Modeling of the film blowing process by using variational principles

“…The variational principle based Zatloukal-Vlcek formulation [14] describes a stable film blowing process as a state when the bubble shape satisfies minimum energy requirements (here the bubble energy is given by the elastic strain energy increase due to take up force and negative work done by the applied internal load). The bubble shape is described by the set of simple analytical equations utilizing four physical parameters: freeze line height, L, bubble curvature, pJ (which is given by membrane compliance, J, and the internal load, p), the die radius, R 0 and the blow up ratio, BUR (the ratio of the final bubble diameter at the freezeline height to the bubble diameter at the die exit).…”

“…It has been found that the challenging task in the complex film blowing modeling is low stability of the numerical schemes which limits utilization of such models for wide parametric study, which could allow deeper fundamental understanding of the film blowing process. In order to overcome this difficulty, Zatloukal and Vlcek [14] in 2004 developed variational principle based film blowing model at which the process satisfies minimum energy requirements.…”

Evaluation of variational principle based model for LDPE large scale film blowing process

“…The variational principle based Zatloukal-Vlcek formulation [14] describes a stable film blowing process as a state when the bubble shape satisfies minimum energy requirements (here the bubble energy is given by the elastic strain energy increase due to take up force and negative work done by the applied internal load). The bubble shape is described by the set of simple analytical equations utilizing four physical parameters: freeze line height, L, bubble curvature, pJ (which is given by membrane compliance, J, and the internal load, p), the die radius, R 0 and the blow up ratio, BUR (the ratio of the final bubble diameter at the freezeline height to the bubble diameter at the die exit).…”

“…It has been found that the challenging task in the complex film blowing modeling is low stability of the numerical schemes which limits utilization of such models for wide parametric study, which could allow deeper fundamental understanding of the film blowing process. In order to overcome this difficulty, Zatloukal and Vlcek [14] in 2004 developed variational principle based film blowing model at which the process satisfies minimum energy requirements.…”

Evaluation of variational principle based model for LDPE large scale film blowing process

“…The variational principle based Zatloukal-Vlcek model [21] describes film blowing process as a state when the bubble shape satisfies minimum energy requirements. The bubble shape is described by the set of simple analytical equations (see Table 1) utilizing four physical parameters: the freezeline height, L, the bubble curvature, pJ (which is given by the membrane compliance, J, and the internal load, p), the die radius, R 0 and the blow up ratio, BUR.…”

“…The bubble shape is described by the set of simple analytical equations (see Table 1) utilizing four physical parameters: the freezeline height, L, the bubble curvature, pJ (which is given by the membrane compliance, J, and the internal load, p), the die radius, R 0 and the blow up ratio, BUR. [21].…”

Investigation of heat transfer in 9-layer film blowing process by using variational principles

“…Petkim Petryo-chemistry Turkish Company had examined the causes and the solutions of these error reasons. Zatloukal and Vlcek (2004), Muke and vd, (2003) and Yoon and Park (2000) had handled the die design analysis with the results of experimental investigations to test the die design eligibility, bubble stability and had realized the optimization of the process according to that. Moreover, Carneiro vd, (2008) and Zhang and Ajji (2005) had handled the thickness of the film and the factors that affect the thickness in their studies of stability experiment.…”

Production of Market Bag and their Stability and Optimization Parameters