High speed extrusion of modified polycarbonate

PROCEEDINGS OF PPS-33 : The 33rd International Conference of the Polymer Processing Society – Conference Papers Pub Date : 2019-08-26 DOI:10.1063/1.5121649

V. Schöppner, M. Pohl

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Abstract

An important topic in the area of research and development in extrusion technology is to increase the economical efficiency. In general, an increase in mass flow rate is done by designing bigger machines, but this also increases costs for maintenance and batch changes. Another possibility to increase throughput is to use smooth barrel extruders with high screw speeds (from 2 m/s on). In further investigations several issues were detected in the field of high speed extrusion and the processing of polycarbonate. Because of the high shear sensitivity of this polymer, at higher screw speeds temperature increases massively. The reason for the lack of melting is the enthalpy of amorphous polymers. To handle this issue we decided to analyze the behavior of a modified polycarbonate with a high shear thinning range and the same zero viscosity as a typical extrusion material. In this essay, the manufacturing of a special blended polycarbonate is presented as well as first results of processing this material at high screw speeds. These investigations are based on the evaluation of various speed ranges on an extruder (D = 30 mm) with vacuum degassing and a direct torque drive. In addition, several pressure sensors along the axial screw length and a temperature sensor in the area of the screw tip were installed. With this arrangement, it is possible to make a statement on temperature homogeneity, pressure development and the melting process. The overall goal is to achieve optimization strategies for the high speed extrusion of polycarbonate.An important topic in the area of research and development in extrusion technology is to increase the economical efficiency. In general, an increase in mass flow rate is done by designing bigger machines, but this also increases costs for maintenance and batch changes. Another possibility to increase throughput is to use smooth barrel extruders with high screw speeds (from 2 m/s on). In further investigations several issues were detected in the field of high speed extrusion and the processing of polycarbonate. Because of the high shear sensitivity of this polymer, at higher screw speeds temperature increases massively. The reason for the lack of melting is the enthalpy of amorphous polymers. To handle this issue we decided to analyze the behavior of a modified polycarbonate with a high shear thinning range and the same zero viscosity as a typical extrusion material. In this essay, the manufacturing of a special blended polycarbonate is presented as well as first results of processing this material at high...

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改性聚碳酸酯的高速挤出

提高挤出技术的经济效益是挤出技术研究和发展的一个重要课题。一般来说，质量流量的增加是通过设计更大的机器来实现的，但这也增加了维护和批量更改的成本。另一种增加产量的可能性是使用高螺杆速度(从2米/秒以上)的光滑筒挤出机。在进一步的研究中，发现了高速挤压和聚碳酸酯加工领域存在的几个问题。由于该聚合物具有较高的剪切敏感性，在较高的螺杆转速下，温度会大幅升高。不熔化的原因是无定形聚合物的焓。为了解决这个问题，我们决定分析一种具有高剪切减薄范围和与典型挤出材料相同的零粘度的改性聚碳酸酯的行为。在本文中，介绍了一种特殊的混合聚碳酸酯的制造以及在高螺杆转速下加工这种材料的初步结果。这些研究是基于对真空脱气和直接扭矩驱动的挤出机(D = 30 mm)的各种速度范围的评估。此外，沿螺杆轴向长度安装了几个压力传感器，并在螺杆尖端区域安装了一个温度传感器。有了这种安排，就有可能对温度均匀性、压力发展和熔化过程作出陈述。总体目标是实现聚碳酸酯高速挤出的优化策略。提高挤出技术的经济效益是挤出技术研究和发展的一个重要课题。一般来说，质量流量的增加是通过设计更大的机器来实现的，但这也增加了维护和批量更改的成本。另一种增加产量的可能性是使用高螺杆速度(从2米/秒以上)的光滑筒挤出机。在进一步的研究中，发现了高速挤压和聚碳酸酯加工领域存在的几个问题。由于该聚合物具有较高的剪切敏感性，在较高的螺杆转速下，温度会大幅升高。不熔化的原因是无定形聚合物的焓。为了解决这个问题，我们决定分析一种具有高剪切减薄范围和与典型挤出材料相同的零粘度的改性聚碳酸酯的行为。本文介绍了一种特殊的共混聚碳酸酯的制造过程，并对这种材料进行了高强度的加工。

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PROCEEDINGS OF PPS-33 : The 33rd International Conference of the Polymer Processing Society – Conference Papers

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