Research data supporting the thesis Non-assembly Additive Manufacturing of Medical Devices

Datacite citation style:
Lussenburg, Kirsten (2023): Research data supporting the thesis Non-assembly Additive Manufacturing of Medical Devices. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/55a825d7-79e6-43a8-82a3-83588a23f596.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset
choose version: version 2 - 2023-12-21 (latest)
version 1 - 2023-12-20

In the medical field, non-assembly designs enable the creation of increasingly complex devices that can facilitate a wide range of complex operations. In conventional medical device manufacturing, intricate components are typically produced separately and then assembled, a process that introduces complexities, costs, and potential points of failure. Non-assembly additive manufacturing addresses these challenges by allowing the creation of complex medical structures, such as surgical instruments, prosthetics, and patient-specific implants, in a seamless and continuous manner. For the production of complex medical devices with miniature- and micro-sized components, for which conventional assembly processes can be long and time-consuming, non-assembly manufacturing can shorten the total manufacturing time, reduce costs, and eliminate the need for specialized knowledge and tools for the assembly and fine-tuning of the device. This efficiency is particularly crucial in the medical field, where timely access to customized and precise solutions can significantly impact patient outcomes. Non-assembly additive manufacturing also has the potential to drive innovation in medical device design. Designers and engineers can explore new possibilities, pushing the boundaries of what is achievable in terms of functionality, customization, and patient-specific adaptations. Therefore, the main purpose of the research described in this thesis, is to explore the possible contributions of non-assembly additive manufacturing to the production of complex medical devices. 

history
  • 2023-12-20 first online, published, posted
publisher
4TU.ResearchData
format
.STEP files and .SLDPRT files in g-zip format
funding
  • Interreg 2 Seas programme 2014-2020 (grant code 2S04-014) European Regional Development Fund
organizations
TU Delft, Faculty of Mechanical, Maritime and Materials Engineering (3mE), Department of BioMechanical Engineering

DATA

files (5)