A Low Cost Knowledge Base System Framework for Design of Deep Drawing Die
In this paper a low cost knowledge base system (KBS)
framework is proposed for design of deep drawing die and procedure
for developing system modules. The task of building the system is
structured into different modules for major activities of design of
deep drawing die. A manufacturability assessment module of the
proposed framework is developed to check the manufacturability of
deep drawn parts. The technological knowledge is represented by
using IF- THEN rules and it is coded in AutoLISP language. The
module is designed to be loaded into the prompt area of AutoCAD.
The cost of implementation of proposed system makes it affordable
for small and medium scale sheet metal industries.
[1] W. M. Sing and K. P. Rao, Knowledge-based process layout system for
axisymmetrical deep drawing using decision tables, Computers Ind.
Engng., 32, 1997, pp. 299 - 319.
[2] A. Soman and M. Campbell, A grammar-based approach to sheet metal
design, in DETC-02, ASME Design Engg. Tech. Conference
Proceedings, Montreal, Canada, 2002, pp. 485-493.
[3] S. Kumar, "A contribution to the development of knowledge based
system for intelligent design of progressive dies", Ph.D Thesis, Maharshi
Dyanand University, Rohtak, India, 2006.
[4] M. Tisza, Expert system for metal forming, Int. J. Mater. Process.
Technol., 53, 1995, pp.423- 432.
[5] R. Pilani, K. Narasimhan, S. K. Maiti, U. P. Singh and P. P. Date, A
hybrid intelligent systems approach for die design in sheet metal
forming, Int. J. Adv. Manuf. Technol., 16, 2000, pp. 370-375.
[6] D. H. Park and PKDV Yarlagadda, Computer Aided Process Planning
for Non-Axisymmetric Deep Drawing Products in NUMIFORM - 2004,
edited by S. Ghosh et al. , Numerical Methods in Industrial Forming
Processes Proceedings, Columbus, Ohio, 2004, pp. 1985-1988.
[7] W.Y. Zhang, S.B. Tor and G.A. Britton, Indexing and retrieval in casebased
process planning for multi-stage non-axisymmetric deep drawing,
Int. J. Adv. Manuf. Technol., 26, 2006, pp.12-22.
[8] B. T. Lin and C. C. Kuo, Application of an integrated CAD/CAE/CAM
system for stamping dies for automobiles, Int. J. Adv. Manuf. Technol.,
35, 2008, pp. 1000-1013.
[9] N.P. Suh, D.S. Cochran and P.C. Lima , Manufacturing System Design,
in 48th General Assembly of CIRP ,CIRP Annals - Manuf. Technol.,
47,1998, pp. 627-639.
[1] W. M. Sing and K. P. Rao, Knowledge-based process layout system for
axisymmetrical deep drawing using decision tables, Computers Ind.
Engng., 32, 1997, pp. 299 - 319.
[2] A. Soman and M. Campbell, A grammar-based approach to sheet metal
design, in DETC-02, ASME Design Engg. Tech. Conference
Proceedings, Montreal, Canada, 2002, pp. 485-493.
[3] S. Kumar, "A contribution to the development of knowledge based
system for intelligent design of progressive dies", Ph.D Thesis, Maharshi
Dyanand University, Rohtak, India, 2006.
[4] M. Tisza, Expert system for metal forming, Int. J. Mater. Process.
Technol., 53, 1995, pp.423- 432.
[5] R. Pilani, K. Narasimhan, S. K. Maiti, U. P. Singh and P. P. Date, A
hybrid intelligent systems approach for die design in sheet metal
forming, Int. J. Adv. Manuf. Technol., 16, 2000, pp. 370-375.
[6] D. H. Park and PKDV Yarlagadda, Computer Aided Process Planning
for Non-Axisymmetric Deep Drawing Products in NUMIFORM - 2004,
edited by S. Ghosh et al. , Numerical Methods in Industrial Forming
Processes Proceedings, Columbus, Ohio, 2004, pp. 1985-1988.
[7] W.Y. Zhang, S.B. Tor and G.A. Britton, Indexing and retrieval in casebased
process planning for multi-stage non-axisymmetric deep drawing,
Int. J. Adv. Manuf. Technol., 26, 2006, pp.12-22.
[8] B. T. Lin and C. C. Kuo, Application of an integrated CAD/CAE/CAM
system for stamping dies for automobiles, Int. J. Adv. Manuf. Technol.,
35, 2008, pp. 1000-1013.
[9] N.P. Suh, D.S. Cochran and P.C. Lima , Manufacturing System Design,
in 48th General Assembly of CIRP ,CIRP Annals - Manuf. Technol.,
47,1998, pp. 627-639.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:51562", author = "Vishal Naranje and S. Kumar", title = "A Low Cost Knowledge Base System Framework for Design of Deep Drawing Die", abstract = "In this paper a low cost knowledge base system (KBS)
framework is proposed for design of deep drawing die and procedure
for developing system modules. The task of building the system is
structured into different modules for major activities of design of
deep drawing die. A manufacturability assessment module of the
proposed framework is developed to check the manufacturability of
deep drawn parts. The technological knowledge is represented by
using IF- THEN rules and it is coded in AutoLISP language. The
module is designed to be loaded into the prompt area of AutoCAD.
The cost of implementation of proposed system makes it affordable
for small and medium scale sheet metal industries.", keywords = "Knowledge base system, Deep drawing die,Manufacturability, Sheet metal.", volume = "4", number = "12", pages = "1348-6", }