A review on Identification of Block Feature Through Step
Abstract
One of the major challenges in the implementation of CIM, which is anticipated
to meet the needs of the present manufacturing industry in terms of complete
automation of its operations, is the combination of CAD package and CAM system via
CAPP. To achieve complete automation, product data created throughout the design
and modelling process and saved in the database of CAD packages (systems) should
flow directly to CAPP and from CAPP to CAM for seamless integration of CAD,
CAPP, and CAM. The block feature of a CAD part model is located utilising its
STEPAP224 data exchange file of ISO 10303 standards. The goal of this effort is to
develop a computer application for computer assisted process planning that will
connect CAD and CAM. An algorithm or procedure is generated for identifying the
feature of the block which can also be implemented by a computer program.
Keywords
Full Text:
PDFReferences
Jung Hyun Han and Inho Han and Eunseok Lee and Juneho Yi, 2001, Manufacturing feature
recognition toward integration with process planning, IEEE Transactions on Systems, Man, and
Cybernetics— Part B: Cybernetics, Vol.31, 373.
Jami J. Shah, David Anderson, Yong Se Kim, Sanjay Joshi, MARCH 2001, A Discourse on
Geometric Feature Recognition From CAD Models, Journal of Computing and Information
Science in Engineering, Vol. 1 /41.
Tan C F and Ismail N and Wong S V and Sulaiman S and Osman M R, 2005, Development of
Hole Recognition System from Step File, AJSTD, Vol.22, 285-295.
Patrick Martin & Alain D’Acunto, 2007, Method of determining the process applied for feature
machining: experimental validation of a slot, International Journal of Advanced Manufacturing
Technology, Vol. 37, no 9-10, p.898-90.
Hyun Chan Lee and Wan Chul Jhee and Hee Sok Park, 2007, Generative CAPP through
projective feature recognition, Computers & Industrial Engineering, Vol.53, 241–246.
Arunkumar P and Anand Deshpande S and Kumar A C S, 2008, A System for Extracting
Product Features from CAD Models – A STEP Approach, Contemporary Engineering Sciences,
Vol.1, 139 –146.
S. Nagarajan & N. Venkata Reddy , 2010, STEP based automatic system for recognizing design
and manufacturing features, International Journal of Production Research, 48:1, 117-144.
Grzegorz Nikiel, 2010, geometrical data extraction of axisymmetric parts from the b-rep models,
Advances in manufacturing science and technology, Vol. 35, No. 2.
D. Sreeramulu1, C.S.P.Rao2, 2011, A new methodology for recognizing features in rotational
parts using STEP data exchange standard, International Journal of Engineering, Science and
Technology, Vol. 3, No. 6, pp. 102-115.
V. N. Malleswaria*, Dr. P. M.Vallib , Dr. M. M. M. Sarcarc, March-2013, Automatic
Recognition of Machining Features using STEP Files, International Journal of Engineering
Research & Technology (IJERT) Vol. 2 Issue 3.
Jaider Oussama, Elmesbahi Abdelilah, Rechia Ahmed, May 2014, Manufacturing Computer
Aided Process Planning For Rotational Parts. Part 1: Automatic Feature Recognition from STEP
AP203, Int. Journal of Engineering Research and Application ISSN : 2248-9622, Vol. 4, Issue 5(
Version 6), pp.14- 25.
Sreenivasulu Reddy.A1, Poornachandra Sekhar.Y2, Rajendra Prasad.T3 , Ravindranath.K,
December12th–14th, 2014, Design and development of feature extraction and recognition
information system for computer aided process planning systems, 5 th International & 26th All
India Manufacturing Technology, Design and Research Conference (AIMTDR 2014) IIT
Guwahati, Assam, India.
Yingguang Li, Wei Wang, Xu Liu & Yongsheng Ma, 2014, Definition and recognition of rib
features in aircraft structural part, International Journal of Computer Integrated Manufacturing,
:1, 1-19.
DOI: https://doi.org/10.37628/ijcam.v8i1.1422
Refbacks
- There are currently no refbacks.