ANISOTROPIC ADDITIVE MANUFACTURING OPTIMIZATION TECHNOLOGY FOR GREATER 3D PRINTING EFFICIENCY

AI Summary

The Department of Energy is seeking partners for licensing a technology that optimizes 3D printing parameters to enhance anisotropic material properties. This technology aims to reduce costs and eliminate the need for experimental testing by creating a comprehensive database of material properties. Interested companies should focus on commercializing these innovations across various industries.

Contract details

Solicitation No.: BA-1199
Notice Type: Special Notice
Posted Date: April 20, 2026
Response Deadline: September 18, 2026
NAICS Code: 33324 AI guide
PSC / Class Code: AJ11
Issuing Office: BATTELLE ENERGY ALLIANCE–DOE CNTR
Sub-Agency: DEPARTMENT OF ENERGY
Agency: DEPARTMENT OF ENERGY
Primary Contact: Javier Martinez
City: Idaho Falls
State: ID
ZIP Code: 83415
AI Product/Service: both

Description

Description:

This licensable technology focuses on optimizing various 3D printing parameters such as infill density, geometry, layer thickness, and material distribution to enhance the anisotropic material properties of printed parts. This research aims to create a database of material properties for single and dual material 3D printed parts, enabling accurate prediction of part behavior under real-world conditions without the need for additional experimental testing.

Key Advantages:

Significant reduction in material costs and 3D printing expenses.
Elimination of the need for post-design experimental testing.
Creation of a comprehensive database for anisotropic material properties.
Enables accurate and reliable design and numerical modeling of 3D printed parts.
Opens new avenues for the application of 3D printing technology across various industries.

Problems Solved:

Current limitation of isotropic material properties assumption in 3D printed parts design.
Lack of reliable data for predicting the real-world behavior of 3D printed parts.
High costs and inefficiencies associated with additional experimental testing.
Difficulty in optimizing 3D printing parameters for enhanced part performance.

Market Applications:

Industrial design and manufacturing for aerospace, military, engineering, architecture, construction, and medical industries.
Development of high-performance, cost-effective 3D printed parts for critical applications.
Software and simulation tools for predictive modeling of 3D printed parts.
Consultancy services for optimizing 3D printing processes in manufacturing.

INL’s Technology Deployment department focuses solely on licensing intellectual property and collaborating with industry partners who can commercialize our innovations.

We do not engage in purchasing, procurement, or hiring external services for technology development. Our objective is to connect with companies interested in licensing and bringing our technologies to market.

Key dates

April 20, 2026Posted Date
September 18, 2026Proposals / Responses Due

AI search tags

3d printing manufacturing technology material optimization industrial design consultancy services

Frequently asked questions

ANISOTROPIC ADDITIVE MANUFACTURING OPTIMIZATION TECHNOLOGY FOR GREATER 3D PRINTING EFFICIENCY is a federal acquisition solicitation issued by DEPARTMENT OF ENERGY. Review the full description, attachments, and submission requirements on SamSearch before the response deadline.