Ames High-Rate Composite Manufacturing Facility (AHRCM)
Note: There have been new actions to this contract opportunity. To view the most recent action, please click here.
Looking for contract opportunity help?
APEX Accelerators are an official government contracting resource for small businesses. Find your local APEX Accelerator (opens in new window) for free government expertise related to contract opportunities.
APEX Accelerators are funded in part through a cooperative agreement with the Department of Defense.
The APEX Accelerators program was formerly known as the Procurement Technical Assistance Program (opens in new window) (PTAP).
General Information
- Contract Opportunity Type: Sources Sought (Updated)
- Updated Published Date: Jan 24, 2025 08:07 am PST
- Original Published Date: Dec 12, 2024 01:08 pm PST
- Updated Response Date: Feb 07, 2025 10:00 pm PST
- Original Response Date: Feb 07, 2025 10:00 pm PST
- Inactive Policy: 15 days after response date
- Updated Inactive Date: Feb 22, 2025
- Original Inactive Date: Feb 22, 2025
- Initiative:
- None
Classification
- Original Set Aside:
- Product Service Code: AR12 - SPACE R&D SERVICES; SPACE FLIGHT, RESEARCH AND SUPPORTING ACTIVITIES; APPLIED RESEARCH
- NAICS Code:
- 927110 - Space Research and Technology
- Place of Performance: Moffett Field , CA 94035USA
Description
NASA Ames Research Center (ARC) is hereby soliciting information from potential sources for manufacturing process development of high-rate composites for aerospace applications.
Description
The National Aeronautics and Space Administration (NASA) Ames Research Center (ARC), on behalf of the Engineering Directorate and Aeronautics Directorate, is hereby soliciting information from potential sources regarding high-rate thermoplastic manufacturing technologies and process development. NASA is interested in engaging with government, industry, and academia for collaborations to develop thermoset and thermoplastic manufacturing processes tailored, but not limited, to aerospace applications with the Ames High-Rate Composite Manufacturing Facility (AHRCM). The AHRCM supports the research and development of aerospace materials processes (particularly for thermoplastic composites), modeling, and large structures with the goal of mitigating labor-in-the-loop manufacturing bottlenecks by increasing volumetric fabrication throughput of composites and reducing inertial assembly errors as a virtue of robotic automation.
This Request for Information (RFI) serves to solicit organizations that have demonstrated heritage referencing composite materials for aerospace applications, particularly those pertaining to aeronautics, spacecraft, intelligent structures, automotive, and other high-rate thermoset & thermoplastic manufacturing applications.
Background
The emerging Advanced Air Mobility (AAM) industry must rely heavily on advanced composite materials to build vehicles that will meet the performance and safety requirements needed to achieve commercial success. These electrically powered vertical takeoff and landing (eVTOL) vehicles must make extensive use of light-weight carbon fiber composite structures and components to maximize vehicle range and payload achievable with the energy storage density of foreseeable battery technology. Using conventional metallic materials for this application is not an option because:
· Metallic structures are heavy, reducing the achievable vehicle payloads and ranges to impractical levels.
· Traditional aircraft production rates, utilizing the current state-of-the-art in materials and production methods approach 1,000 aircraft per year. To be economically feasible, AAM aircraft production rates must reach 5,000 or more aircraft per year.
Significant reductions in composite manufacturing costs, large improvements in manufacturing consistency and rates of production, will be required to meet vehicle cost goals and allow mass-produced components to be certified by the FAA. The automotive industry has begun to develop high-rate manufacturing processes for automobiles that achieve significant reductions in manufacturing cost, but these methods have not yet been applied to the manufacture of aerospace components that require very high levels of quality assurance.
Ames Research Center developed AHRCM in 2021 as a composite manufacturing facility that specializes in the rapid processing of thermoset Carbon Fiber Reinforced Polymers (CFRP). The facility was created to reduce the time-to-part for aerospace components, using industry-standard High-Pressure Resin Transfer Molding (HP-RTM) and thermoset CFRP thermoforming, also referred to as prepreg “stamp-forming” or “drape-molding.”
Located in the high bay of a historic aviation hangar, thermoforming is accommodated by two independent automated manufacturing lines: preforming and final thermoforming. The preforming stage currently contains a 6-DOF ABB Robotics charge loading manipulator, a conductive and infrared heating platen, 20 pneumatic grippers mounted on a shuttling system, a 300-ton press, and a 6-DOF ABB unloading manipulator. This capability was designed for thermoset CFRP preforming, and as such can subject a ~1-foot by 4-foot CFRP prepreg 7-ply charge through ~350C in the preforming platen and ~250C in a preforming drape mold with up to 300 tons of force. The final thermoforming line contains a 6-DOF ABB charge loading manipulator, a 3,600-ton press, a heating system that can heat molds with ~250C via thermal fluid, a 6-DOF ABB unloading manipulator and an HP-RTM capability which can be integrated for compatibility with non-prepreg composites.
Ames is particularly interested in collaborating to develop advanced composite modeling and thermoplastic composite manufacturing processes by retrofitting AHRCM’s current thermoforming lines. Thermoplastic CFRP requires elevated temperatures at ~300C - 385C, varying with respect to the specific fiber and resin matrix utilized. Initial feasibility studies and empirical testing demonstrate that AHRCM may be retrofit for compatibility with thermoplastic CFRP, while maintaining the current high-rate automated configuration.
Additional information regarding the facility may be referenced at:
https://www.nasa.gov/ahrcm/
Requested Information
-Descriptions of composite manufacturing techniques utilized, with applications demonstrating developed technical heritage by the interested party. Of particular interest are high-rate, large-scale manufacturing processes for thermoplastic and thermoset materials in aerospace applications.
-Non-Metallic materials testing conducted by the interested party, including details referencing developed mechanical properties, material properties, and non-destructive evaluation techniques.
-Demonstrated expertise of process development for non-metallic materials. Specific capabilities of interest are line modeling, in-situ process control, and process qualification.
-Applications of interest for applying high-rate thermoplastic and thermoset composite manufacturing processes.
The National Aeronautics and Space Administration (NASA) ARC is seeking capability statements from all interested parties, including all socioeconomic categories of Small Businesses and Historically Black Colleges and Universities (HBCU)/Minority Institutions (MI) for the purposes of determining the appropriate level of competition and/or small business subcontracting goals for manufacturing process development of high-rate composites for aerospace applications. The Government reserves the right to consider a Small, 8(a), Women-owned (WOSB), Service Disabled Veteran (SD-VOSB), Economically Disadvantaged Women-owned Small Business (EDWOSB) or HUBZone business set-aside based on responses received.
No solicitation exists; therefore, do not request a copy of the solicitation. If a solicitation is released, it will be synopsized on SAM.gov. Interested firms are responsible for monitoring this website for the release of any solicitation or synopsis.
Vendors having the capabilities necessary to meet or exceed the stated requirements are invited to submit appropriate documentation, literature, brochures, and references.
All responses shall be submitted electronically via email to Alex Mazhari at N210@nasa.onmicrosoft.com and a.mazhari@nasa.gov no later than February 7th, 2025 at 22:00 PST. Please reference AHRCM RFI in any response.
This synopsis is for information and planning purposes only and is not to be construed as a commitment by the Government nor will the Government pay for information solicited. Respondents will not be notified of the results of the evaluation.
Attachments/Links
Contact Information
Contracting Office Address
- MOFFETT FIELD CA 94035
- MOFFETT FIELD , CA 94035
- USA
Primary Point of Contact
- Alex Mazhari
- N210@nasa.onmicrosoft.com
Secondary Point of Contact
- Noor Khazendar
- noor.khazendar@nasa.gov
History
- Feb 06, 2025 11:50 am PSTSources Sought (Updated)
- Jan 24, 2025 08:07 am PSTSources Sought (Updated)
- Dec 12, 2024 01:08 pm PSTSources Sought (Original)