STEP Implementation on Turn-mill Manufacturing Environment
Researches related to standard product model and
development of neutral manufacturing interfaces for numerical
control machines becomes a significant topic since the last 25 years.
In this paper, a detail description of STEP implementation on turnmill
manufacturing has been discussed. It shows requirements of
information contents from ISO14649 data model. It covers to
describe the design of STEP-NC framework applicable to turn-mill
manufacturing. In the framework, EXPRESS-G and UML modeling
tools are used to depict the information contents of the system and
established the bases of information model requirement. A product
and manufacturing data model applicable for STEP compliant
manufacturing. The next generation turn-mill operations
requirements have been represented by a UML diagram. An object
oriented classes of ISO1449 has been developed on Visual Basic dot
NET platform for binding the static information model represented
by the UML diagram. An architect of the proposed system
implementation has been given on the bases of the design and
manufacturing module of STEP-NC interface established. Finally, a
part 21 file process plan generated for an illustration of turn-mill
components.
[1] V. Kern, et al., "Implementation of standardized shareable product
databases," 1996.
[2] S. T. Newman, et al., "Strategic advantages of interoperability for global
manufacturing using CNC technology," Robotics and Computer
Integrated Manufacturing, vol. 24, pp. 699-708, 2008.
[3] H. A.ElMaraghy, Changeable and Reconfigurable Manufacturing
Systems. London: Springer-Verlager, 2009.
[4] M. Groover, Fundamentals Of Modern Manufacturing: Materials
Processes, And Systems: Wiley-India, 2007.
[5] S.-H. Suh, et al., "STEP-compliant CNC system for turning: Data
model, architecture, and implementation," Computer-Aided Design, vol.
38, pp. 677-688, 2006.
[6] Wonseok Lee and Young-Bong Bang, "Development of ISO14649
Compliant CNC Milling Machine Operated by STEP-NC in XML
Format," W. S. Lee and Y.-B. Bang: International Journal of the KSPE,
vol. Vol. 4, September ,2003.
[7] R. S. U. R.-J. S. Heusinger, P. Klemm, S. T. Newman and S.
Rahimifard, "Integrating the CAx Process Chain for STEP Compliant
NC Manufacturing of Asymmetric Parts.," International Journal of
Computer Integrated manufacturing, vol. Vol. 19, pp. pp 533 - 545,
2006.
[8] ISO, "International Standard 14649-10: Part 10 : Industrial automation
system and integration - Physical device control - Data model for
computerized numerical controllers - Part 10 : General process data,"
February 2002.
[9] ISO, "International Standard 14649-11: Part 11 : Industrial automation
system and integration - Physical device control - Data model for
computerized numerical controllers - Part 11 : Process data for milling,"
2004.
[10] ISO, "Part 12: PROCESS DATA FOR TURNING," vol. ISO/DIS
14649-12, 2003-10-24.
[11] ISO, "Industrial automation systems and integration - Physical device
control - Data model for computerized numerical controllers - Part 111:
Tools for milling machines," ISO/TC 184/SC 1/WG 7, vol. ISO/FDIS
14649-111, 2002.
[12] ISO, "International Standard 14649-121: Part 121 : Industrial
automation system and integration - Physical device control - Data
model for computerized numerical controllers -Part 121: Tools for
Turning Machines," ISO/TC 184/SC 1/WG 7vol. ISO/TC 184/SC1 N
000, 2003.
[13] ISO. 14649-1, "Part 1: Overview and fundamental principles," ISO/TC
184/SC 1/WG 7, vol. ISO/FDIS 14649-1, 2002.
[14] H. Wang and X. Xu, "A STEP-Compliant" Adaptor" for Linking CAPP
with CNC," 2004, p. 45.
[15] ISO, "Part 1: Overview and fundamental principles," ISO/TC 184/SC
1/WG 7, vol. ISO/FDIS 14649-1, 2002.
[16] A. M. Gutierrez, "A manufacturing model to support data-driven
applications for design and manufacture," 1995.
[17] W. Yang and X. Xu, "Modelling machine tool data in support of STEPNC
based manufacturing," Int. J. Comput. Integr. Manuf., vol. 21, pp.
745-763, 2008.
[1] V. Kern, et al., "Implementation of standardized shareable product
databases," 1996.
[2] S. T. Newman, et al., "Strategic advantages of interoperability for global
manufacturing using CNC technology," Robotics and Computer
Integrated Manufacturing, vol. 24, pp. 699-708, 2008.
[3] H. A.ElMaraghy, Changeable and Reconfigurable Manufacturing
Systems. London: Springer-Verlager, 2009.
[4] M. Groover, Fundamentals Of Modern Manufacturing: Materials
Processes, And Systems: Wiley-India, 2007.
[5] S.-H. Suh, et al., "STEP-compliant CNC system for turning: Data
model, architecture, and implementation," Computer-Aided Design, vol.
38, pp. 677-688, 2006.
[6] Wonseok Lee and Young-Bong Bang, "Development of ISO14649
Compliant CNC Milling Machine Operated by STEP-NC in XML
Format," W. S. Lee and Y.-B. Bang: International Journal of the KSPE,
vol. Vol. 4, September ,2003.
[7] R. S. U. R.-J. S. Heusinger, P. Klemm, S. T. Newman and S.
Rahimifard, "Integrating the CAx Process Chain for STEP Compliant
NC Manufacturing of Asymmetric Parts.," International Journal of
Computer Integrated manufacturing, vol. Vol. 19, pp. pp 533 - 545,
2006.
[8] ISO, "International Standard 14649-10: Part 10 : Industrial automation
system and integration - Physical device control - Data model for
computerized numerical controllers - Part 10 : General process data,"
February 2002.
[9] ISO, "International Standard 14649-11: Part 11 : Industrial automation
system and integration - Physical device control - Data model for
computerized numerical controllers - Part 11 : Process data for milling,"
2004.
[10] ISO, "Part 12: PROCESS DATA FOR TURNING," vol. ISO/DIS
14649-12, 2003-10-24.
[11] ISO, "Industrial automation systems and integration - Physical device
control - Data model for computerized numerical controllers - Part 111:
Tools for milling machines," ISO/TC 184/SC 1/WG 7, vol. ISO/FDIS
14649-111, 2002.
[12] ISO, "International Standard 14649-121: Part 121 : Industrial
automation system and integration - Physical device control - Data
model for computerized numerical controllers -Part 121: Tools for
Turning Machines," ISO/TC 184/SC 1/WG 7vol. ISO/TC 184/SC1 N
000, 2003.
[13] ISO. 14649-1, "Part 1: Overview and fundamental principles," ISO/TC
184/SC 1/WG 7, vol. ISO/FDIS 14649-1, 2002.
[14] H. Wang and X. Xu, "A STEP-Compliant" Adaptor" for Linking CAPP
with CNC," 2004, p. 45.
[15] ISO, "Part 1: Overview and fundamental principles," ISO/TC 184/SC
1/WG 7, vol. ISO/FDIS 14649-1, 2002.
[16] A. M. Gutierrez, "A manufacturing model to support data-driven
applications for design and manufacture," 1995.
[17] W. Yang and X. Xu, "Modelling machine tool data in support of STEPNC
based manufacturing," Int. J. Comput. Integr. Manuf., vol. 21, pp.
745-763, 2008.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:55984", author = "Ahmad Majdi Bin Abdul-Rani and Mesfin Gizaw and Yusri Yusof", title = "STEP Implementation on Turn-mill Manufacturing Environment", abstract = "Researches related to standard product model and
development of neutral manufacturing interfaces for numerical
control machines becomes a significant topic since the last 25 years.
In this paper, a detail description of STEP implementation on turnmill
manufacturing has been discussed. It shows requirements of
information contents from ISO14649 data model. It covers to
describe the design of STEP-NC framework applicable to turn-mill
manufacturing. In the framework, EXPRESS-G and UML modeling
tools are used to depict the information contents of the system and
established the bases of information model requirement. A product
and manufacturing data model applicable for STEP compliant
manufacturing. The next generation turn-mill operations
requirements have been represented by a UML diagram. An object
oriented classes of ISO1449 has been developed on Visual Basic dot
NET platform for binding the static information model represented
by the UML diagram. An architect of the proposed system
implementation has been given on the bases of the design and
manufacturing module of STEP-NC interface established. Finally, a
part 21 file process plan generated for an illustration of turn-mill
components.", keywords = "CAPP, ISO14649, Product modeling, STEP-NC", volume = "5", number = "12", pages = "2635-6", }