Time and Spatially Resolved Operando Small-Angle X-ray Scattering Measurements during Injection Moulding of Plastics

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-09-29 DOI:10.3390/jmmp7050176

Matteo Arioli, Anabela Massano, Daniel P. da Silva, Fábio Gameiro, Pedro Carreira, Marc Malfois, João Matias, Paula Pascoal-Faria, Artur Mateus, Geoffrey Mitchell

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引用次数: 0

Abstract

We recently introduced the possibility of performing operando small-angle X-ray scattering measurements using a novel industrially relevant injection moulding system for plastics. We show that useful time-resolving measurements can be performed with a time-cycle of 1 s and highlight the possible steps to reduce this to 0.5 s. We show how we can use the transmission measurements to provide a time marker when plastic first enters the mould cavity in the region probed by the incident X-ray beam. We show the opportunities provided by this experimental stage mounted on the NCD-SWEET beamline at ALBA to probe the reproducibility of the injection moulding system on different scales. The design of the equipment allowed for the development of the structure and the morphology to be evaluated in different parts of mould cavity, and we evaluated any differences in a rectangular mould cavity. We identified future prospects for this equipment in terms of novel mould heating and cooling systems and the opportunities for quantitatively evaluating radical approaches to injection moulding technology.

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塑料注射成型过程中小角x射线散射的时空分辨测量

我们最近介绍了一种新型的工业塑料注射成型系统，可以进行operando小角度x射线散射测量。我们展示了有用的时间分辨测量可以用1秒的时间周期执行，并强调了将其减少到0.5秒的可能步骤。我们展示了如何使用透射测量来提供一个时间标记，当塑料首次进入由入射x射线束探测的区域的模腔。我们展示了安装在ALBA的NCD-SWEET光束线上的这个实验阶段提供的机会，以探索不同规模的注射成型系统的可重复性。设备的设计允许在模具型腔的不同部分评估结构和形态的发展，我们评估了矩形模具型腔的任何差异。我们确定了该设备在新型模具加热和冷却系统方面的未来前景，以及定量评估注射成型技术激进方法的机会。

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