Authors :
Jean Bosco SAMON
Volume/Issue :
Volume 6 - 2021, Issue 11 - November
Google Scholar :
http://bitly.ws/gu88
Scribd :
https://bit.ly/3ek6SVo
Abstract :
Rapid disassembly of components is required in
various contexts such as repair, remanufacturing, and
recycling. Work Factor Method illustrates a good sequence
of disassembly activities which is very heavy to implement.
That is why it is intended to interpret this sequence with
the MOST system. Therefore by applying a globally known
work evaluation system MOST (Maynard's Operation
Sequence Technique) in a Work Factor Disassembly
Sequence, we obtain a standard pattern of evaluating
Disassembly sequences time based on MOST principles.
The implementation of the Work factor Sequence with the
MOST system gives more accurate disassembly time than
using the Work Factor Methodonly. The combination of
these two techniques helps with time accuracy definition
and therefore can increase product life-cycle quality.
Keywords :
MOST system, Work Factor Method Sequence, Disassembly, Modelling.
Rapid disassembly of components is required in
various contexts such as repair, remanufacturing, and
recycling. Work Factor Method illustrates a good sequence
of disassembly activities which is very heavy to implement.
That is why it is intended to interpret this sequence with
the MOST system. Therefore by applying a globally known
work evaluation system MOST (Maynard's Operation
Sequence Technique) in a Work Factor Disassembly
Sequence, we obtain a standard pattern of evaluating
Disassembly sequences time based on MOST principles.
The implementation of the Work factor Sequence with the
MOST system gives more accurate disassembly time than
using the Work Factor Methodonly. The combination of
these two techniques helps with time accuracy definition
and therefore can increase product life-cycle quality.
Keywords :
MOST system, Work Factor Method Sequence, Disassembly, Modelling.
