Advancements in Additive Manufacturing for Sustainable Materials

Canterbury Christ Church University

About the Project

In this research project, we aim to explore the intersection of additive manufacturing (AM) and sustainability, offering an exciting opportunity for individuals passionate about shaping the future of manufacturing. We seek candidates with backgrounds in engineering, materials science, chemistry, or related fields to join us in investigating how AM technologies can contribute to more sustainable material usage and production processes. By delving into the development of eco-friendly materials and exploring strategies such as incorporating recycled or bio-based materials, candidates will play a crucial role in addressing environmental challenges in manufacturing. Through hands-on experimentation with various AM techniques and collaboration with interdisciplinary teams, candidates will have the chance to contribute to impactful advancements in the field. Applications are welcomed on a rolling basis, providing candidates with the flexibility to join our dynamic research environment dedicated to driving sustainable innovations in manufacturing. Contact us to learn more about this opportunity and how you can become part of our efforts to create a more sustainable future through additive manufacturing. The project aims to push the boundaries of tactile sensor technology through the innovative integration of 4D printing principles. In contrast to traditional elastomer sensors, this research project focuses on leveraging 4D printing to create functional devices with dynamic responses to a multitude of stimuli, including electrical, magnetic, chemical, humidity, and temperature signals. The envisioned elastomer sensors will exhibit fast, self-resetting responses, revolutionizing their applicability in biomedical, micromechanical, and optoelectronic domains. By developing novel materials and intricate designs, the project seeks to overcome the limitations of independent responses seen in current complex devices. The ultimate goal is to fabricate a demonstrator device that not only showcases rapid and adaptive shape-change responses but also performs basic comparisons of inputs to selectively trigger specific responses. The ideal candidate for this project would possess a keen interest in 3D printing applications, coupled with knowledge in materials sciences and/or digital design. With a background in engineering, materials science, or chemistry, the candidate should demonstrate an eagerness to delve into new disciplines and innovate to achieve the project’s ambitious goals. This interdisciplinary project promises to equip the candidate with a diverse skill set, including expertise in photopolymer chemistry, materials development for 3D printing, device engineering, and materials processing for additive manufacturing. The journey through this research will also involve skill development in advanced characterization techniques such as microscopy, mechanical analysis, and spectrometry, preparing the candidate for versatile roles in both industry and academia.

Eligibility

Candidates must possess or expect to obtain, a 2:1 or first-class degree in an Engineering, Chemistry, or related physical sciences related discipline.

To apply, covering letter, CV and academic transcripts should be send by email to . Please refer to the project title when sending your e-mail/application. Applications will be evaluated on a rolling basis until a suitable candidate is appointed.

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