TY - JOUR
T1 - Enhanced dimensional analysis of semi-liquid plastics using neural networks
AU - Hemminger, Thomas L.
PY - 1998
Y1 - 1998
N2 - Several methods can be employed to create plastic products such as injection molding, compression and transfer molding, and blow molding. This work is an extension of previous research my colleague and I have conducted in the field of blow molding. Blow molding is a technique utilized to create hollow plastic containers for marketing a variety of products such as milk, spring water, soda, anti-freeze, etc. In this process a thermoplastic is heated and pressed through a mandrel creating a hollow tube of semi-liquid material called a parison which is placed in a mold and inflated with air to the desired shape. A major concern is the measurement of parison wall thickness prior to inflation. If the proper wall thickness can be determined, waste can be minimized and hence cost, but this can be a difficult undertaking considering the elasticity of most polymers when heated. This paper extends the results previously published on a non-invasive approach for wall thickness measurements of semi-liquid plastics through the utilization of computerized tomography and neural networks.
AB - Several methods can be employed to create plastic products such as injection molding, compression and transfer molding, and blow molding. This work is an extension of previous research my colleague and I have conducted in the field of blow molding. Blow molding is a technique utilized to create hollow plastic containers for marketing a variety of products such as milk, spring water, soda, anti-freeze, etc. In this process a thermoplastic is heated and pressed through a mandrel creating a hollow tube of semi-liquid material called a parison which is placed in a mold and inflated with air to the desired shape. A major concern is the measurement of parison wall thickness prior to inflation. If the proper wall thickness can be determined, waste can be minimized and hence cost, but this can be a difficult undertaking considering the elasticity of most polymers when heated. This paper extends the results previously published on a non-invasive approach for wall thickness measurements of semi-liquid plastics through the utilization of computerized tomography and neural networks.
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M3 - Article
AN - SCOPUS:0032297959
VL - 1998
SP - 791
EP - 796
JO - Intelligent Engineering Systems Through Artificial Neural Networks
JF - Intelligent Engineering Systems Through Artificial Neural Networks
ER -