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035   $a(CKB)4100000010106047
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/48083
035   $a(ScCtBLL)8c4363fb-2698-4bf7-bd55-b3f680bebe18
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100   $a20250203i20192019  uu 
101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 00$aFriction Stir Welding and Processing in Alloy Manufacturing$fCarlos Agelet de Saracibar
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
210  1$aBasel, Switzerland :$cMDPI,$d2019.
215   $a1 electronic resource (142 p.)
311 08$a9783039212071 
311 08$a3039212079 
330   $aFriction stir welding (FSW) is considered to be the most significant development in metal joining in decades and, in addition, is a "green" technology due to its energy efficiency, environmental friendliness, and versatility. This process offers a number of advantages over conventional joining processes. Furthermore, because welding occurs via the deformation of material at temperatures below the melting temperature, many problems commonly associated with joining of dissimilar alloys can be avoided, and thus, high-quality welds are produced. Due to this fact, FSW has been widely used in different industrial applications where metallurgical characteristics should be retained, such as in the aeronautic, naval, and automotive industries. The computational modeling of FSW processes is an extremely challenging task due to the highly nonlinear and coupled nature of the physical problem and the numerical issues that need to be properly addressed. This is why the numerical simulation of FSW processes has been a very active research field in the last few decades. Despite the complexity of the physical problem and its numerical simulation, significant advances in the field have been achieved as a result of interdisciplinary research on related fields of computational mechanics, constitutive modeling, materials characterization, mathematical analysis, and numerical methods. This book collects some of the last developments in the fields of FSW, friction stir spot welding, and friction stir processing, written by well-known researchers who have contributed significantly to advances in the computational modeling, numerical simulation, and material characterization of those processes.
606   $aChemistry$2bicssc
610   $amicrostructure
610   $amaterial flow
610   $astainless steel
610   $amaterials position
610   $afriction stir processing
610   $asurface composites
610   $amaterial orientation
610   $ahigh nitrogen steel
610   $aforce-deflection model
610   $aFSW
610   $amechanical properties
610   $aFSW process
610   $adissimilar metal welding
610   $alognormal distribution
610   $agrain orientation
610   $adissimilar joints
610   $afriction-stir welding
610   $apin shapes
610   $adeflection compensation control
610   $aplunge depth control
610   $aprocess analysis
610   $ahigh-temperature softening materials
610   $aAl/Fe dissimilar joining
610   $apost-weld heat treatment
610   $aaluminum alloy
610   $aabnormal grain growth
610   $aparticle distribution
610   $aintermetallic compounds
610   $anon-equilibrium segregation
610   $amicrostructure analysis
610   $atilt angle
610   $aVickers microhardness
610   $athe rotational speeds
610   $aadaptive control
610   $aoffset position control
610   $afriction stir spot welding
610   $afriction
610   $aplunge depth
610   $amechanical strength
610   $amechanical behaviour
610   $adissimilar welded joints
610   $afriction stir welding
610   $aFe-containing constituents
610   $ahigh rotation speed friction stir welding
615  7$aChemistry
700   $ade Saracibar$b Carlos Agelet$01787081
801  0$bScCtBLL
801  1$bScCtBLL
906   $aBOOK
912   $a9910367569903321
996   $aFriction Stir Welding and Processing in Alloy Manufacturing$94319702
997   $aUNINA