KONINKLIJKE PHILIPS N.V. (20240261855). THREE-DIMENSIONAL PRINTED STRUCTURE WITH DOUBLE WALL ELEMENTS simplified abstract
Contents
THREE-DIMENSIONAL PRINTED STRUCTURE WITH DOUBLE WALL ELEMENTS
Organization Name
Inventor(s)
GEREON Vogtmeier of AACHEN (DE)
JOHANNES WILHELMUS MARIA Jacobs of BOXTEL (NL)
EDWARD THEODORUS MARIA Berben of HERTEN (NL)
THREE-DIMENSIONAL PRINTED STRUCTURE WITH DOUBLE WALL ELEMENTS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240261855 titled 'THREE-DIMENSIONAL PRINTED STRUCTURE WITH DOUBLE WALL ELEMENTS
The abstract describes a method for improving three-dimensional (3D) printing of high-aspect-ratio metal structures by using a combination of metal-containing material and plastic material to build supporting wall elements.
- Metal structures are built with a center part made of metal-containing material and left and right parts made of plastic material.
- The plastic material enables the construction of high-aspect-ratio 3D structures.
- This method can be applied to cost-effective 3D printing technologies like fused deposition molding (FDM).
Potential Applications: - Aerospace industry for lightweight yet strong metal structures - Medical field for customized implants - Automotive sector for complex metal parts production
Problems Solved: - Overcoming limitations of traditional 3D metal printing methods - Enabling the creation of intricate metal structures with high aspect ratios
Benefits: - Cost-effective production of high-quality metal structures - Enhanced design flexibility and customization options - Improved efficiency in manufacturing processes
Commercial Applications: Title: Innovative 3D Metal Printing Method for High-Aspect-Ratio Structures This technology can revolutionize industries requiring complex metal structures, such as aerospace, medical, and automotive sectors. It offers a cost-effective solution for producing high-quality, customized metal parts with intricate designs.
Questions about 3D Metal Printing Method for High-Aspect-Ratio Structures: 1. How does this method compare to traditional 3D metal printing techniques?
- This method combines metal-containing and plastic materials to overcome limitations of traditional methods and enable the construction of high-aspect-ratio structures.
2. What are the potential cost savings associated with using this innovative printing method?
- By utilizing plastic support material and cost-effective 3D printing technologies like FDM, this method offers a more affordable solution for producing complex metal structures.
Original Abstract Submitted
in order to improve three-dimensional (3d) printing a high-aspect-ratio three-dimensional metal structures, there is provided a printing method that builds a wall comprising a center part made out of a metal-containing material and left and right parts made out of a plastic material forming first and second supporting wall elements. the plastic support material may be used to enable the build-up of a high-aspect-ratio 3d structure. the proposed printing strategy may be applicable to a cost-effective 3d printing technology, such as fused deposition molding (fdm).