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Klingaa, Christopher Gottlieb
Danish Technological Institute
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (10/10 displayed)
- 2023Corrosion surface morphology-based methodology for fatigue assessment of offshore welded structurescitations
- 2022Evaluating the scalability of channels made by Binder Jetting and Laser Powder Bed Fusion using an X-ray CT and image analysis approach
- 2021Digital Twin of Additively Manufactured Components: Enabling Simulation-based Qualification
- 2021Towards a digital twin of laser powder bed fusion with a focus on gas flow variablescitations
- 2020Realistic design of laser powder bed fusion channelscitations
- 2020Characterization of channels made by laser powder bed fusion and binder jetting using X-ray CT and image analysiscitations
- 2020X-ray CT and image analysis methodology for local roughness characterization in cooling channels made by metal additive manufacturingcitations
- 2019Roughness Investigation of SLM Manufactured Conformal Cooling Channels Using X-ray Computed Tomography
- 2019Numerical Modelling of Heat Transfer using the 3D-ADI-DG Method - with Application for Pultrusion.
- 2019Build orientation effects on the roughness of SLM channels
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document
Evaluating the scalability of channels made by Binder Jetting and Laser Powder Bed Fusion using an X-ray CT and image analysis approach
Abstract
Additively manufactured channels enable conformal cooling for applications such as injection molds or fuel injectors. Understanding the scalability of these channels for applications of different sizes is essential to pave the way for a more widespread adoption. This work uses a non-destructive testing approach to characterize and compare channels of different sizes made by two popular Metal Additive Manufacturing (MAM) technologies: Binder Jetting (BJ) and Laser Powder Bed Fusion (LPBF). The results reveal systematic differences in deviations depending on the nominal diameter and the used AM process.