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dc.contributor.editorYi, Hao
dc.contributor.editorCao, Huajun
dc.contributor.editorLiu, Menglin
dc.contributor.editorJia, Le
dc.date.accessioned2023-02-02T16:28:48Z
dc.date.available2023-02-02T16:28:48Z
dc.date.issued2023
dc.identifierONIX_20230202_9783036563350_40
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/96639
dc.description.abstractAdditive manufacturing (AM), as an advanced manufacturing technology, has overturned the traditional concept of subtractive manufacturing. It has revolutionized advanced integrated structural design, high-performance material preparation, and the manufacturing of complex components. AM technology is changing the way products are developed, produced, and commercialized, leading to disruptive changes in the economy and society. AM technology has received extensive attention and research from the research community since its inception, and it is leading manufacturing technology and continues to be used with great effectiveness in the aerospace industry, automotive industry, medical plant applications, and many other fields. However, the development of additive manufacturing still faces demanding technical challenges; for example, due to insufficient process planning and inadequate process control, many defects are often observed in the products of AM processes, reducing production efficiency and deteriorating product quality. To promote AM technology toward high efficiency, high precision, high performance, and low cost in a green and intelligent direction, many advanced design and manufacturing technologies are in urgent need of further breakthroughs, such as numerical and analytical models for structural design, experimental methods, performance prediction, and process optimization.
dc.languageEnglish
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issuesen_US
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technologyen_US
dc.subject.otheradditive manufacture
dc.subject.othercemented carbide
dc.subject.otherfunctionally graded structure
dc.subject.otheradhesive wear
dc.subject.otherperidynamic method
dc.subject.othermultiple-crack propagation
dc.subject.otherSLM additive manufacturing
dc.subject.otherdefects
dc.subject.otheradditive manufacturing
dc.subject.otherjoule thermal
dc.subject.othermathematical model
dc.subject.otherprocess parameters
dc.subject.othermicro-droplet
dc.subject.otherhigh-voltage electric field-driven jet
dc.subject.otherTaylor cone
dc.subject.othermicro-scale wax structure
dc.subject.otherlaser powder bed fusion (LPBF)
dc.subject.othernano-Si3N4
dc.subject.otherAlSi10Mg
dc.subject.othermechanical properties
dc.subject.otherheat treatment
dc.subject.otherdiamond structure
dc.subject.othercompression
dc.subject.otherstrain rate
dc.subject.otherspecific energy absorption
dc.subject.otherCFA
dc.subject.othergeneration
dc.subject.othermachine learning
dc.subject.othermultiple linear regression
dc.subject.othersensitivity analysis
dc.subject.otherutilization
dc.subject.otherlaser cladding
dc.subject.othercomposite alloy powder
dc.subject.otherwear resistance
dc.subject.othercorrosion resistance
dc.subject.othercontinuous carbon fiber reinforced
dc.subject.otherresin matrix composites
dc.subject.otherfused deposition modeling (FDM)
dc.subject.otherformability
dc.subject.otherprojection stereolithography
dc.subject.othergeometric accuracy
dc.subject.other3D printing
dc.subject.otherfused deposition modeling
dc.subject.othertensile strength
dc.subject.otheradaptive neuron-fuzzy methods
dc.subject.otherartificial neural network
dc.subject.otherFeCrAl alloy
dc.subject.otherthin-wall cladding
dc.subject.otherLPBF
dc.subject.othersimulation
dc.subject.otheraccuracy
dc.subject.othermicrostructure
dc.subject.othernanomechanical properties
dc.subject.otherHVOF spraying
dc.subject.otherNiCoCrAlYCe coatings
dc.subject.otherindentation work
dc.subject.otherstrain rate sensitivity
dc.subject.otherdiamond coating
dc.subject.othertribological performance
dc.subject.otherseawater environment
dc.subject.otherlubricating film
dc.subject.otherultrafast laser
dc.subject.otherselective laser melting
dc.subject.otherspecial material manufacturing
dc.subject.otherpowder bed fusion
dc.subject.otherlaser manufacturing
dc.subject.otherfemtosecond laser
dc.subject.otherpicosecond laser
dc.subject.otherSe doping silicon
dc.subject.othernear-infrared
dc.subject.otherPolycaprolactone (PCL)
dc.subject.otherscaffolds structure
dc.subject.otherviscous drag force
dc.subject.othersingle layer linear grid structure
dc.subject.other55SiCr steel
dc.subject.otherspring steel
dc.subject.otherrefining slag
dc.subject.othernon-metallic inclusions
dc.subject.otherhigh temperature viscosity
dc.subject.otherlaser powder bed fusion
dc.subject.otheraluminum matrix composites
dc.subject.othermicrostructure evolution
dc.subject.othermicrohardness
dc.subject.otherlattice structures
dc.subject.otherBCCZ
dc.subject.otherspecific sensitivity analysis
dc.subject.otherimitative full stress method
dc.subject.othern/a
dc.titleAdditive Manufacturing (AM) for Advanced Materials and Structures
dc.title.alternativeGreen and Intelligent Development Trend
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-6334-3
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036563350
oapen.relation.isbn9783036563343
oapen.pages304
oapen.place.publicationBasel


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