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    accelerated.   
    It is good news that the time it takes to generate  amould is constantly being reduced. The bad
    news, on the other hand, is that even with all these advances, designing and manufacturing of the
    mould can still take a long time and can be extremely expensive.   Many company executives now realize how vital it is to deploy new products to market rapidly.
    New products are the key to corporate prosperity. They drive corporate revenues, market shares,
    bottom lines and share prices. A company able to launch good quality products with reasonable
    prices ahead of their competition not only realizes 100% of the market before rival products arrive
    but also tends to maintain a dominant position for a few years even after competitive products
    have finally been announced (Smith, 1991). For most products, these two advantages are dramatic.  
    Rapid product development is now a key aspect of competitive success. Figure 2 shows that only
    3–7% of the product mix from the average industrial or electronics company is less than 5 years
    old.  For companies in the top quartile, the number increases to 15–25%.  For world-class firms,
    it is 60–80% (Thompson, 1996).  The best companies continuously develop new products.  At
    Hewlett-Packard, over 80% of the profits result from products less than 2 years old! (Neel, 1997)   Figure  2.  Importance of new product (Jacobs, 2000)   
    With the advances in computer technology and artificial intelligence, efforts have been directed to
    reduce the cost and lead time in the design and manufacture of an injection mould. Injection
    mould design has been the main area of interest since it is a complex process involving several
    sub-designs related to various components of  themould, each requiring expert knowledge and
    experience.  Lee et. al. (1997) proposed a systematic methodology and knowledge base for
    injection mould design in a concurrent engineering environment.   4. Concurrent Engineering in Mould Design   
    Concurrent Engineering (CE) is a systematic approach to integrated product development process.  
    It represents team values of co-operation, trust and sharing in such a manner that decision making
    is by consensus, involving all per spectives in parallel, from the very beginning of the product
    life-cycle (Evans, 1998).  Essentially, CE provides a collaborative, co-operative, collective and
    simultaneous engineering working environment.  A concurrent engineering approach is based on
    five key elements:   
    1. process
    2. multidisciplinary team   
    3.  integrated design model   
    4. facility
    5. software infrastructure   In the plastics and mould industry, CE is very important due to the high cost tooling and long lead
    times. Typically, CE is utilized by manufacturing prototype tooling early in the design phase to
    analyze and adjust the design. Production tooling is manufactured as the final step. The
    manufacturing process and involving moulds must be designed after passing through the
    appearance evaluation and the structure optimization of the product design. CE requires an
    engineer to consider the manufacturing process of the designed product in the development phase.
    A good design of the product is unable to go to the market if its manufacturing process is
    impossible. Integration of process simulation and rapid prototyping and manufacturing can reduce
    the risk associated with moving from CAD to CAM and further enhance the validity of the
    product development.
    For years, designers have been restricted in what  they can produce as they generally have to
    design for manufacture (DFM) – that is, adjust their design intent to enable the component (or
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