TECHNIQUES TO DETERMINE IMPROVED PRINT CONFIGURATIONS IN HYBRID MANUFACTURING

Organization Name

PALO ALTO RESEARCH CENTER INCORPORATED

Inventor(s)

Matt Patterson of Raleigh NC (US)

Saigopal Nelaturi of Mountain View CA (US)

Morad Behandish of San Mateo CA (US)

TECHNIQUES TO DETERMINE IMPROVED PRINT CONFIGURATIONS IN HYBRID MANUFACTURING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240025124 titled 'TECHNIQUES TO DETERMINE IMPROVED PRINT CONFIGURATIONS IN HYBRID MANUFACTURING

Simplified Explanation

The present disclosure describes techniques for determining a configuration for 3D printing a 3D object.

• The method involves obtaining user input parameters that describe the user's objectives for the 3D object.
• A graph of hybrid manufacturing (HM) configurations is computed based on the user input parameters.
• The graph consists of nodes that represent different configurations for manufacturing the 3D object.
• Each node corresponds to a favorable print configuration with respect to two or more figures of merit.
• A selected HM configuration corresponding to a selected node is displayed to the user.

Potential applications of this technology:

• Customized manufacturing: This technique allows users to input their specific objectives for a 3D object, enabling customized manufacturing based on individual needs and preferences.
• Optimization of manufacturing configurations: The graph of HM configurations helps identify the most favorable print configurations, optimizing the manufacturing process for efficiency and quality.
• Rapid prototyping: By quickly determining the best configuration for 3D printing, this technology can facilitate rapid prototyping, allowing for faster product development cycles.

Problems solved by this technology:

• Complex decision-making: Determining the optimal configuration for 3D printing can be challenging due to various factors and objectives. This technique simplifies the decision-making process by providing a graph of configurations based on user input parameters.
• Time and resource optimization: By identifying the most favorable print configurations, this technology helps save time and resources by avoiding trial and error approaches.

Benefits of this technology:

• Customization: Users can achieve their specific objectives by customizing the manufacturing configuration for 3D printing.
• Efficiency: The technique helps optimize the manufacturing process, leading to improved efficiency in 3D printing.
• Cost savings: By avoiding unnecessary iterations and optimizing the print configurations, this technology can result in cost savings in the manufacturing process.

Original Abstract Submitted

the present disclosure provides techniques for determining a configuration for 3d printing a 3d object. an example method includes obtaining user input parameters describing one or more user objectives. the method also includes computing, by a processing device, a graph of hybrid manufacturing (hm) configurations based in part on the user input parameters, wherein the graph comprises a plurality of nodes corresponding to different configurations for manufacturing the 3d object, wherein each node corresponds with a favorable print configuration with respect to two or more figures of merit. the method also includes displaying a selected hm configuration corresponding to a selected node of the plurality of nodes.