Biaxial deformation and experimental study of PET at conditions applicable to stretch blow molding

Menary, Gary; Tan, C.W.; Harkin‐Jones, Eileen; Armstrong, Cecil; Martin, Peter

doi:10.1002/pen.22134

Cited by 63 publications

(73 citation statements)

References 40 publications

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“…However, these two factors affect the material behaviour during the deformation in opposite ways, i.e. the higher temperature makes the material softer but the higher deformation rate makes the material stiffer [10] [12]. Hence, the combination of high temperature and high deformation rate or low temperature and low deformation rate reduces the diversity in the gradient of the strain hardening region.…”

Section: Figure 11 (B) and (D)mentioning

confidence: 99%

“…Numerous researchers world-wide have developed their own test platforms and enabled significant advances to be made in understanding the evolution of microstructure in PET materials under processing conditions [3][4][5][6][7][8][9], and to generate stress strain data that is suitable for developing and validating constitutive material laws [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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A novel methodology to characterize the constitutive behaviour of polyethylene terephthalate for the stretch blow moulding process

Yan

Menary

Nixon

2017

Mechanics of Materials

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The stretch blow moulding (SBM) process is the main method for the mass production of PET containers. And understanding the constitutive behaviour of PET during this process is critical for designing the optimum product and process. However due to its nonlinear viscoelastic behaviour, the behaviour of PET is highly sensitive to its thermomechanical history making the task of modelling its constitutive behaviour complex. This means that the constitutive model will be useful only if it is known to be valid under the actual conditions of interest to the SBM process. The aim of this work was to develop a new material characterization method providing new data for the deformation behaviour of PET relevant to the SBM process. In order to achieve this goal, a reliable and robust characterization method was developed based on an instrumented stretch rod and a digital image correlation system to determine the stress-strain relationship of material in deforming preforms during free stretch-blow tests. The effect of preform temperature and air mass flow rate on the deformation behaviour of PET was also investigated.

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Section: Figure 11 (B) and (D)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A novel methodology to characterize the constitutive behaviour of polyethylene terephthalate for the stretch blow moulding process

Yan

Menary

Nixon

2017

Mechanics of Materials

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“…This method is used in polymer processing primarily for measuring the temperature of both finished parts and processing tools [3,6,9,15,19]. The measurements were made using the V-20 II ER005-10 infrared camera from VIGO System S.A. and the Therm V 20 software.…”

Section: Test Standmentioning

confidence: 99%

The Effect of Selected Conditions in a Thermoforming Process on Wall Thickness Variations

Sasimowski¹

2017

Adv. Sci. Technol. Res. J.

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The paper reports the results of a study on the effect of selected conditions in a thermoforming process for thin polystyrene sheet by vacuum assisted drape forming on the wall thickness non-uniformity of finished parts. The investigation was performed using Statistica's DOE module for three variables: temperatures in the external and internal zones of the heater as well as heating time of the plastic sheet. The results demonstrate that the wall thickness in the finished parts at the measuring points is primarily affected by the heating time and the temperature in the internal zone of the heater, while the temperature in the external zone only affects some regions of the finished part. The results demonstrate that a short heating time, and hence, a lower temperature of the plastic sheet lead to a more uniform deformation of both the bottom and the side walls of the finished part, and as a consequence, to smaller variations in the wall thickness. Shortening the heating time is, however, limited by the necessity of accurate reproduction of the shape of the finished part.

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“…Each part of the constitutive model was represented by complex equations that required a large amount of data to perform accurate curve fitting procedures. The material data used for the curve fitting procedure, and as a result the material constants, were determined from extensive material testing using the QUB biaxial stretcher [19,20] and strain history form the DIC analysis of the FSB trials. The biaxial testing was performed on 76x76x0.5mm samples of PET cut from extruded sheet, the same grade as the preform material.…”

Section: Free-blow Simulation Set-upmentioning

confidence: 99%

“…The material characterisation technique using the biaxial stretching machine was not able to replicate the sequential deformation type for every foreseeable stretch scenario; indeed, only constant width and pure biaxial deformation were captured. The amount of initial linear stretch, and therefore the onset of orientation and eventual strain hardening [19][20][21][22][23][24][25][26][27][28][29], significantly affects the inflation of the preform.…”

Section: Free-blow Analysismentioning

confidence: 99%

Measuring and modelling air mass flow rate in the injection stretch blow moulding process

Salomeia¹,

Menary

Armstrong

et al. 2015

Int J Mater Form

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The injection stretch blow moulding process involves the inflation and stretching of a hot preform into a mould to form bottles. A critical process variable and an essential input for process simulations is the rate of pressure increase within the preform during forming, which is regulated by an air flow restrictor valve. The paper describes a set of experiments for measuring the air flow rate within an industrial ISBM machine and the subsequent modelling of it with the FEA package AbaqusABAQUS. Two rigid containers were inserted into a Sidel SBO1 blow moulding machine and subjected to different supply pressures and air flow restrictor settings. The pressure and air temperature were recorded for each experiment enabling the mass flow rate of air to be determined along with an important machine characteristic known as the 'dead volume'. The experimental setup was simulated within the commercial FEA package AbaqusABAQUS/Explicit using a combination of structural, fluid and fluid link elements that idealize the air flowing through an orifice behaving as an ideal gas under isothermal conditions. Results between experiment and simulation are compared and show a good correlation.

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Biaxial deformation and experimental study of PET at conditions applicable to stretch blow molding

Cited by 63 publications

References 40 publications

A novel methodology to characterize the constitutive behaviour of polyethylene terephthalate for the stretch blow moulding process

A novel methodology to characterize the constitutive behaviour of polyethylene terephthalate for the stretch blow moulding process

The Effect of Selected Conditions in a Thermoforming Process on Wall Thickness Variations

Measuring and modelling air mass flow rate in the injection stretch blow moulding process

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