Progress in Metal Additive Manufacturing and Metallurgy

The advent of additive manufacturing (AM) processes applied to the fabrication of structural components creates the need for design methodologies supporting structural optimization approaches that take into account the specific characteristics of the process. While AM processes enable unprecedented...

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Bibliographic Details
Other Authors:	Pederson, Robert (Editor)
Format:	Book Chapter
Published:	Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:	History of engineering & technology residual stress/strain electron beam melting diffraction Ti-6Al-4V electron backscattered diffraction X-ray diffraction Selective Laser Melting Ti6Al4V residual stress deformation preheating relative density powder degradation wire and arc additive manufacturing additive manufacturing microstructure mechanical properties applications Fe-based amorphous coating laser cladding property titanium microstructural modeling metal deposition finite element method dislocation density vacancy concentration directed energy deposition defects hardness alloy 718 hot isostatic pressing post-treatment Alloy 718 surface defects encapsulation coating fatigue crack growth (FCG) electron beam melting (EBM) hydrogen embrittlement (HE) wire arc additive manufacturing precipitation hardening Al-Zn-Mg-Cu alloys microstructure characterisation titanium alloy Ti55511 synchrotron XRD microscopy SLM EBM EBSD Rietveld analysis WAAM GMAW energy input per unit length processing strategy contact tip to work piece distance electrical stickout
Online Access:	Get Fullteks DOAB: description of the publication
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005	20210501
020			\|a books978-3-03943-664-4
020			\|a 9783039436637
020			\|a 9783039436644
024	7		\|a 10.3390/books978-3-03943-664-4 \|c doi
041	0		\|a English
042			\|a dc
072		7	\|a TBX \|2 bicssc
100	1		\|a Pederson, Robert \|4 edt
700	1		\|a Pederson, Robert \|4 oth
245	1	0	\|a Progress in Metal Additive Manufacturing and Metallurgy
260			\|a Basel, Switzerland \|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2020
300			\|a 1 electronic resource (224 p.)
506	0		\|a Open Access \|2 star \|f Unrestricted online access
520			\|a The advent of additive manufacturing (AM) processes applied to the fabrication of structural components creates the need for design methodologies supporting structural optimization approaches that take into account the specific characteristics of the process. While AM processes enable unprecedented geometrical design freedom, which can result in significant reductions of component weight, on the other hand they have implications in the fatigue and fracture strength due to residual stresses and microstructural features. This is linked to stress concentration effects and anisotropy that still warrant further research. This Special Issue of Applied Sciences brings together papers investigating the features of AM processes relevant to the mechanical behavior of AM structural components, particularly, but not exclusively, from the viewpoints of fatigue and fracture behavior. Although the focus of the issue is on AM problems related to fatigue and fracture, articles dealing with other manufacturing processes with related problems are also be included.
540			\|a Creative Commons \|f https://creativecommons.org/licenses/by/4.0/ \|2 cc \|4 https://creativecommons.org/licenses/by/4.0/
546			\|a English
650		7	\|a History of engineering & technology \|2 bicssc
653			\|a residual stress/strain
653			\|a electron beam melting
653			\|a diffraction
653			\|a Ti-6Al-4V
653			\|a electron backscattered diffraction
653			\|a X-ray diffraction
653			\|a Selective Laser Melting
653			\|a Ti6Al4V
653			\|a residual stress
653			\|a deformation
653			\|a preheating
653			\|a relative density
653			\|a powder degradation
653			\|a wire and arc additive manufacturing
653			\|a additive manufacturing
653			\|a microstructure
653			\|a mechanical properties
653			\|a applications
653			\|a Fe-based amorphous coating
653			\|a laser cladding
653			\|a property
653			\|a titanium
653			\|a microstructural modeling
653			\|a metal deposition
653			\|a finite element method
653			\|a dislocation density
653			\|a vacancy concentration
653			\|a directed energy deposition
653			\|a defects
653			\|a hardness
653			\|a alloy 718
653			\|a hot isostatic pressing
653			\|a post-treatment
653			\|a Alloy 718
653			\|a surface defects
653			\|a encapsulation
653			\|a coating
653			\|a fatigue crack growth (FCG)
653			\|a electron beam melting (EBM)
653			\|a hydrogen embrittlement (HE)
653			\|a wire arc additive manufacturing
653			\|a precipitation hardening
653			\|a Al-Zn-Mg-Cu alloys
653			\|a microstructure characterisation
653			\|a titanium alloy
653			\|a Ti55511
653			\|a synchrotron
653			\|a XRD
653			\|a microscopy
653			\|a SLM
653			\|a EBM
653			\|a EBSD
653			\|a Rietveld analysis
653			\|a WAAM
653			\|a GMAW
653			\|a energy input per unit length
653			\|a processing strategy
653			\|a contact tip to work piece distance
653			\|a electrical stickout
856	4	0	\|a www.oapen.org \|u https://mdpi.com/books/pdfview/book/3162 \|7 0 \|z Get Fullteks
856	4	0	\|a www.oapen.org \|u https://directory.doabooks.org/handle/20.500.12854/69369 \|7 0 \|z DOAB: description of the publication

Progress in Metal Additive Manufacturing and Metallurgy

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