Models and modelling for process limits in metal forming
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Lukasz Madej | Brad L. Kinsey | Alexander Brosius | Peter Groche | Jun Yanagimoto | Wolfram Volk | Andrea Ghiotti | Junying Min | Mathias Liewald | B. Kinsey | J. Min | W. Volk | A. Ghiotti | M. Liewald | A. Brosius | P. Groche | J. Yanagimoto | L. Madej
[1] Marion Merklein,et al. Time Dependent FLC Determination Comparison of Different Algorithms to Detect the Onset of Unstable Necking before Fracture , 2013 .
[2] Paul W. Cleary,et al. Modelling of metal forging using SPH , 2012 .
[3] Nikolay Avgoustinov,et al. Modelling in Mechanical Engineering and Mechatronics: Towards Autonomous Intelligent Software Models , 2007 .
[4] Paulo A.F. Martins,et al. Characterization of fracture loci in metal forming , 2014 .
[6] Morten Eriksen. The influence of die geometry on tool wear in deep drawing , 1997 .
[7] Armin Lechler,et al. On the Development of Transformable Sheet Metal Forming Tools , 2013 .
[8] S. Solla,et al. Consistent and Minimal Springback Using a Stepped Binder Force Trajectory and Neural Network Control , 2000 .
[9] Peter Groche,et al. Environmentally benign tribo-systems for metal forming , 2010 .
[10] Julian M. Allwood,et al. Closed-loop control of product properties in metal forming: A review and prospectus , 2014 .
[11] J. Lemaître. A CONTINUOUS DAMAGE MECHANICS MODEL FOR DUCTILE FRACTURE , 1985 .
[12] A. E. Tekkaya,et al. Influence of Different Yield Loci on Failure Prediction with Damage Models , 2017 .
[13] C. C. Chen,et al. Ductile Fracture in Axisymmetric Extrusion and Drawing—Part 2: Workability in Extrusion and Drawing , 1979 .
[14] J. Hůlka,et al. Calibration of ductile fracture criteria at negative stress triaxiality , 2016 .
[15] Gregory J. Hancock,et al. A theoretical investigation of the column behaviour of cold-formed square hollow sections , 1993 .
[16] G. Box. Robustness in the Strategy of Scientific Model Building. , 1979 .
[17] Alexander Brosius,et al. Lubricant free deep drawing process by macro structured tools , 2016 .
[18] E Hagan,et al. Analysis of surface roughness for parts formed by computer numerical controlled incremental forming , 2004 .
[19] A. Elsen,et al. Adhesive wear in deep drawing of aluminum sheets , 2008 .
[20] Gary F. Dargush,et al. Contact modeling in boundary element analysis including the simulation of thermomechanical wear , 2016 .
[21] Frédéric Barlat,et al. The effect of plastic anisotropy on compressive instability in sheet metal forming , 2000 .
[22] Jeong Whan Yoon,et al. Suppression of necking in incremental sheet forming , 2014 .
[23] John E. Carsley,et al. Comparison of DIC Methods of Determining Forming Limit Strains , 2017 .
[24] W. Volk,et al. Prediction of formability for non-linear deformation history using generalized forming limit concept (GFLC) , 2013 .
[25] Hartmut Hoffmann,et al. Simulation of wear on sheet metal forming tools—An energy approach , 2008 .
[26] Z. Gronostajski,et al. The main aspects of precision forging , 2008 .
[27] W. Wieser,et al. Buckling phenomena related to rolling and levelling of sheet metal , 2000 .
[28] C. V. Nielsen,et al. Failure by fracture in bulk metal forming , 2015 .
[29] Brad L. Kinsey,et al. Wrinkling behavior of laminated steel sheets , 2004 .
[30] Jian Cao,et al. Experimental Implementation of Neural Network Springback Control for Sheet Metal Forming , 2003 .
[31] J. Rice,et al. A note on some features of the theory of localization of deformation , 1980 .
[32] A. Atkins. Fracture in forming , 1996 .
[33] Peter Groche,et al. Springback in stringer sheet stretch forming , 2013 .
[34] Trong-Son Cao,et al. Models for ductile damage and fracture prediction in cold bulk metal forming processes: a review , 2017 .
[35] Jian Cao,et al. Buckling of sheet metals in contact with tool surfaces , 2007 .
[36] R. Hill,et al. On discontinuous plastic states, with special reference to localized necking in thin sheets , 1952 .
[37] Laurent Tabourot,et al. Evaluation of springback under the effect of holding force and die radius in a stretch bending test , 2012 .
[38] Yu Yan,et al. Investigations of fracture on DP980 steel sheet in roll forming process , 2016 .
[39] Otto Mohr,et al. Abhandlungen aus dem Gebiete der technischen Mechanik , 1906 .
[40] Jian Cao,et al. Prediction of forming limit curves using an anisotropic yield function with prestrain induced backstress , 2002 .
[41] Pascal Hirmer,et al. Towards a Rule-based Manufacturing Integration Assistant☆ , 2016 .
[42] Joost Duflou,et al. Asymmetric single point incremental forming of sheet metal , 2005 .
[43] S. Timoshenko,et al. THEORY OF PLATES AND SHELLS , 1959 .
[44] P. Skubisz,et al. Elaboration of ductile fracture criteria based on punching forgeability test , 2016 .
[45] K. Manisekar,et al. Effect of friction on barrelling in square and rectangular billets of aluminium during cold upset forging , 2007 .
[46] Stefania Bruschi,et al. Springback measurement in three roll push bending process of hollow structural sections , 2017 .
[47] Soundar R. T. Kumara,et al. Cyber-physical systems in manufacturing , 2016 .
[48] P. Krakhmalev,et al. Galling resistance and wear mechanisms for cold-work tool steels in lubricated sliding against high strength stainless steel sheets , 2012 .
[49] G. Totten,et al. Handbook of Residual Stress and Deformation of Steel , 2001 .
[50] M. Carboni,et al. Finite element approach toward an advanced understanding of deep rolling induced residual stresses, and an application to railway axles , 2015 .
[51] G. Zheng,et al. A mixed model reduction method for preserving selected physical information , 2017 .
[52] S. C. Vettivel,et al. Optimizing wear behavior of TiN coated SS 316L against Ti alloy using Response Surface Methodology , 2015 .
[53] R. Hambli,et al. Statistical investigation of die wear in metal extrusion processes , 2006 .
[54] Manfred Geiger,et al. Time dependent determination of forming limit diagrams , 2010 .
[55] S. Pellegrino,et al. Wrinkled membranes III: numerical simulations , 2006 .
[56] W. Volk,et al. Experimental Validation of Detecting Surface Deflections on Sheet Metal Parts with LS-Dyna , 2017 .
[57] Hartmut Hoffmann,et al. Failure prediction for nonlinear strain paths in sheet metal forming , 2012 .
[58] Hubert W. Schreier,et al. Image Correlation for Shape, Motion and Deformation Measurements: Basic Concepts,Theory and Applications , 2009 .
[59] Jacques Besson,et al. Continuum Models of Ductile Fracture: A Review , 2010 .
[60] T. Wierzbicki,et al. On fracture locus in the equivalent strain and stress triaxiality space , 2004 .
[61] H. W. Swift. Plastic instability under plane stress , 1952 .
[62] Benjamin D. Leonard,et al. Rough surface and damage mechanics wear modeling using the combined finite-discrete element method , 2013 .
[63] J. Paulo Davim,et al. Surface Texture Characterization and Evaluation Related to Machining , 2010 .
[64] Hyggo Oliveira de Almeida,et al. An admission control mechanism for dynamic QoS-enabled opportunistic routing protocols , 2015, EURASIP J. Wirel. Commun. Netw..
[65] A. K. Tieu,et al. A study of abrasive wear on high speed steel surface in hot rolling by Discrete Element Method , 2017 .
[66] Thomas B. Stoughton,et al. Stretch-Bend Forming Limits of 1008 AK Steel , 2003 .
[67] Joe H. Chow,et al. Applied mathematics for restructured electric power systems : optimization, control, and computational intelligence , 2005 .
[68] Mathieu Ritou,et al. Phenomenological model of preloaded spindle behavior at high speed , 2017 .
[70] Harit K. Raval,et al. Analytical and empirical modeling of top roller position for three-roller cylindrical bending of plates and its experimental verification , 2008 .
[71] Jian Cao,et al. Exergy analysis of incremental sheet forming , 2012, Prod. Eng..
[72] A. Needleman,et al. Analysis of the cup-cone fracture in a round tensile bar , 1984 .
[73] J. H. Vogel,et al. The automated measurement of strains from three-dimensional deformed surfaces , 1990 .
[74] D. M. Davydov,et al. Detection and measurement of surface cracks by the ultrasonic method for evaluating fatigue failure of metals , 2011 .
[75] Witold Pedrycz,et al. Design of rule-based models through information granulation , 2016, Expert Syst. Appl..
[76] Dirk Mohr,et al. Calibration of Stress-triaxiality Dependent Crack Formation Criteria: A New Hybrid Experimental–Numerical Method , 2007 .
[77] Xiandong Liu,et al. Research on the stamping residual stress of steel wheel disc and its effect on the fatigue life of wheel , 2016 .
[78] Syed H. Masood,et al. Investigation of die radius arc profile on wear behaviour in sheet metal processing of advanced high strength steels , 2011 .
[79] Marion Merklein,et al. Bendability of advanced high strength steels—A new evaluation procedure , 2013 .
[80] A. Finzi,et al. A hybrid approach to the development of a multilayer neural network for wear and fatigue prediction in metal forming , 2007 .
[81] B. Rolfe,et al. The effect of sliding speed on the wear of steel-tool steel pairs , 2016 .
[82] Paulo A.F. Martins,et al. Fracture toughness and failure limits in sheet metal forming , 2016 .
[83] Bernd-Arno Behrens,et al. Finite element analysis of die wear in hot forging processes , 2008 .
[84] H. Koslowski. Operational Limits and Limiting Instabilities in Tokamak Machines , 2004 .
[85] Mathias Liewald,et al. Investigation on the effect of curvature on forming limit prediction for aluminium sheet alloys , 2009 .
[86] Asko Riitahuhta,et al. Systematic Search and Ranking of Physical Contradictions Using Graph Theory Principles: Toward a Systematic Analysis of Design Strategies and their Impacts , 2015 .
[87] F. A. McClintock,et al. A Criterion for Ductile Fracture by the Growth of Holes , 1968 .
[88] Jean-Baptiste Leblond,et al. Approximate models for ductile metals containing non-spherical voids—Case of axisymmetric prolate ellipsoidal cavities , 1993 .
[89] Wenyi Yan,et al. Contact pressure evolution and its relation to wear in sheet metal forming , 2008 .
[90] Massimiliano Barletta,et al. Springback control in sheet metal bending by laser-assisted bending: Experimental analysis, empirical and neural network modelling , 2011 .
[91] John W. Hutchinson,et al. Calibration procedures for a computational model of ductile fracture , 2010, Engineering Fracture Mechanics.
[92] Luen Chow Chan,et al. Forming limit diagrams of strain-rate-dependent sheet metals , 2009 .
[93] Imad Barsoum,et al. Rupture mechanisms in combined tension and shear : Experiments , 2007 .
[94] M. Merklein,et al. Analysis of the bending effects and the biaxial pre-straining in sheet metal stretch forming processes for the determination of the forming limits , 2018 .
[95] Nicola Bonora,et al. Identification and measurement of ductile damage parameters , 1999 .
[96] Jin-Rae Cho. Hierarchical modeling and its numerical implementation for layered thin elastic structures , 2017 .
[97] Paradigm Change: Alternate Approaches to Constitutive and Necking Models for Sheet Metal Forming , 2011 .
[98] Frank L. Lewis,et al. Intelligent Fault Diagnosis and Prognosis for Engineering Systems , 2006 .
[99] S. M. Byon,et al. A semi-analytical model for predicting the wear contour in rod rolling process , 2007 .
[100] Sami Kara,et al. Toward integrated product and process life cycle planning—An environmental perspective , 2012 .
[101] Michael Hoffmann,et al. A multi-sensor approach for failure identification during production enabled by parallel data monitoring , 2018 .
[102] Wenyi Yan,et al. Contact pressure evolution at the die radius in sheet metal stamping , 2009 .
[103] Suwat Jirathearanat,et al. Adaptive FEM Simulation for Tube Hydroforming: a Geometry-Based Approach for Wrinkle Detection , 2001 .
[104] C. Dong,et al. Investigation and prediction of tearing failure during extrusion based on a modified shear damage model , 2017 .
[105] Peter Groche,et al. Metal forming beyond shaping: Predicting and setting product properties , 2015 .
[106] A. Gurson. Continuum Theory of Ductile Rupture by Void Nucleation and Growth: Part I—Yield Criteria and Flow Rules for Porous Ductile Media , 1977 .
[107] A. P. Karafillis,et al. Accommodation of Springback Error in Channel Forming Using Active Binder Force Control: Numerical Simulations and Experiments , 1996 .
[108] Beom-Soo Kang,et al. Reliability-based robust process optimization of multi-point dieless forming for product defect reduction , 2017 .
[109] H. Huh,et al. Extension of a shear-controlled ductile fracture model considering the stress triaxiality and the Lode parameter , 2013 .
[110] Bryan A. Webler,et al. On the Extension of the Gurson-Type Porous Plasticity Models for Prediction of Ductile Fracture under Shear-Dominated Conditions , 2014 .
[111] Jon Tømmerås Selvik,et al. On the meaning of accuracy and precision in a risk analysis context , 2017 .
[112] Stephane J. Marcadet,et al. Micromechanically-motivated phenomenological Hosford–Coulomb model for predicting ductile fracture initiation at low stress triaxialities , 2015 .
[113] Julian M. Allwood,et al. Generalised forming limit diagrams showing increased forming limits with non-planar stress states , 2009 .
[114] Sumathi Poobal,et al. Crack detection using image processing: A critical review and analysis , 2017, Alexandria Engineering Journal.
[115] Mathias Liewald,et al. Assessment of forming limit stress curves as failure criterion for non-proportional forming processes , 2013, Prod. Eng..
[116] T. Skåre,et al. Wear and frictional behaviour of high strength steel in stamping monitored by acoustic emission technique , 2003 .
[117] Alf Andersson,et al. Evaluation and Visualization of Surface Defects — a Numerical and Experimental Study on Sheet‐Metal Parts , 2005 .
[118] Stefania Bruschi,et al. Tribological behaviour of DLC coatings for sheet metal forming tools , 2011 .
[119] Baiyan He,et al. Measuring forming limit strains with digital image correlation analysis , 2014 .
[120] Wing Kam Liu,et al. Adaptive enrichment meshfree simulation and experiment on buckling and post-buckling analysis in sheet metal forming , 2005 .
[121] Henrik Madsen,et al. Concepts of Hydrologic Modeling , 2006 .
[122] Leonhard E. Bernold,et al. Neural Network Model for the Automated Control of Springback in Rebars , 1996, IEEE Expert.
[123] Ridha Hambli,et al. Blanking tool wear modeling using the finite element method , 2001 .
[124] Taylan Altan,et al. Mathematical modeling of plane-strain bending of sheet and plate , 1993 .
[125] J. Hol. Multi-scale friction modeling for sheet metal forming , 2010 .
[126] Klaus Zeman,et al. A novel model-based approach for the prediction of wear in cold rolling , 2017 .
[128] Julian M. Allwood,et al. Closed-loop feedback control of product properties in flexible metal forming processes with mobile tools , 2009 .
[129] P. Kustra,et al. The Multi-Scale FEM Simulation of Wire Fracture during Drawing of Perlitic Steel , 2008 .
[130] Giovanni Straffelini,et al. Thermal fatigue resistance of plasma duplex-treated tool steel , 2001 .
[131] Peter Groche,et al. A framework illustrating decision-making in operator assistance systems and its application to a roll forming process , 2018 .
[132] Marek Hawryluk,et al. Analysis of forging defects for selected industrial die forging processes , 2016 .
[133] Bernard Rolfe,et al. Statistical analysis of finite element modeling in sheet metal forming and springback analysis , 2008 .
[134] M. Gologanu,et al. Advanced Models for the Prediction of Forming Limit Curves , 2016 .
[135] James R. Rice,et al. Localized necking in thin sheets , 1975 .
[136] Mohammad Reza Khosravani,et al. Fracture mechanics and mechanical fault detection by artificial intelligence methods: A review , 2017 .
[137] A. Needleman,et al. Sheet Necking—I. Validity of Plane Stress Assumptions of the Long-Wavelength Approximation , 1978 .
[138] Bart De Schutter,et al. Models for traffic control , 2002 .
[139] Yan Wang,et al. A review on remanufacture of dies and moulds , 2014 .
[140] Marcello Pellicciari,et al. Interactive simulation-based-training tools for manufacturing systems operators: an industrial case study , 2017 .
[141] J. Min,et al. Compensation for process-dependent effects in the determination of localized necking limits , 2016 .
[143] V. Chawla,et al. Failure of Hot Forging Dies –An Updated Perspective , 2017 .
[144] Young-Suk Kim,et al. Study on wrinkling limit diagram of anisotropic sheet metals , 2000 .
[145] D. Bigoni,et al. On strain localization analysis of elastoplastic materials at finite strains , 1993 .
[146] M. Perzyk,et al. Data mining in manufacturing: Significance analysis of process parameters , 2008 .
[147] Jian Cao,et al. Wrinkling Limit in Tube Bending , 2000 .
[148] J. Archard. Contact and Rubbing of Flat Surfaces , 1953 .
[149] Rajiv Shivpuri,et al. Computer modeling and prediction of thermal fatigue cracking in die-casting tooling , 2004 .
[150] Toshihiko Kuwabara,et al. Advances in experiments on metal sheets and tubes in support of constitutive modeling and forming simulations , 2007 .
[151] Nima Khakzad,et al. Safety analysis in process facilities: Comparison of fault tree and Bayesian network approaches , 2011, Reliab. Eng. Syst. Saf..
[152] W. Volk,et al. On the influence of Seebeck coefficients on adhesive tool wear during sheet metal processing , 2017 .
[153] Peter Groche,et al. Method for the Optimization of Forming Presses for the Manufacturing of Micro Parts , 2004 .
[154] G. Ramírez,et al. Investigation into adhesive wear of PVD coated and uncoated hot stamping production tools , 2013 .
[155] M. E. Scholting,et al. A new method for predicting Forming Limit Curves from mechanical properties , 2013 .
[156] Kim J.R. Rasmussen,et al. Modelling and probabilistic study of the residual stress of cold-formed hollow steel sections , 2017 .
[157] Paul A. Meehan,et al. Investigation and optimization of deformation energy and geometric accuracy in the incremental sheet forming process using response surface methodology , 2015 .
[158] Ezio Bartocci,et al. Toward real-time simulation of cardiac dynamics , 2011, CMSB.
[159] Herbert Baaser,et al. Remarks on the Use of Continuum Damage Models and on the Limitations of their Applicability in Ductile Fracture Mechanics , 2003 .
[160] K. J. Stout,et al. Three-Dimensional Surface Topography , 2000 .
[161] Myoung-Gyu Lee,et al. Advanced Issues in springback , 2013 .
[162] D. M. Tracey,et al. On the ductile enlargement of voids in triaxial stress fields , 1969 .
[163] C. J. Tyne,et al. The tempering parameter for evaluating softening of hot and warm forging die steels , 2013 .
[164] Bernd-Arno Behrens,et al. Handbuch Umformtechnik: Grundlagen, Technologien, Maschinen , 2016 .
[165] Wolfgang Müschenborn,et al. Einfluß des Formänderungsweges auf die Grenzformänderungen des Feinblechs , 1975 .
[166] Aldo Attanasio,et al. Asymmetric two points incremental forming: Improving surface quality and geometric accuracy by tool path optimization , 2008 .
[167] D. K. Williams,et al. A novel inspection method for determining the cosmetic quality of automotive skin panels , 2013 .
[168] Jeong Whan Yoon,et al. Path independent forming limits in strain and stress spaces , 2012 .
[169] Horst Meier,et al. Impact of superimposed pressure on dieless incremental sheet metal forming with two moving tools , 2011 .
[170] John K. Gilbert,et al. The use of analogue models by students of chemistry at higher education level , 1991 .
[171] David F. Treagust,et al. A typology of school science models , 2000 .
[172] Ekkard Brinksmeier,et al. Manufacturing of advanced smart tooling for metal forming , 2019, CIRP Annals.
[173] Jorge Santolaria,et al. Computational model for the control, performance evaluation, and calibration of a parallel mechanism , 2013 .
[174] Jack P. C. Kleijnen,et al. Validation of models: statistical techniques and data availability , 1999, WSC '99.
[175] Isik Kerim,et al. Material Characterization and Validation Studies for Modeling Ductile Damage during Deep Drawing , 2017 .
[176] Dorel Banabic,et al. Development of a new procedure for the experimental determination of the Forming Limit Curves , 2013 .
[177] P. Blau. How common is the steady-state? The implications of wear transitions for materials selection and design , 2015 .
[178] P. Bouchard,et al. Comparison of reduction ability between multi-stage cold drawing and rolling of stainless steel wire – Experimental and numerical investigations of damage , 2015 .
[179] Y. J. Yan,et al. Electric potential detection for structural surface crack using coating sensors , 2007 .
[180] Fei Tao,et al. Digital twin-driven product design, manufacturing and service with big data , 2017, The International Journal of Advanced Manufacturing Technology.
[181] R. Kuziak,et al. Development and validation of multi scale failure model for dual phase steels , 2017 .
[182] E. Manios,et al. A new cracks detection device for magnetic steels , 2014 .
[183] S. Shima,et al. Criteria for ductile fracture and their applications , 1980 .
[184] Lukasz Madej,et al. Computational Materials Engineering: Achieving High Accuracy and Efficiency in Metals Processing Simulations , 2015 .
[185] Hongliang Pan,et al. The initiation and propagation of edge cracks of silicon steel during tandem cold rolling process based on the Gurson–Tvergaard–Needleman damage model , 2013 .
[186] Berthold Scholtes,et al. Cyclic stress–strain behavior and damage of tool steel AISI H11 under isothermal and thermal fatigue conditions , 2010 .
[187] J. Jerier,et al. Normal contact between rough surfaces by the Discrete Element Method , 2012 .
[188] Georg Henzold. Geometrical Dimensioning and Tolerancing for Design, Manufacturing and Inspection: A Handbook for Geometrical Product Specification using ISO and ASME standards , 2006 .
[189] C. Tasan,et al. Strain localization and damage in dual phase steels investigated by coupled in-situ deformation experiments and crystal plasticity simulations , 2014 .
[190] Michael H. Moys,et al. Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part II. Industrial case study , 2005 .
[191] D. Guines,et al. Investigations of the effect of strain path changes on forming limit curves using an in-plane biaxial tensile test , 2015 .
[192] J. Rosendahl,et al. Klassifikation von Modellen , 2010 .
[193] E. Oñate,et al. Direct computation of instability points for contact problems , 2003 .
[194] Z. Marciniak,et al. Limit strains in the processes of stretch-forming sheet metal , 1967 .
[195] Fusahito Yoshida,et al. A model of large-strain cyclic plasticity describing the Bauschinger effect and workhardening stagnation , 2002 .
[196] Ricardo H. C. Takahashi,et al. Multi-objective Decision in Machine Learning , 2017 .
[197] S. L. Roux,et al. Experimental investigation of the tribological behavior and wear mechanisms of tool steel grades in hot stamping of a high-strength boron steel , 2012 .
[198] Thaweepat Buranathiti,et al. An effective analytical model for springback prediction in straight flanging processes , 2004 .
[199] P. Groche,et al. Load-dependent wear in sheet metal forming , 2019, Wear.
[200] Sture Hogmark,et al. Thermal fatigue cracking of surface engineered hot work tool steels , 2005 .
[201] F. Barlat,et al. An extended Modified Maximum Force Criterion for the prediction of localized necking under non-proportional loading , 2015 .
[202] Akhtar S. Khan,et al. A new approach for ductile fracture prediction on Al 2024-T351 alloy , 2012 .
[203] John A. Williams,et al. Wear modelling: analytical, computational and mapping: a continuum mechanics approach , 1999 .
[204] Sergey Fedorovich Golovashchenko,et al. Two-step method of forming complex shapes from sheet metal , 2011 .
[205] Dirk Mohr,et al. Optimized butterfly specimen for the fracture testing of sheet materials under combined normal and shear loading , 2011 .
[206] Hilko van der Voet,et al. Comparing the predictive accuracy of models using a simple randomization test , 1994 .
[207] Yuanli Bai,et al. Statistical analysis of ductile fracture properties of an aluminum casting , 2008 .
[208] A. Kailer,et al. A wear model for silicon nitride in dry sliding contact against a nickel-base alloy , 2017 .
[209] N. Bay,et al. Friction coefficients in cold forging: A global perspective , 2018 .
[210] Marek Hawryluk,et al. Review of selected methods of increasing the life of forging tools in hot die forging processes , 2016 .
[211] Nicolas Fillot,et al. Modelling third body flows with a discrete element method , 2005 .
[212] J. Min,et al. An improved curvature method of detecting the onset of localized necking in Marciniak tests and its extension to Nakazima tests , 2017 .
[213] Jacques Besson,et al. An extension of the Green and Gurson models to kinematic hardening , 2003 .
[214] W. Volk,et al. Introduction to residual stresses in production technology , 2019, Production Engineering.
[215] J. Min,et al. Experimental and theoretical investigation on the role of friction in Nakazima testing , 2017 .
[216] Jian Cao,et al. On the prediction of side-wall wrinkling in sheet metal forming processes , 2000 .
[217] Mathias Liewald,et al. Closed-loop control of product properties in metal forming , 2016 .
[218] Stefano Tarantola,et al. Sensitivity Analysis in Practice: A Guide to Assessing Scientific Models , 2004 .
[219] Eberhard Abele,et al. Environmentally-friendly product development : methods and tools , 2005 .
[220] Michel A. Reniers,et al. Model-based engineering of supervisory controllers for cyber-physical systems , 2017 .
[221] E. Siebel,et al. Tiefziehen : Forschungsarbeiten auf dem Gebiete des Tiefziehens im Auftrage der Forschungsgesellschaft Blechverarbeitung , 1955 .
[222] Bernard Rolfe,et al. Effect of residual stress on the bending of aluminium , 2012 .
[223] Semi analytical fretting wear simulation including wear debris , 2017 .
[224] Thomas B. Stoughton,et al. A general forming limit criterion for sheet metal forming , 2000 .
[225] Jenn Terng Gau,et al. Springback control of sheet metal air bending process , 2008 .
[226] Minsheng Huang,et al. Scale-dependent plasticity potential of porous materials and void growth , 2003 .
[227] M. Barnett,et al. Extrusion Limits of Magnesium Alloys , 2007 .
[228] Neelesh Kumar Jain,et al. Causes of failure and repairing options for dies and molds: A review , 2013 .
[229] P. Martins,et al. Formability limits by wrinkling in sheet metal forming , 2018 .
[230] Jeong Whan Yoon,et al. Investigation into the wrinkling behaviour of thin sheets in the cylindrical cup deep drawing process using bifurcation theory , 2003 .
[231] Morten Rikard Jensen,et al. Applying the finite-element method for determination of tool wear in conventional deep-drawing , 1998 .
[232] Balázs Kövesdi,et al. Residual stress measurements on cold-formed HSS hollow section columns , 2017 .
[233] Ian T. Cameron,et al. Process Modelling and Model Analysis , 2013 .
[234] Enming Miao,et al. Robustness of thermal error compensation modeling models of CNC machine tools , 2013 .