current material-related issues inherent in layer-wise technologies and potentially further contributes to the exploitation of the full potential of AM.
Electron Beam Melting of Metastable Austenitic Stainless Steel
Author: Johannes Günther
Publisher: BoD – Books on Demand
ISBN: 3737608482
Category : Technology & Engineering
Languages : en
Pages : 170
Book Description
The primary focus of this work is the processing – microstructure – property correlation of EBM manufactured high-alloyed austenitic CrMnNi stainless steel. Independent of the applied process parameters, to this point this alloy exhibits a fine-grained and weak textured microstructure in the as-built state upon EBM processing. As detailed in the literature review, this is opposite to numerous alloys like the benchmark AISI 316L stainless steel, which are commonly characterized by epitaxial growth of columnar grains elongated parallel to building direction. A theory for this unusual observation is presented based on a grain refinement due the process-inherent cyclic heat-treatment, i.e. repetitive reheating and partial melting of the consolidated material due to the energy input during melting of subsequent layers and resulting solid-liquid as well as solid-solid (ferritic bcc to austenitic fcc phase and vice versa) phase transformations. A calculation of the phase diagram, differential thermal II Abstract analysis and the investigation of the uppermost layers of bulky and thin-walled EBM processed structures are conducted to support this assumption. Moreover, the CrMnNi stainless steel specimens are characterized by an outstanding damage tolerance, which is demonstrated by tensile testing and examination of the fracture surfaces revealing large lack-of-fusion defects due to unsuitable process parameters. Combined EBSD and X-ray diffraction analysis attribute the high damage tolerance to a pronounced strain hardening and mitigation of the effect of defects due to the transformation-induced plasticity (TRIP) effect. The deformation-induced martensitic transformation and associated strain hardening has also been correlated to a considerable low-cycle fatigue performance even under the presence of large inhomogeneities. The chemical composition of the alloy upon EBM processing is strongly dependent on the process parameters, i.e. it is demonstrated that the evaporation rate of Mn varies with the scan strategy and volumetric energy density. This phenomenon is utilized for the fabrication of homogeneous specimens with different Mn concentrations and resulting mechanical properties.These findings are subsequently employed for a prove-of-concept of the possibility to produce functionally graded material by a spatial adjustment of the scan strategy throughout the layer-wise built-up of objects. This is a novel approach for the synthetization of functionally graded materials based on the processing of one homogenous precursor powder feedstock. In summary, the particular CrMnNi stainless steel is introduced as a novel alloy design for AM because it addresses current material-related issues inherent in layer-wise technologies and potentially further contributes to the exploitation of the full potential of AM.
Publisher: BoD – Books on Demand
ISBN: 3737608482
Category : Technology & Engineering
Languages : en
Pages : 170
Book Description
The primary focus of this work is the processing – microstructure – property correlation of EBM manufactured high-alloyed austenitic CrMnNi stainless steel. Independent of the applied process parameters, to this point this alloy exhibits a fine-grained and weak textured microstructure in the as-built state upon EBM processing. As detailed in the literature review, this is opposite to numerous alloys like the benchmark AISI 316L stainless steel, which are commonly characterized by epitaxial growth of columnar grains elongated parallel to building direction. A theory for this unusual observation is presented based on a grain refinement due the process-inherent cyclic heat-treatment, i.e. repetitive reheating and partial melting of the consolidated material due to the energy input during melting of subsequent layers and resulting solid-liquid as well as solid-solid (ferritic bcc to austenitic fcc phase and vice versa) phase transformations. A calculation of the phase diagram, differential thermal II Abstract analysis and the investigation of the uppermost layers of bulky and thin-walled EBM processed structures are conducted to support this assumption. Moreover, the CrMnNi stainless steel specimens are characterized by an outstanding damage tolerance, which is demonstrated by tensile testing and examination of the fracture surfaces revealing large lack-of-fusion defects due to unsuitable process parameters. Combined EBSD and X-ray diffraction analysis attribute the high damage tolerance to a pronounced strain hardening and mitigation of the effect of defects due to the transformation-induced plasticity (TRIP) effect. The deformation-induced martensitic transformation and associated strain hardening has also been correlated to a considerable low-cycle fatigue performance even under the presence of large inhomogeneities. The chemical composition of the alloy upon EBM processing is strongly dependent on the process parameters, i.e. it is demonstrated that the evaporation rate of Mn varies with the scan strategy and volumetric energy density. This phenomenon is utilized for the fabrication of homogeneous specimens with different Mn concentrations and resulting mechanical properties.These findings are subsequently employed for a prove-of-concept of the possibility to produce functionally graded material by a spatial adjustment of the scan strategy throughout the layer-wise built-up of objects. This is a novel approach for the synthetization of functionally graded materials based on the processing of one homogenous precursor powder feedstock. In summary, the particular CrMnNi stainless steel is introduced as a novel alloy design for AM because it addresses current material-related issues inherent in layer-wise technologies and potentially further contributes to the exploitation of the full potential of AM.
Hot work tool steel in laser powder bed fusion: from parameter optimization to quality monitoring in industrial application
Author: Liang Wu
Publisher: BoD – Books on Demand
ISBN: 3737611785
Category : Technology & Engineering
Languages : en
Pages : 202
Book Description
This dissertation thesis focuses on applying the powder bed fusion with laser beam (PBF-LB) technology on hot work steel. It aims at achieving comparable properties with the products from the traditional manufacturing route. Using the reference powder H13, the influence of various factors, i.e., laser settings (such as laser power and scan speed) and machine settings (such as preheating) on the melting pool morphology and printing defects, is intensively investigated to check the feasibility of printing H13 components through PBF-LB technology and finally optimize the fabrication parameters for high-quality printing in lab-scale size. Furthermore, the consecutive research on the impact of the post-treatment, machine sensitivity, and powder condition provides a basis for scaling up the process and offers industrially usable products with adequate properties. Furthermore, after assessing the defects during the investigation, the classification of the defects deepens the understanding of the material-laser interaction. The mechanism for stress-lead cracks can guide the development of new types of material applied to the PBF-LB process, especially carbon-bearing steel. Finally, based on the mechanism of defect generation, the principle of the real-time defect-based monitoring system is proposed. After recognizing defects and assembling discrete points, the digital twin is established from various monitoring signals, which can be applied for on-time quality assurance without destructive testing.
Publisher: BoD – Books on Demand
ISBN: 3737611785
Category : Technology & Engineering
Languages : en
Pages : 202
Book Description
This dissertation thesis focuses on applying the powder bed fusion with laser beam (PBF-LB) technology on hot work steel. It aims at achieving comparable properties with the products from the traditional manufacturing route. Using the reference powder H13, the influence of various factors, i.e., laser settings (such as laser power and scan speed) and machine settings (such as preheating) on the melting pool morphology and printing defects, is intensively investigated to check the feasibility of printing H13 components through PBF-LB technology and finally optimize the fabrication parameters for high-quality printing in lab-scale size. Furthermore, the consecutive research on the impact of the post-treatment, machine sensitivity, and powder condition provides a basis for scaling up the process and offers industrially usable products with adequate properties. Furthermore, after assessing the defects during the investigation, the classification of the defects deepens the understanding of the material-laser interaction. The mechanism for stress-lead cracks can guide the development of new types of material applied to the PBF-LB process, especially carbon-bearing steel. Finally, based on the mechanism of defect generation, the principle of the real-time defect-based monitoring system is proposed. After recognizing defects and assembling discrete points, the digital twin is established from various monitoring signals, which can be applied for on-time quality assurance without destructive testing.
Cladded steel for clutch disc carriers
Author: Hinrich Lührs
Publisher: BoD – Books on Demand
ISBN: 3737609535
Category : Technology & Engineering
Languages : en
Pages : 178
Book Description
Für die Prozessroute von Lamellenträgern können Stahlschichtverbundwerkstoffe, bestehend aus einem duktilem Grundmaterial und einer verschleißfesten Deckschicht, eine kostengünstige Alternative bieten. Im Rahmen der vorliegenden Arbeit wurden die Umformbarkeit, die Verschleißfestigkeit und die Eigenspannungen verschiedener Stahlschichtverbundwerkstoffe betrachtet. Die Umformbarkeit und das Versagensverhalten wurde mittels Biegeversuchen untersucht. Durch in-Situ Biege- und Zugversuche mit anschließender digitaler Bildkorrelation wurden die lokalen Dehnungsverteilungen ermittelt. Das Versagensverhalten wurde anschließend mithilfe einer erweiterten Umformsimulation modelliert. Die Verschleißfestigkeit und die Verschleißmechanismen wurden auf einem Komponentenprüfstand für Lamellenträger untersucht. Mittels Röntgendiffraktometrie wurde der Eigenspannungstiefenverlauf der Stahlschichtverbundwerkstoffe ermittelt.
Publisher: BoD – Books on Demand
ISBN: 3737609535
Category : Technology & Engineering
Languages : en
Pages : 178
Book Description
Für die Prozessroute von Lamellenträgern können Stahlschichtverbundwerkstoffe, bestehend aus einem duktilem Grundmaterial und einer verschleißfesten Deckschicht, eine kostengünstige Alternative bieten. Im Rahmen der vorliegenden Arbeit wurden die Umformbarkeit, die Verschleißfestigkeit und die Eigenspannungen verschiedener Stahlschichtverbundwerkstoffe betrachtet. Die Umformbarkeit und das Versagensverhalten wurde mittels Biegeversuchen untersucht. Durch in-Situ Biege- und Zugversuche mit anschließender digitaler Bildkorrelation wurden die lokalen Dehnungsverteilungen ermittelt. Das Versagensverhalten wurde anschließend mithilfe einer erweiterten Umformsimulation modelliert. Die Verschleißfestigkeit und die Verschleißmechanismen wurden auf einem Komponentenprüfstand für Lamellenträger untersucht. Mittels Röntgendiffraktometrie wurde der Eigenspannungstiefenverlauf der Stahlschichtverbundwerkstoffe ermittelt.
Metals Abstracts
Author:
Publisher:
ISBN:
Category : Metallurgy
Languages : en
Pages : 782
Book Description
Publisher:
ISBN:
Category : Metallurgy
Languages : en
Pages : 782
Book Description
Scientific and Technical Aerospace Reports
Author:
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 836
Book Description
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 836
Book Description
Rapidly Solidified Metastable Materials
Author: B. H. Kear
Publisher: North Holland
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 472
Book Description
Publisher: North Holland
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 472
Book Description
Nuclear Science Abstracts
Author:
Publisher:
ISBN:
Category : Nuclear energy
Languages : en
Pages : 1058
Book Description
Publisher:
ISBN:
Category : Nuclear energy
Languages : en
Pages : 1058
Book Description
Metals Abstracts Index
Author:
Publisher:
ISBN:
Category : Metallurgy
Languages : en
Pages : 1622
Book Description
Publisher:
ISBN:
Category : Metallurgy
Languages : en
Pages : 1622
Book Description
ISIJ International
Author:
Publisher:
ISBN:
Category : Iron
Languages : en
Pages : 900
Book Description
Publisher:
ISBN:
Category : Iron
Languages : en
Pages : 900
Book Description
Publications
Author: United States. National Bureau of Standards
Publisher:
ISBN:
Category : Government publications
Languages : en
Pages : 360
Book Description
Publisher:
ISBN:
Category : Government publications
Languages : en
Pages : 360
Book Description