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Characterisation of microneedle replication and flow behaviour in ultrasonic micro-injection moulding through design of experiments

Mert Gülçür, E. C. Brown, Tim Gough, Ben Whiteside

2023Journal of Manufacturing Processes19 citationsDOIOpen Access PDF

Abstract

This research investigates the impact of process parameters on ultrasonic micro-injection moulding (u-μIM) by studying microneedle replication efficiency, temperature evolution during moulding, melt flow consistency and sonication behaviour. The experimentation comprises of a full-factorial design of experiments using three process variables: sonication time, mould temperature and injection force. The current study presents that; (i) mould temperature was found to be the most influential parameter to tune and optimise micro-feature replication, (ii) consistent ultrasonic micromoulding flows can be achieved using higher mould temperatures, (iii) injection force is a key parameter influencing sonication frequency, a critical aspect of the ultrasonic method to obtain a repeatable manufacturing process. These outcomes will be a datum during development of the manufacturing processes for specific products using the ultrasonic method. The research presented here takes a unique approach to characterise the ultrasonic method for the development of this novel technique, particularly for microneedle patch and medical device production. With this increased level of understanding of u-μIM process characteristics, the method can become an energy efficient and cost-effective alternative to conventional micro-injection moulding processes for delivering high-quality, miniature components.

Topics & Concepts

Ultrasonic sensorMaterials scienceSonicationReplication (statistics)Injection mouldingFactorial experimentMechanical engineeringProcess (computing)Design of experimentsProcess engineeringComposite materialComputer scienceAcousticsEngineeringStatisticsChemical engineeringMachine learningOperating systemPhysicsMathematicsInjection Molding Process and PropertiesAdvanced Machining and Optimization TechniquesAdvanced machining processes and optimization
Characterisation of microneedle replication and flow behaviour in ultrasonic micro-injection moulding through design of experiments | Litcius