A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations

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MOLE, Nikolaj ;CAFUTA, Gašper ;ŠTOK, Boris .
A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 59, n.4, p. 237-250, june 2018. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/>. Date accessed: 21 nov. 2024. 
doi:http://dx.doi.org/10.5545/sv-jme.2012.989.
Mole, N., Cafuta, G., & Štok, B.
(2013).
A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations.
Strojniški vestnik - Journal of Mechanical Engineering, 59(4), 237-250.
doi:http://dx.doi.org/10.5545/sv-jme.2012.989
@article{sv-jmesv-jme.2012.989,
	author = {Nikolaj  Mole and Gašper  Cafuta and Boris  Štok},
	title = {A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {59},
	number = {4},
	year = {2013},
	keywords = {Sheet metal forming; Blank shape optimisation; Springback compensation},
	abstract = {The main benefit in using optimally shaped blanks in sheet metal forming is in maximizing the efficiency of the forming process and, since there is no need for additional cutting operations after the finished forming operation, in substantial reduction of the overall production cost. The paper presents a numerical method for optimal blank shape determination which is suitable in various sheet metal forming applications. The optimal blank shape is determined in iterative way so that the edge geometry of the formed product fits its reference geometry as close as possible. The iterative process starts at blank shape from which the product is produced with its edge fitting its reference geometry just approximately. In subsequent iterations the blank shape is continuously improved in accordance with the developed optimisation method. In order to determine the product edge geometry resulting from the current blank shape, a computer simulation of the forming process and the springback is performed in each iteration. Since its effectiveness highly depends on the quality and physical objectivity of the computer simulation, the developed numerical blank shape optimisation procedure has been validated also experimentally by considering forming of a product with rather complex edge geometry as the case study.},
	issn = {0039-2480},	pages = {237-250},	doi = {10.5545/sv-jme.2012.989},
	url = {https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/}
}
Mole, N.,Cafuta, G.,Štok, B.
2013 June 59. A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 59:4
%A Mole, Nikolaj 
%A Cafuta, Gašper 
%A Štok, Boris 
%D 2013
%T A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations
%B 2013
%9 Sheet metal forming; Blank shape optimisation; Springback compensation
%! A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations
%K Sheet metal forming; Blank shape optimisation; Springback compensation
%X The main benefit in using optimally shaped blanks in sheet metal forming is in maximizing the efficiency of the forming process and, since there is no need for additional cutting operations after the finished forming operation, in substantial reduction of the overall production cost. The paper presents a numerical method for optimal blank shape determination which is suitable in various sheet metal forming applications. The optimal blank shape is determined in iterative way so that the edge geometry of the formed product fits its reference geometry as close as possible. The iterative process starts at blank shape from which the product is produced with its edge fitting its reference geometry just approximately. In subsequent iterations the blank shape is continuously improved in accordance with the developed optimisation method. In order to determine the product edge geometry resulting from the current blank shape, a computer simulation of the forming process and the springback is performed in each iteration. Since its effectiveness highly depends on the quality and physical objectivity of the computer simulation, the developed numerical blank shape optimisation procedure has been validated also experimentally by considering forming of a product with rather complex edge geometry as the case study.
%U https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/
%0 Journal Article
%R 10.5545/sv-jme.2012.989
%& 237
%P 14
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 59
%N 4
%@ 0039-2480
%8 2018-06-28
%7 2018-06-28
Mole, Nikolaj, Gašper  Cafuta, & Boris  Štok.
"A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations." Strojniški vestnik - Journal of Mechanical Engineering [Online], 59.4 (2013): 237-250. Web.  21 Nov. 2024
TY  - JOUR
AU  - Mole, Nikolaj 
AU  - Cafuta, Gašper 
AU  - Štok, Boris 
PY  - 2013
TI  - A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 10.5545/sv-jme.2012.989
KW  - Sheet metal forming; Blank shape optimisation; Springback compensation
N2  - The main benefit in using optimally shaped blanks in sheet metal forming is in maximizing the efficiency of the forming process and, since there is no need for additional cutting operations after the finished forming operation, in substantial reduction of the overall production cost. The paper presents a numerical method for optimal blank shape determination which is suitable in various sheet metal forming applications. The optimal blank shape is determined in iterative way so that the edge geometry of the formed product fits its reference geometry as close as possible. The iterative process starts at blank shape from which the product is produced with its edge fitting its reference geometry just approximately. In subsequent iterations the blank shape is continuously improved in accordance with the developed optimisation method. In order to determine the product edge geometry resulting from the current blank shape, a computer simulation of the forming process and the springback is performed in each iteration. Since its effectiveness highly depends on the quality and physical objectivity of the computer simulation, the developed numerical blank shape optimisation procedure has been validated also experimentally by considering forming of a product with rather complex edge geometry as the case study.
UR  - https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/
@article{{sv-jme}{sv-jme.2012.989},
	author = {Mole, N., Cafuta, G., Štok, B.},
	title = {A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {59},
	number = {4},
	year = {2013},
	doi = {10.5545/sv-jme.2012.989},
	url = {https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/}
}
TY  - JOUR
AU  - Mole, Nikolaj 
AU  - Cafuta, Gašper 
AU  - Štok, Boris 
PY  - 2018/06/28
TI  - A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 59, No 4 (2013): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 10.5545/sv-jme.2012.989
KW  - Sheet metal forming, Blank shape optimisation, Springback compensation
N2  - The main benefit in using optimally shaped blanks in sheet metal forming is in maximizing the efficiency of the forming process and, since there is no need for additional cutting operations after the finished forming operation, in substantial reduction of the overall production cost. The paper presents a numerical method for optimal blank shape determination which is suitable in various sheet metal forming applications. The optimal blank shape is determined in iterative way so that the edge geometry of the formed product fits its reference geometry as close as possible. The iterative process starts at blank shape from which the product is produced with its edge fitting its reference geometry just approximately. In subsequent iterations the blank shape is continuously improved in accordance with the developed optimisation method. In order to determine the product edge geometry resulting from the current blank shape, a computer simulation of the forming process and the springback is performed in each iteration. Since its effectiveness highly depends on the quality and physical objectivity of the computer simulation, the developed numerical blank shape optimisation procedure has been validated also experimentally by considering forming of a product with rather complex edge geometry as the case study.
UR  - https://www.sv-jme.eu/article/a-method-for-optimal-blank-shape-determination-in-sheet-metal-forming-based-on-numerical-simulations/
Mole, Nikolaj, Cafuta, Gašper, AND Štok, Boris.
"A Method for Optimal Blank Shape Determination in Sheet Metal Forming Based on Numerical Simulations" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 59 Number 4 (28 June 2018)

Authors

Affiliations

  • University of Ljubljana, Faculty of Mechanical Engineering, Laboratory for Numerical Modelling and Simulation, Slovenia 1
  • Cimos d.d., Automotive industry, Koper, Slovenia 2

Paper's information

Strojniški vestnik - Journal of Mechanical Engineering 59(2013)4, 237-250
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.

https://doi.org/10.5545/sv-jme.2012.989

The main benefit in using optimally shaped blanks in sheet metal forming is in maximizing the efficiency of the forming process and, since there is no need for additional cutting operations after the finished forming operation, in substantial reduction of the overall production cost. The paper presents a numerical method for optimal blank shape determination which is suitable in various sheet metal forming applications. The optimal blank shape is determined in iterative way so that the edge geometry of the formed product fits its reference geometry as close as possible. The iterative process starts at blank shape from which the product is produced with its edge fitting its reference geometry just approximately. In subsequent iterations the blank shape is continuously improved in accordance with the developed optimisation method. In order to determine the product edge geometry resulting from the current blank shape, a computer simulation of the forming process and the springback is performed in each iteration. Since its effectiveness highly depends on the quality and physical objectivity of the computer simulation, the developed numerical blank shape optimisation procedure has been validated also experimentally by considering forming of a product with rather complex edge geometry as the case study.

Sheet metal forming; Blank shape optimisation; Springback compensation