SOURCES SOUGHT
99 -- Request for Information on PM-HIP Modeling Tools
- Notice Date
- 5/11/2022 4:25:24 AM
- Notice Type
- Sources Sought
- NAICS
- 541715
— Research and Development in the Physical, Engineering, and Life Sciences (except Nanotechnology and Biotechnology)
- Contracting Office
- FLUOR MARINE PROPULSION - DOE CONTRACTOR Schenectady NY 12301 USA
- ZIP Code
- 12301
- Solicitation Number
- FMP-NNL-0013-R1
- Response Due
- 6/10/2022 2:00:00 PM
- Point of Contact
- Louis Piechota, Phone: 5183957881, Connor McAdam, Phone: 5183957823
- E-Mail Address
-
ATIP@unnpp.gov, ATIP@unnpp.gov
(ATIP@unnpp.gov, ATIP@unnpp.gov)
- Description
- NNL is issuing this request for information to identify sources capable of providing or developing a software analysis tool to predict the final shape of components formed by the powder-metallurgy hot isostatic pressing (HIP) process.� Accurate final shape prediction will be used to facilitate HIP canister design and production of near-net shape components.� The tool can either be a standalone software package or else make use of existing commercially available software (for example, a user-defined material subroutine for Abaqus or Ansys).� Desired capabilities include: ��� �Evaluate arbitrary / complex geometric canister shapes ��� �Evaluate arbitrary distributions of powder density within a canister, within the range typically associated with the HIP process (e.g., ~55% to 100% relative density) ��� �Evaluate multiple powder metal alloys for which appropriate material data is provided. ��� �Capture both time-independent plasticity and creep effects ��� �Either include or support the use of optimization software to establish a canister design based on iterative analyses Because the relative density of powder in a canister is important to predicting the final shape, the ideal analysis tool would also be capable of predicting the relative density distribution in a canister given details about the canister filling process (powder properties, fill stem locations, vibration etc.).� However, it is recognized that this is a separate physical problem and will likely require a separate software package to solve.� � Keywords: PM-HIP, Powder Metallurgy, Hot Isostatic Pressing, Software, Canister, Modeling, Near Net Shape, Densification, Finite Element Analysis �
- Web Link
-
SAM.gov Permalink
(https://sam.gov/opp/d12c82300dd043f08b5eb30a14713e65/view)
- Place of Performance
- Address: USA
- Country: USA
- Record
- SN06324774-F 20220513/220511230106 (samdaily.us)
- Source
-
SAM.gov Link to This Notice
(may not be valid after Archive Date)
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