Metalworking Processes

The modelling of structural and mechanical properties in metal thermomechanical treatment processes and technical alloys is a crucial research area, and it is currently at the center of interest of scientific centers dealing with materials engineering and plastic working processes. Performing direct...

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collection Directory of Open Access Books
description The modelling of structural and mechanical properties in metal thermomechanical treatment processes and technical alloys is a crucial research area, and it is currently at the center of interest of scientific centers dealing with materials engineering and plastic working processes. Performing direct tests under industrial conditions for the development of such processes is too costly and usually does not allow for the optimization of process parameters. Therefore, it is justified to develop methods of optimizing technological processes, ensuring the receipt of a product with the required mechanical properties based on modern methods of numerical and physical modelling. By using modern computer programs based on the finite element method, it is possible to carry out numerical simulations of technological processes. Computer simulation also enables the design and optimization of industrial processes without long-term and costly experiments in the technological line. Mathematical modelling also enables the determination of the parameters necessary for physical modelling by using metallurgical process simulators. However, numerical modelling alone does not allow for the accurate prediction of the mechanical properties and microstructure of the tested material. The use of the physical simulation methods is a supplement to mathematical modelling, which allows for solving complex problems encountered in the development of new production processes with high efficiency.
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publishDate 2025
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1652302025-08-12T08:14:45Z Metalworking Processes Laber, Konrad Tomczak, Janusz Leszczyńska-Madej, Beata Mrówka-Nowotnik, Grażyna Jabłońska, Magdalena Barbara AlZnMg alloys extrusion porthole dies metal flow die deflection extrudates dimensional accuracy physical modelling wire rod rolling variable strain state hot torsion test metallographic tests mechanical properties cold upsetting steel super austenitic stainless steel homogenization Cerium Manganese closurefoundry voids zirconium ally Forge numerical modeling forging process allowance allocation microstructure surface morphology form grinding extrusion welding Al–Mg–Zn–Cu Al7075 alloying elements EBSD GOS metallographic analysis thermovision investigation steel for cold upsetting prior martensite transformation behavior retained austenite mechanical property AlMgSi(Cu) alloys straightening dynamic deformation wire drawing steel die wear FEM tungsten carbide tribology friction M50 bearing ring cold rolling multiscale model flow behavior bimetallic composite pipe bending and forming forming defects state of the art titanium alloy static tensile test digital image correlation 3D printing parameters thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology The modelling of structural and mechanical properties in metal thermomechanical treatment processes and technical alloys is a crucial research area, and it is currently at the center of interest of scientific centers dealing with materials engineering and plastic working processes. Performing direct tests under industrial conditions for the development of such processes is too costly and usually does not allow for the optimization of process parameters. Therefore, it is justified to develop methods of optimizing technological processes, ensuring the receipt of a product with the required mechanical properties based on modern methods of numerical and physical modelling. By using modern computer programs based on the finite element method, it is possible to carry out numerical simulations of technological processes. Computer simulation also enables the design and optimization of industrial processes without long-term and costly experiments in the technological line. Mathematical modelling also enables the determination of the parameters necessary for physical modelling by using metallurgical process simulators. However, numerical modelling alone does not allow for the accurate prediction of the mechanical properties and microstructure of the tested material. The use of the physical simulation methods is a supplement to mathematical modelling, which allows for solving complex problems encountered in the development of new production processes with high efficiency. 2025-08-12T08:14:43Z 2025-08-12T08:14:43Z 2025 book ONIX_20250812T095121_9783725833702_179 9783725833702 9783725833696 https://directory.doabooks.org/handle/20.500.12854/165230 eng image/jpeg Attribution 4.0 International https://mdpi.com/books https://mdpi.com/books/pdfview/book/10608 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-3369-6 10.3390/books978-3-7258-3369-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725833702 9783725833696 288 open access
spellingShingle AlZnMg alloys
extrusion
porthole dies
metal flow
die deflection
extrudates dimensional accuracy
physical modelling
wire rod rolling
variable strain state
hot torsion test
metallographic tests
mechanical properties
cold upsetting steel
super austenitic stainless steel
homogenization
Cerium
Manganese
closurefoundry voids
zirconium ally
Forge
numerical modeling
forging process
allowance allocation
microstructure
surface morphology
form grinding
extrusion welding
Al–Mg–Zn–Cu
Al7075
alloying elements
EBSD
GOS
metallographic analysis
thermovision investigation
steel for cold upsetting
prior martensite
transformation behavior
retained austenite
mechanical property
AlMgSi(Cu) alloys
straightening
dynamic deformation
wire drawing
steel
die wear
FEM
tungsten carbide
tribology
friction
M50 bearing ring
cold rolling
multiscale model
flow behavior
bimetallic composite pipe
bending and forming
forming defects
state of the art
titanium alloy
static tensile test
digital image correlation
3D printing parameters
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Metalworking Processes
title Metalworking Processes
title_full Metalworking Processes
title_fullStr Metalworking Processes
title_full_unstemmed Metalworking Processes
title_short Metalworking Processes
title_sort metalworking processes
topic AlZnMg alloys
extrusion
porthole dies
metal flow
die deflection
extrudates dimensional accuracy
physical modelling
wire rod rolling
variable strain state
hot torsion test
metallographic tests
mechanical properties
cold upsetting steel
super austenitic stainless steel
homogenization
Cerium
Manganese
closurefoundry voids
zirconium ally
Forge
numerical modeling
forging process
allowance allocation
microstructure
surface morphology
form grinding
extrusion welding
Al–Mg–Zn–Cu
Al7075
alloying elements
EBSD
GOS
metallographic analysis
thermovision investigation
steel for cold upsetting
prior martensite
transformation behavior
retained austenite
mechanical property
AlMgSi(Cu) alloys
straightening
dynamic deformation
wire drawing
steel
die wear
FEM
tungsten carbide
tribology
friction
M50 bearing ring
cold rolling
multiscale model
flow behavior
bimetallic composite pipe
bending and forming
forming defects
state of the art
titanium alloy
static tensile test
digital image correlation
3D printing parameters
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet AlZnMg alloys
extrusion
porthole dies
metal flow
die deflection
extrudates dimensional accuracy
physical modelling
wire rod rolling
variable strain state
hot torsion test
metallographic tests
mechanical properties
cold upsetting steel
super austenitic stainless steel
homogenization
Cerium
Manganese
closurefoundry voids
zirconium ally
Forge
numerical modeling
forging process
allowance allocation
microstructure
surface morphology
form grinding
extrusion welding
Al–Mg–Zn–Cu
Al7075
alloying elements
EBSD
GOS
metallographic analysis
thermovision investigation
steel for cold upsetting
prior martensite
transformation behavior
retained austenite
mechanical property
AlMgSi(Cu) alloys
straightening
dynamic deformation
wire drawing
steel
die wear
FEM
tungsten carbide
tribology
friction
M50 bearing ring
cold rolling
multiscale model
flow behavior
bimetallic composite pipe
bending and forming
forming defects
state of the art
titanium alloy
static tensile test
digital image correlation
3D printing parameters
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20250812T095121_9783725833702_179