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Novel Metal and Ceramic Based Coatings for Military Applications




The technology within this topic is restricted under the International Traffic in Arms Regulation (ITAR), 22 CFR Parts 120-130, which controls the export and import of defense-related material and services, including export of sensitive technical data, or the Export Administration Regulation (EAR), 15 CFR Parts 730-774, which controls dual use items. Offerors must disclose any proposed use of foreign nationals (FNs), their country(ies) of origin, the type of visa or work permit possessed, and the statement of work (SOW) tasks intended for accomplishment by the FN(s) in accordance with the Announcement. Offerors are advised foreign nationals proposed to perform on this topic may be restricted due to the technical data under US Export Control Laws.


OBJECTIVE: The Defense Logistics Agency (DLA) seeks to provide responsive, best value supplies of related materials consistently to our Department of Defense (DoD) customers and other DoD stakeholders. DLA continually investigates diverse coating technologies for new or improved materials, more efficient means of their production, and more competitive domestic supply chains which would lead to higher levels of innovation in current and future systems combined with benefits to other commercial and government technology applications. In an effort to reduce costly foreign reliance and/or single points of failure, DLA is looking for domestic capability that could deposit novel metal, ceramic and organomettalic based coatings for various mililtary applications such as hypersonics, gun barrels, missile launchers, and others that could improve fleet operations and sustainment. The end goal of the project would be for the development of a domestic source that would produce industrial quantities of high corrosion and wear resistance, self-lubricating, low friction, thermallly stable coatings with a fully domestic or friendly supply chain. New and novel ideas that would allow for competitive pricing with domestically deposited coatings with novel feedstocks will have preference. Ideally, the production process would be modular and scalable.


Advanced technology demonstrations for increasing production capacity, affordability and supply chain resiliency for coating techniques and processing are of high interest to DoD.  These areas of materials and manufacturing technology provide potential opportunities toward achieving breakthrough advances for national defense. Proposed efforts funded under this topic may encompass diverse feedstock and processing at any level that will result in increasing production capacity, affordablity, and supply chain resiliency.


Research and Development (R&D) efforts selected under this topic shall demonstrate and involve a degree of risk where the technical feasibility of the proposed work has not been fully established.  Further, proposed efforts must be judged to be at a Technology and/or Manufacturing Readiness Level (TRL/MRL) 6 or less, but greater than TRL/MRL 3 to receive funding consideration.

TRL 3.  (Analytical and Experimental Critical Function and/or Characteristic Proof of Concept)

TRL 6.  (System/Subsystem Model or Prototype Demonstration in a Relevant Environment)


DESCRIPTION: The Department Of Defense (DoD) has a need for robust metal or ceramic based coatings to support operational requirements for warfighter. To this end DLA is looking for domestic capabilities and capacity to produce various different kinds of coatings including but not limited to cold spray, plasma electrolytic oxidation (PEO), diamond-like carbon (DLC), amorphous carbide, etc for advanced weapons manufacturing. Novel techniques that increase the domestic availability of technology for supply chain resiliency of coating materials will have preference. The ideal production process will be both modular and easily scalable.


PROJECT DURATION and COST: Proposals exceeding these limits will not be evaluated.

PHASE I: Not to exceed a duration of 6 months and cost of $100,000.

PHASE II: Not to exceed a duration of 18 months and cost of $1,000,000.


PHASE I: Phase I will consist of a full process flow including deposition technique, availability of feedstock and coating characterization. Thus delivering a solid proof of concept.  . A preliminary economic review must be carried out evaluating the cost vs. currently available products as well as determining the cost of production when using traditional deposition techniques. An alignment or collboartion with a relavant DoD Component organzation/supplier (e.g., DoD lab, defense system program office or prime contractor) and one or more relavant DoD weapon system supply chain participants or other suitable organization is highly desirable. 


PHASE II: Phase II will consist of making a pilot/low-rate deposition process of coatings used in at least two weapon systems. Coatings deposited will be characterized for purity, phase, thickness, adhension, wear and tear, etc. Two (2) or more sources of coating materials will be identified and tested in this process.  A lab-scale process should be used to confirm the estimates and provide preliminary cost and pricing data.  A business case will be generated using both DoD and commercial markets. Collaboration with a relavant DoD Component organzation/supplier (e.g., DoD lab and/or prime contractor) and one or more relavant DoD weapon system supply chain participants or other suitable organization is required

Identify commercial benefit or application opportunities of the innovation.  Innovative processes should be developed with the intent to readily transition to production in support of DoD and its supply chains.


PHASE III DUAL USE APPLICATIONS: At this point, no specific funding is associated with Phase III. Relationships developed and progress made in Phase I and Phase II projects should result in the ability to produce to DoD orders and organic growth of business from there.



  1. Sunil Pathak, Gobind C. Saha, Development of Sustainable Cold Spray Coatings, and 3D Additive Manufacturing Components for Repair/Manufacturing Applications: A Critical Review, Coatings 2017, 7(8), 122.
  2. Sheikh Farooq, Ankush Raina, Sanjay Mohan, Ramachandra Arvind Singh, Subramanian Jayalakshmi, and Mir Irfan Ul Haq, Nanostructured Coatings: Review on Processing Techniques, Corrosion Behavior and Tribological Performance, Nanomaterials, 2022 Apr; 12(8), 1323


KEYWORDS: Cold Spray, Coatings, Amorphous Carbide, PEO, DLC, Thermal Stability

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