Korea Electronics Technology Institute (20240256729). METHOD AND SYSTEM FOR DETERMINING MODEL OUTPUT DIRECTION ON BASIS OF HEAT DISSIPATION CHARACTERISTIC ANALYSIS FOR STABILIZING OUTPUT OF METAL 3D PRINTING simplified abstract
METHOD AND SYSTEM FOR DETERMINING MODEL OUTPUT DIRECTION ON BASIS OF HEAT DISSIPATION CHARACTERISTIC ANALYSIS FOR STABILIZING OUTPUT OF METAL 3D PRINTING
Organization Name
Korea Electronics Technology Institute
Inventor(s)
Hwa Seon Shin of Yongin-si (KR)
METHOD AND SYSTEM FOR DETERMINING MODEL OUTPUT DIRECTION ON BASIS OF HEAT DISSIPATION CHARACTERISTIC ANALYSIS FOR STABILIZING OUTPUT OF METAL 3D PRINTING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240256729 titled 'METHOD AND SYSTEM FOR DETERMINING MODEL OUTPUT DIRECTION ON BASIS OF HEAT DISSIPATION CHARACTERISTIC ANALYSIS FOR STABILIZING OUTPUT OF METAL 3D PRINTING
Simplified Explanation: The patent application describes a method and system for determining the optimal output direction in metal 3D printing based on heat dissipation characteristics analysis to stabilize the printing process. By analyzing heat dissipation within the model, appropriate output directions are recommended to enhance output stability.
- Model output direction determined based on heat dissipation characteristics analysis
- Shape characteristic parameter derived to calculate model shape data
- Heat data change amount collected and analyzed to determine heat flatness after dissipation
- Output directions recommended in descending order of heat flatness for stabilization
- Simulation used to measure remaining heat and analyze model's heat dissipation characteristics
Key Features and Innovation:
- Utilizes heat dissipation analysis to determine optimal output direction in metal 3D printing
- Recommends output directions based on heat flatness after dissipation for stabilization
- Simulation-based approach to measure remaining heat and analyze model's characteristics
Potential Applications:
- Metal 3D printing industry
- Additive manufacturing processes
- Engineering and design fields
Problems Solved:
- Instability in metal 3D printing output
- Lack of efficient methods to determine optimal output direction
- Inconsistent heat dissipation within models
Benefits:
- Enhanced output stability in metal 3D printing
- Improved efficiency in the printing process
- Reduction in errors and defects in printed models
Commercial Applications: Optimizing Metal 3D Printing Output Direction for Enhanced Stability and Efficiency
Questions about Metal 3D Printing Output Direction: 1. How does the method proposed in the patent application contribute to stabilizing metal 3D printing output? 2. What are the key factors considered in determining the optimal output direction for metal 3D printing?
Original Abstract Submitted
provided are a method and a system for determining a model output direction on the basis of heat dissipation characteristic analysis for stabilizing output of metal 3d printing. a method for determining a model output direction on the basis of heat dissipation characteristic analysis according to an embodiment of the present invention comprises: a shape characteristic parameter deriving step in which a model output direction determining system calculates model shape characteristic data according to the output direction of a model that changes in a metal 3d printing output process; a heat data change amount collecting step in which the model output direction determining system collects simulation results regarding residual heat data of the model every time the output direction changes; a heat data change amount analyzing step in which the model output direction determining system analyzes heat dissipation characteristics inside the model on the basis of the collected simulation results, thereby calculating heat flatness after heat dissipation with regard to each output direction; and an output direction determining step in which the model output direction determining system recommends output directions in descending order of heat flatness remaining in the model on the basis of the result of calculating heat flatness after heat dissipation with regard to each output direction in the heat data change amount analyzing step. accordingly, the amount of remaining heat that changes depending on the output direction is measured through simulation, thereby analyzing heat dissipation characteristics of the model, and output directions appropriate for output stabilization are derived and are proposed to process workers, thereby contributing to output stabilization of metal 3d printing.