| Paper code |
Lastname |
Firstname |
Title of paper |
K_01 |
Liewald |
Mathias |
Robust processes in sheet metal forming in car
body manufacturing with regard to production volume |
K_02 |
Hora |
Pavel |
NUMERICAL AND EXPERIMENTAL EVALUATION OF THERMAL
DEPENDENT FLC (FLC-T) |
K_03 |
Griesbach |
Bernd |
Toolmaking for future car bodies |
O_01 |
Baeumer |
Annette |
Strain hardening behaviour of modern light-weight
car body steels |
O_02 |
Kostka |
Peter |
Numerical Simulation of Deep Drawing of
Dual-Phase HSS Steel |
O_03 |
Till |
Edwin |
Simulation Capability of Advanced High Strength
Steels |
O_04 |
Boul |
Isabelle |
Bending test and bendability of Ultra High
Strength Steels |
O_05 |
Olle |
Philipp |
Numerical Simulation of Microstructure Evolution
during the Hot Stamping Process |
O_06 |
Thomser |
Corinna |
Modelling the mechanical properties of multiphase
steels based on microstructure |
O_07 |
Voges-Schwieger |
Kathrin |
Non-Destructive Testing for the Determination of
Transformation Induced Martensite in Metastable Austenitic Steels |
O_08 |
Richter |
Helmut |
A CONTRIBUTION ON YIELD LOCI MODELING COMPARED TO
THE APPLICATION OF VARIABLE HARDENING CURVES IN FORMING SIMULATIONS |
O_09 |
Gabrielson |
Per |
Evaluation of material models and element types
for sheet metal forming of titanium |
O_10 |
Badreddine |
Houssem |
Impact of a non associative plasticity on damage
prediction in sheet metal forming |
O_11 |
Dahan |
Yoann |
PROCEDURE FOR THE EXPERIMENTAL DETERMINATION OF A
FORMING LIMIT CURVE FOR USIBOR 1500P |
O_12 |
Boudeau |
Nathalie |
TUBE BULGING : THEORETICAL AND EXPERIMENTAL
ASPECTS |
O_13 |
Miguel |
Valentín |
STUDY OF THE FRICTIONAL BEHAVIOUR OF AUSTENITIC
STAINLESS STEEL SHEET ON FLAT-DIE FRICTION TESTING |
O_14 |
Turetta |
Alberto |
INVESTIGATION OF 22MNB5 MECHANICAL AND PHASE
TRANSFORMATION BEHAVIOUR AT HIGH TEMPERATURE |
O_15 |
Narasimhan |
Krishnaiyengar |
A Critical Assessment of Various Failure Criteria
for Predicting Forming Limit Strains During Stamping |
O_16 |
Banabic |
Dorel |
The Forming Limit Band - a new tool for
increasing the robustness in the simulation of sheet metal forming processes |
O_17 |
Geoffroy |
Jean-Luc |
Adequately use FLC''s for stamping simulation |
O_18 |
Mattiasson |
Kjell |
THEORETICAL AND EXPERIMENTAL SHEET METAL FAILURE
EVALUATION |
O_19 |
Atzema |
Eisso |
Modelling Parameter Interdependence in Stochastic
Simulations of Stamping: Yield Locus |
O_20 |
Teixeira |
Pedro |
Fracture onset in sheet metal forming: a
comparison between a finite element damage model and a post-processing plastic instability
code |
O_21 |
Chen |
Fuh-Kuo |
Forming Limit Analysis of an Automobile Trunk Lid
Panel |
O_22 |
Miguel |
Valentín |
MECHANICAL AND PLASTICITY PROPERTIES CHANGING
DURING THE FORMABILITY OF STAINLESS STEEL SHEETS |
O_23 |
VanTyne |
Chester |
Effect of Strain Rate on Sheet Metal Formability |
O_24 |
Sablin |
Simon Serge |
INVESTIGATION OF A MODIFIED WEIGHT-AVERAGE-METHOD
(WAM) FOR SHEET METAL FORMING SIMULATIONS |
O_25 |
Petek |
Ales |
The determination of forming limit diagrams for
conventional forming and single point incremental sheet metal forming |
O_26 |
Bouffioux |
Chantal |
Development of an Inverse Method for
Identification of Materials Parameters in the Single Point Incremental Forming Process |
O_27 |
Narasimhan |
Krishnaiyengar |
Effect of Weld on Bursting During Tube
Hydroforming |
O_28 |
Vadillo |
Leire |
ALTERNATIVE HYDROFORMING PROCESS FOR HIGH
STRENGTH AND STAINLESS STEEL TUBES IN THE AUTOMOTIVE INDUSTRY |
O_29 |
Jimbert |
Pello |
HEMMNING OF ALUMINUM SHEET PANELS USING THE
ELECTROMAGNETIC FORMING TECHNOLOGY |
O_30 |
Jomaa |
Moez |
Numerical Analysis of Self Piercing Riveting
Process to Assemble Thin Metal Sheets |
O_31 |
Hatipoglu |
Hasan Ali |
Experimental and Numerical Investigation of the
Flexforming Process |
O_32 |
Scherer |
Daniel |
Driving as a Flexible Innovative Manufacturing
Method for Individualized Sheet Metal Products. |
O_33 |
Zadpoor |
Amir Abbas |
Springback behavior of friction stir welded
tailor-made blanks |
O_35 |
Sidhu |
Kanwar Bir |
ADJUSTMENT OF RELATIVE CLEARANCE DURING BLANKING
USING PIEZOACTUATORS AND NUMERICAL SIMULATION |
O_36 |
Ertugrul |
Metin |
A Camera based Process Control during High
Pressure Sheet Metal Forming |
O_37 |
Andersson |
Roger |
Numerical simulations and experimental
verification of the springback occurrence at a multi-step sheet metal forming process |
O_38 |
Ling |
David |
Best practice methodology for Springback
Prediction and Compensation |
O_39 |
Alves de Sousa |
Ricardo |
SIMULATION OF SHEET METAL FORMING APPLICATIONS
BASED ON SOLID-SHELL FINITE ELEMENTS |
O_40 |
van den Boogaard |
Ton |
Computational optimisation of robust sheet
forming processes |
O_41 |
Shahani |
A.R. |
Three Dimensional Finite Element Modeling of Hot
Rolling Process |
O_42 |
Ahrens |
Michael |
Consideration of interactions between the forming
machine and the forming process in a combined simulation |
O_43 |
Goesling |
Marco |
Study of the influnce of input parameters on a
springback prediction by FEA |
O_44 |
Tisza |
Miklós |
Integrated Process Simulation and Die-design in
Sheet Metal Forming |
O_45 |
Date |
Prashant |
PROCESS DESIGN METHOD BASED ON STRAIN
DISTRIBUTION FOR FORMED SHEET METAL PARTS |
O_46 |
Kolleck |
Ralf |
Concepts for the integrated product development
of body in white |
O_47 |
Czinege |
Imre |
Integrated Design Process for Sheet Metal Forming |
O_48 |
Hayashi |
Hisashi |
Elastic deformation of tools in stamping of
large-scale autobody panles |
O_49 |
Kirchfeld |
Mária |
Applicability of polymeric materials for rapid
tooling in sheet metal forming |
O_50 |
Iizuka |
Eiji |
Development of technique to measure
three-dimensional surface roughness of forming tool on the curved portion |
O_51 |
Wadman |
Boel |
Methods to decrease the cost and lead time for
sheet metal forming tools |
P_01 |
Date |
Prashant |
A Strain Distribution based Failure Criterion in
Drawing of Sheet Metal |
P_02 |
Slota |
Jan |
COMPARISON OF YIELD STRESS OF DR TINPLATES |
P_03 |
Feldmann |
Peter |
Application of strain analysis system AutoGrid
for evaluation of formability tests and strain analysis on deformed parts |
P_04 |
Menezes |
Luis |
Finite element optimization of blank shape using
NURBS surfaces |
P_05 |
Daehn |
Glenn |
Electromagnetic Metal Forming to Augment Stamping
Processes |
P_06 |
Nazaryan |
Ernest |
THE TYPE OF STRAIN ACCUMULATION AT DEEP DRAWING
OF SHEET METAL |
P_07 |
Stepanyan |
Robert |
The Effect of Work-Hardening on the Stress
Distribution In Deep Drawing of Cylindrical Cup |
P_08 |
Kovács |
Péter |
A Complex Measuring and Evaluation System for
Determination of Forming Limit Curves in Sheet Metal Forming |
P_09 |
Balogh |
Gábor |
An Intelligent Gateway between CAD Modelling and
FEM Simulation in Sheet Metal Forming |
P_10 |
Kiss |
Antal |
FEM Simulation for Diagnostic Purposes for Sheet
Metal Parts |
P_11 |
Kascak |
Lubos |
Joints of thin sheets made by forming and
resistance spot welding: evaluations of properties |
P_12 |
Popescu |
Gabriela |
HYBRID COMPOSITE MATERIALS FOR AUTOMOTIVE
INDUSTRY |
P_13 |
Hingole |
Rahul |
Development of Web Enableded Expert System for
Rolling Load Prediction in 20 Hi Sendzimir Mill |
P_14 |
Krállics |
György |
Manufacturing of ultra fine grained sheet |
P_15 |
Guida |
Roberto |
Ferritic Stainless Steel for Deep Drawing
Applications |
P_16 |
Ruoppa |
Raimo |
Influence of Cold Rolling Reduction and Strain
Ageing on Forming Properties of Some Austenitic Stainless Steels |
P_17 |
Sobotová |
Lydia |
ANALYSIS OF REASONS OF DEFECT CREATION IN DEEP
DRAWING PROCESS OF LARGE DRAWN PIECES |
P_18 |
Stachowicz |
Feliks |
ANN application for determination of frictional
characteristics of brass sheet metal |
P_19 |
Forstner |
Kurt |
Heat transfer during press hardening |
P_20 |
Ahrens |
Michael |
Monitoring of Profiled Roller Guide Rails used as
Ram Guides for Metal-Forming Machines by Determination of the Load |
| P_21 |
Moshfegh |
Ramin |
A new approach to estimate the admissible process
parameter variations and perform sensitivity analysis within sheet metal forming
application |
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