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Book
ISBN: 1000036915 3731501279 Year: 2013 Publisher: KIT Scientific Publishing
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The incremental hole drilling method is used and further developed to determine residual stress states in thick film systems. The application limits regarding the applicability on film systems and the influence of the system's built up is examined by finite element simulations. A new evaluation method for the hole drilling method is proposed. Using this method residual stress states in thick film systems can be determined reliably in the coating, at the interface and also in the substrate.
residual stress --- inkrementelle Bohrlochmethode --- coating systems --- Eigenspannungen --- Schichtverbundehole drilling method
Book
ISBN: 2868832830 Year: 1996 Publisher: Orsay : Editions de physique,
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Powder x-ray diffractometry --- Reflection spectrometry --- Residual stress --- Surface analysis --- Synchrotron radiation --- X-ray diffraction --- X-ray fluorescence --- Powder x-ray diffractometry --- Reflection spectrometry --- Residual stress --- Surface analysis --- Synchrotron radiation --- X-ray diffraction --- X-ray fluorescence
Book
Year: 1936 Publisher: Universite De Liege : Liège : Université de Liège. Institut de Métallurgie générale, Rodestra,
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Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening --- Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening
Book
Year: 1936 Publisher: Universite De Liege : Liège : Université de Liège. Institut de Métallurgie générale, Rodestra,
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Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening --- Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening
Book
Year: 1936 Publisher: Universite De Liege : Liège : Université de Liège. Institut de Métallurgie générale, Rodestra,
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Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening --- Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening
Book
Year: 1936 Publisher: Universite De Liege : Liège : Université de Liège. Institut de Métallurgie générale, Rodestra,
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Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening --- Blow torches --- Electric welding --- Electric arcs --- Assembling --- Residual stress --- Deformation --- Tests --- Verification inspection --- Quality control --- Cast iron --- Manganese steels --- Alloy steels --- Copper --- Aluminum --- Design --- Resistance welding --- Resistance welding machines --- Lap welds --- Oxyacetylene cutting --- Surface hardening
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The introduction of metal AM processes in such industrial sectors as the aerospace, automotive, defense, jewelry, medical and tool-making fields, has led to a significant reduction in waste material and in the lead times of the components, innovative designs with higher strength, lower weight, and fewer potential failure points from joining features. This Special Issue on “Additive Manufacturing (AM) of Metallic Alloys” contains a mixture of review articles and original contributions on some problems that limit the wider uptake and exploitation of metals in AM.
History of engineering & technology --- design for additive manufacturing (DfAM) --- displacements --- laser powder bed fusion (L-PBF) --- manufacturing constraints --- stiffness --- costs --- melting of a powder bed --- laser welding --- optical diagnostics --- molten pool --- temperature field --- residual stresses --- electrochemical additive manufacturing --- fountain pen feed system --- metal 3D printer --- residual stress prediction --- IN718 --- experimental measurement of residual stress --- additive manufacturing --- support structure --- Powder Bed Fusion --- titanium alloy --- Ti-6Al-4V --- fracture behavior --- mechanical properties --- L-PBF --- in situ sensing --- quality assurance --- machine learning --- roughness --- electron beam melting (EBM) --- surface texture --- lack of fusion --- part quality --- Ti6Al4V --- metal additive manufacturing --- tempered --- ausrolled nanobainite --- microstructures --- n/a
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The introduction of metal AM processes in such industrial sectors as the aerospace, automotive, defense, jewelry, medical and tool-making fields, has led to a significant reduction in waste material and in the lead times of the components, innovative designs with higher strength, lower weight, and fewer potential failure points from joining features. This Special Issue on “Additive Manufacturing (AM) of Metallic Alloys” contains a mixture of review articles and original contributions on some problems that limit the wider uptake and exploitation of metals in AM.
design for additive manufacturing (DfAM) --- displacements --- laser powder bed fusion (L-PBF) --- manufacturing constraints --- stiffness --- costs --- melting of a powder bed --- laser welding --- optical diagnostics --- molten pool --- temperature field --- residual stresses --- electrochemical additive manufacturing --- fountain pen feed system --- metal 3D printer --- residual stress prediction --- IN718 --- experimental measurement of residual stress --- additive manufacturing --- support structure --- Powder Bed Fusion --- titanium alloy --- Ti-6Al-4V --- fracture behavior --- mechanical properties --- L-PBF --- in situ sensing --- quality assurance --- machine learning --- roughness --- electron beam melting (EBM) --- surface texture --- lack of fusion --- part quality --- Ti6Al4V --- metal additive manufacturing --- tempered --- ausrolled nanobainite --- microstructures --- n/a
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Functional coatings are cost-effective means to protect substrates from wear, corrosion, erosion, tribocorrosion, high temperature and high pressure in extreme environmental conditions. These are primarily manufactured through metal/ceramic powder deposition in a subsequent layer by layer fashion on the substrate materials. In all cases, the functional coatings need to be reliable for the intended application. The emerging techniques in 3D printing/additive manufacturing can be utilized to develop high-performance functional coatings. These methods provide geometrical precision, flexibility in geometrical complexity, customization of the coating layers, and reduce the raw materials waste, keeping the manufacturing cost low while addressing many of the technical barriers of conventional coating methods. With the rapid development of cutting-edge value-added technologies in aerospace, nuclear, military, space, and energy industry, 3D printing/additive manufacturing techniques will be major advantages. Novel functional coatings and 3D printing/additive manufacturing techniques will be critical to value-added components in the future development of technologies. The book provide an overview of the recent development in coating manufacturing techniques and potential to use in high-end engineering applications.
metal additive manufacturing --- nickel-based alloy --- microstructure --- cooling effect --- laser cladding --- TiC --- microstructure control --- wear behavior prediction --- ductile materials --- dislocation density --- microstructure and recrystallization --- cold gas dynamic spray --- molecular dynamics --- Ti coating --- cyclic potentiodynamic polarization (CPP) test --- hysteresis loop --- wear --- additive manufacturing --- Inconel 718 --- friction --- tribocorrosion --- corrosion --- H13 steel --- thermal stress cycle --- numerical simulation --- unstable alternating thermal stress --- residual stress --- n/a
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The introduction of metal AM processes in such industrial sectors as the aerospace, automotive, defense, jewelry, medical and tool-making fields, has led to a significant reduction in waste material and in the lead times of the components, innovative designs with higher strength, lower weight, and fewer potential failure points from joining features. This Special Issue on “Additive Manufacturing (AM) of Metallic Alloys” contains a mixture of review articles and original contributions on some problems that limit the wider uptake and exploitation of metals in AM.
History of engineering & technology --- design for additive manufacturing (DfAM) --- displacements --- laser powder bed fusion (L-PBF) --- manufacturing constraints --- stiffness --- costs --- melting of a powder bed --- laser welding --- optical diagnostics --- molten pool --- temperature field --- residual stresses --- electrochemical additive manufacturing --- fountain pen feed system --- metal 3D printer --- residual stress prediction --- IN718 --- experimental measurement of residual stress --- additive manufacturing --- support structure --- Powder Bed Fusion --- titanium alloy --- Ti-6Al-4V --- fracture behavior --- mechanical properties --- L-PBF --- in situ sensing --- quality assurance --- machine learning --- roughness --- electron beam melting (EBM) --- surface texture --- lack of fusion --- part quality --- Ti6Al4V --- metal additive manufacturing --- tempered --- ausrolled nanobainite --- microstructures --- design for additive manufacturing (DfAM) --- displacements --- laser powder bed fusion (L-PBF) --- manufacturing constraints --- stiffness --- costs --- melting of a powder bed --- laser welding --- optical diagnostics --- molten pool --- temperature field --- residual stresses --- electrochemical additive manufacturing --- fountain pen feed system --- metal 3D printer --- residual stress prediction --- IN718 --- experimental measurement of residual stress --- additive manufacturing --- support structure --- Powder Bed Fusion --- titanium alloy --- Ti-6Al-4V --- fracture behavior --- mechanical properties --- L-PBF --- in situ sensing --- quality assurance --- machine learning --- roughness --- electron beam melting (EBM) --- surface texture --- lack of fusion --- part quality --- Ti6Al4V --- metal additive manufacturing --- tempered --- ausrolled nanobainite --- microstructures
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