A ball stud is used for joining the mechanical elements of a ball joint in
the steering or suspension system of automobiles. Process sequence design f
or the manufacturing of a ball stud, highly dependent on experience-based t
rial and error, limits the productivity and competitiveness of the product
in meetings the demands of the current market. In this study, an expert sys
tem for the process sequence design of a ball stud was developed based on t
he Windows environment on an IBM personal computer (PC) as part of building
a computer integrated design system. The developed system was composed of
the main design expert system, a database system, and a computer aided desi
gn (CAD) system. The design rules were extracted from the drawings from int
erviews with production and design experts, and from the literature. Initia
l standard process sequence design was determined by looking into the chara
cteristics and constraints of each process in forming a product. Then this
design sequence was modified by applying redesigning rules to accommodate t
he machine capacities, such as limiting sequencing number and/or the limiti
ng load of the forming machine selected. The input and output modules for a
graphical display were implemented in the developed system. The database s
ystem was separately formulated from the main design expert system to enabl
e data sharing among the work places and to assist the engineers with the b
all stud process design by checking the feasibility of re-using existing di
es and drawings. The re-designed process data were saved in dxf files for t
ransferring the data to a commercial CAD system such as AutoCAD, from which
the drawing can be obtained. The developed system was found to be useful i
n generating the process sequence of a ball stud used in practice. (C) 1999
Elsevier Science S.A. All rights reserved.