Gas Atomized Cobalt-Chrome Powder Market latest Statistics on Market Size, Growth, Production, Sales Volume, Sales Price, Market Share and Import vs Export \

Gas Atomized Cobalt-Chrome Powder Market Summary Highlights

The global Gas Atomized Cobalt-Chrome Powder Market is estimated at approximately USD 1.18 billion in 2026, supported by rising demand from aerospace additive manufacturing, orthopedic implants, dental prosthetics, and high-temperature industrial coating applications. Procurement activity across aerospace and medical sectors remained resilient through late 2025 and early 2026, particularly in North America, Germany, Japan, and South Korea, where manufacturers increased investments in metal additive manufacturing capacity and advanced powder metallurgy infrastructure.

Demand patterns are increasingly linked to qualification standards rather than volume-only consumption. Aerospace turbine components, medical-grade implant powders, and wear-resistant industrial coatings continue to account for the highest-value consumption categories. Market expansion is also being influenced by tighter powder morphology requirements, particle size distribution optimization, and lower oxygen-content specifications required for laser powder bed fusion and directed energy deposition systems.

Production economics remain sensitive to cobalt feedstock pricing. Cobalt price volatility during 2025 created procurement pressure for powder producers dependent on refined cobalt supply from the Democratic Republic of Congo and Indonesia-linked refining networks. Several powder manufacturers responded by expanding recycling loops and improving powder reuse efficiency in additive manufacturing environments.

Recent developments continue to shape industry direction. In October 2025, GE Aerospace expanded additive manufacturing investment programs for aerospace engine components, increasing demand for specialty alloy powders including cobalt-chrome grades used in combustor and turbine applications. In February 2026, Sandvik announced additional metal powder production optimization initiatives focused on medical and industrial additive manufacturing feedstocks. In November 2025, EOS GmbH introduced updated process parameter packages for cobalt-chrome alloy powders targeting improved density consistency in medical implant printing. Meanwhile, Japan’s industrial policy support for advanced manufacturing materials accelerated in 2025 through subsidies connected to high-performance powder metallurgy and domestic supply chain resilience.

Statistical Snapshot of the Gas Atomized Cobalt-Chrome Powder Market

• Global market valuation projected at USD 1.18 billion in 2026, with forecast CAGR of 7.9% through 2032.
• Aerospace applications account for nearly 34% of total revenue share in 2026.
• Medical and dental implant manufacturing contributes approximately 28% of overall powder consumption.
• Laser Powder Bed Fusion (LPBF) processes represent over 46% of additive manufacturing demand for cobalt-chrome powders.
• North America maintains nearly 32% share of global revenue due to aerospace and defense manufacturing activity.
• Europe accounts for approximately 29% of market demand, supported by Germany, France, and Scandinavian industrial manufacturing clusters.
• Particle sizes below 45 microns comprise more than 52% of premium-grade powder shipments.
• Industrial coating applications are projected to expand at over 6.5% CAGR through 2032.
• Recycled powder reuse rates in aerospace additive manufacturing environments increased by nearly 18% between 2024 and 2026.
• Asia-Pacific is expected to record the fastest regional growth, exceeding 9% CAGR through 2032.
• Medical-grade cobalt-chrome powder pricing remained 11–14% higher than industrial-grade equivalents during early 2026 due to certification requirements.
• Vacuum and inert-gas atomization technologies together account for more than 70% of high-purity production capacity worldwide.

Aerospace Additive Manufacturing Continues to Support Premium Powder Demand

Aerospace manufacturing remains one of the strongest demand anchors for the Gas Atomized Cobalt-Chrome Powder Market. The industry’s focus on lightweight components, thermal resistance, and production efficiency has expanded the use of cobalt-chrome alloys in additive manufacturing for turbine engines, combustion systems, and wear-resistant structural parts.

Aircraft order backlogs remained elevated entering 2026. Commercial aerospace manufacturers increased outsourcing activity for specialized powder-fed additive manufacturing components, particularly in North America and Western Europe. High-temperature cobalt-chrome alloys are increasingly preferred in applications where nickel-based alloys face fatigue or oxidation limitations during extended operational cycles.

In January 2026, Safran confirmed expanded additive manufacturing deployment across propulsion component production programs, including metallic powder-based manufacturing systems for aerospace-grade alloys. The expansion contributed to stronger procurement contracts for atomized alloy powder suppliers serving certified aerospace programs.

Powder quality requirements are also becoming more stringent. Aerospace buyers increasingly demand:

• Lower oxygen content
• High flowability
• Narrow particle size distribution
• Spherical morphology above 95%
• Reduced satellite particle formation

These parameters directly favor gas atomization technology over water atomization methods because aerospace applications require superior powder consistency and repeatability.

The rise in defense-sector investment is adding another layer of demand support. Increased military aviation budgets in the United States, India, and NATO economies during 2025–2026 accelerated procurement of advanced metal powders used in repair and maintenance applications. Directed energy deposition systems for defense maintenance operations are becoming a notable secondary growth area for cobalt-chrome powder suppliers.

Medical Implant Manufacturing Expands Consumption of High-Purity Powders

Orthopedic and dental applications continue to strengthen the position of cobalt-chrome powders within precision healthcare manufacturing. Hip implants, knee replacements, spinal devices, and dental prosthetics increasingly rely on additive manufacturing to improve customization and reduce material waste.

The medical segment within the Gas Atomized Cobalt-Chrome Powder Market benefits from demographic and procedural trends rather than short-term industrial cycles. Aging populations in Japan, Germany, Italy, China, and the United States continue to support long-term implant demand growth.

Medical manufacturers are prioritizing powders capable of delivering:

• High biocompatibility
• Corrosion resistance
• Mechanical stability
• Smooth surface finish
• Dense microstructures after printing

In September 2025, 3D Systems expanded its healthcare additive manufacturing collaboration initiatives focused on patient-specific implants and surgical solutions. The expansion increased demand for certified cobalt-chrome powders used in implant-grade additive manufacturing workflows.

The dental segment is also evolving rapidly. Dental laboratories increasingly shifted toward digital workflows between 2024 and 2026, accelerating the adoption of cobalt-chrome alloy powders for crowns, bridges, and removable partial dentures. Several European dental manufacturing groups reported double-digit increases in metal additive manufacturing throughput during late 2025.

Regulatory compliance continues to influence supplier selection. ISO 13485 certification, ASTM standards for implant-grade alloys, and traceability requirements are raising barriers for smaller powder suppliers. Larger integrated powder manufacturers are gaining share because healthcare customers prioritize supply reliability and batch-level documentation.

Asia-Pacific Manufacturing Investments Are Reshaping Supply Dynamics

Asia-Pacific has emerged as the fastest-growing regional contributor to the Gas Atomized Cobalt-Chrome Powder Market, driven by industrial policy support, aerospace localization programs, and domestic additive manufacturing expansion.

China increased strategic investments in metal additive manufacturing capabilities through 2025, particularly in aerospace, medical technology, and industrial tooling. Domestic powder manufacturers expanded inert gas atomization capacity to reduce reliance on imported specialty alloy powders.

India is also becoming increasingly relevant in precision manufacturing and defense-linked additive manufacturing initiatives. Government-backed manufacturing programs encouraged local sourcing of advanced engineering materials, including high-performance alloy powders used in aerospace maintenance and medical production.

South Korea and Japan remain technology-intensive markets with strong demand for fine-particle spherical powders used in high-resolution printing applications. Japanese industrial firms continued investing in advanced powder metallurgy systems throughout 2025 to improve domestic production resilience for strategic materials.

Regional growth is also tied to electric mobility and industrial wear-resistant applications. Although cobalt-chrome alloys are not dominant battery materials, they remain important in high-friction industrial systems, turbine components, and precision mechanical assemblies linked to broader industrial automation trends.

Powder Recycling and Sustainability Are Becoming Competitive Factors

Material utilization efficiency has become a critical purchasing consideration across additive manufacturing operations. Powder recycling systems capable of maintaining consistent chemistry and particle morphology are increasingly valued because cobalt remains expensive and supply chains remain vulnerable to geopolitical disruption.

The Gas Atomized Cobalt-Chrome Powder Market is witnessing greater investment in:

• Closed-loop powder recovery systems
• Sieving automation
• Powder contamination monitoring
• Oxygen-content management technologies
• AI-assisted process monitoring for reuse qualification

In March 2026, Carpenter Technology Corporation highlighted expanded specialty alloy recycling initiatives linked to additive manufacturing feedstock optimization. Similar programs across Europe focused on reducing scrap rates and improving powder lifecycle economics.

Sustainability pressures are becoming more visible in procurement decisions, especially among European aerospace and medical OEMs. Buyers increasingly request lifecycle emissions information and recycled-content transparency for metal powders used in certified production environments.

At the same time, cobalt sourcing ethics remain under scrutiny. Manufacturers with diversified refining partnerships and traceable sourcing frameworks are gaining preference among multinational industrial customers seeking supply-chain risk reduction.

Advanced Atomization Technology Is Improving Powder Performance

Competition within premium powder manufacturing increasingly depends on process sophistication rather than simple production scale. Producers are investing heavily in advanced atomization systems that improve powder sphericity, minimize contamination, and enhance flow characteristics.

Vacuum inert gas atomization systems are seeing wider adoption for medical and aerospace grades because they provide:

• Lower oxidation levels
• Improved powder purity
• Better consistency across production batches
• Reduced defect formation during printing

The market is also seeing increased development of ultra-fine particle distributions tailored for high-resolution additive manufacturing systems. Fine powders below 20 microns are becoming increasingly important in medical micro-components and specialized aerospace assemblies.

In December 2025, Praxair Surface Technologies expanded specialty powder processing capabilities targeting advanced thermal spray and additive manufacturing applications. Such investments indicate continued movement toward higher-margin engineered powder products rather than commodity alloy powders.

Process qualification cycles remain lengthy, especially in aerospace and healthcare. Once suppliers are approved within certified production systems, replacement risks remain relatively low. This continues to favor established manufacturers with proven metallurgical consistency, documented quality systems, and long-term technical partnerships.

Geographical Demand Patterns in the Gas Atomized Cobalt-Chrome Powder Market

Regional consumption trends in the Gas Atomized Cobalt-Chrome Powder Market increasingly reflect the concentration of aerospace engine manufacturing, medical implant production, and advanced additive manufacturing infrastructure rather than conventional metallurgical demand alone. North America and Europe continue to dominate premium-grade consumption, while Asia-Pacific is recording the fastest production and application expansion.

The United States remains the single largest national market due to its aerospace and defense ecosystem. Demand for cobalt-chrome alloy powders strengthened further during 2025–2026 as aircraft engine suppliers expanded additive manufacturing programs for turbine and combustion applications. The U.S. Department of Defense continued allocating funding toward advanced manufacturing and repair technologies, including metal additive systems used for maintenance of military aviation assets. This has increased procurement of spherical cobalt-based powders optimized for laser powder bed fusion and directed energy deposition.

Medical applications are also heavily concentrated in North America. The American Joint Replacement Registry indicated continued procedural growth in knee and hip replacement volumes entering 2026, directly supporting implant-grade powder demand. Orthopedic manufacturers increasingly shifted toward porous lattice implant structures produced through additive manufacturing, particularly for spinal and trauma devices requiring high mechanical strength and biocompatibility.

Europe maintains a strong position in the Gas Atomized Cobalt-Chrome Powder Market due to its dense aerospace, medical technology, and industrial engineering base. Germany accounts for a substantial share of European consumption, supported by precision manufacturing clusters and industrial automation investment. France and the United Kingdom continue to generate strong aerospace-linked powder demand through aircraft engine manufacturing and maintenance operations.

Italy and Switzerland remain important contributors in dental applications. European dental laboratories accelerated digital manufacturing adoption between 2024 and 2026, increasing usage of cobalt-chrome powders for crowns, frameworks, and partial denture production. Several dental production facilities transitioned away from traditional casting methods toward selective laser melting systems due to improved precision and lower material wastage.

Asia-Pacific is showing the strongest acceleration in both production and end-use consumption. China expanded domestic additive manufacturing investment under advanced manufacturing initiatives tied to aerospace independence and industrial modernization. Industrial metal 3D printing installations in China increased substantially through late 2025, creating higher demand for locally produced cobalt-chrome powders.

Japan continues to focus on ultra-fine and high-purity alloy powder applications. Demand is strongest in medical implants, industrial coatings, and precision engineering components where strict powder morphology control is required. South Korea is also expanding its role in industrial additive manufacturing, particularly in automotive tooling and specialized mechanical systems.

India’s contribution remains smaller in absolute terms but is expanding steadily. Aerospace maintenance programs, defense manufacturing localization, and growth in medical device production are supporting incremental demand increases. Government-linked initiatives promoting domestic manufacturing capability have encouraged local adoption of additive manufacturing technologies in industrial and defense applications.

Gas Atomized Cobalt-Chrome Powder Production Trends and Capacity Expansion

Global Gas Atomized Cobalt-Chrome Powder production increased notably between 2024 and 2026 as manufacturers responded to stronger aerospace and medical demand. Production capacity expansion has been concentrated in North America, Europe, China, and Japan, where suppliers invested in vacuum inert gas atomization systems capable of producing highly spherical low-oxygen powders.

Premium-grade Gas Atomized Cobalt-Chrome Powder production is increasingly dependent on advanced atomization infrastructure rather than conventional alloy melting capacity. Manufacturers are prioritizing:

• Fine particle distribution control
• High batch consistency
• Reduced contamination
• Improved powder flowability
• Narrow oxygen specifications

Several leading producers expanded specialty powder operations during 2025. New inert gas atomization lines commissioned in Europe and North America improved output for aerospace-certified and medical-grade cobalt-chrome powders. China also accelerated domestic Gas Atomized Cobalt-Chrome Powder production to reduce import dependence for strategic manufacturing sectors.

Production economics remain closely linked to cobalt feedstock availability. Refining concentration in the Democratic Republic of Congo and Indonesia-linked processing networks continues to expose manufacturers to raw material volatility. Powder producers increasingly adopted recycling systems and powder reclamation technologies to improve yield efficiency and reduce dependence on virgin cobalt inputs.

Segmentation Highlights in the Gas Atomized Cobalt-Chrome Powder Market

By Particle Size

• Below 15 microns witnessing strong growth in medical micro-component applications
• 15–45 microns remains the dominant category for laser powder bed fusion systems
• Above 45 microns widely used in thermal spray and industrial coating operations

By Application

• Aerospace components account for the largest revenue share due to stringent material requirements
• Medical implants and dental prosthetics maintain strong premium-grade demand
• Industrial coatings continue expanding in wear-resistant and corrosion-resistant applications
• Energy sector applications increasing in turbine maintenance and repair systems

By Manufacturing Technology

• Vacuum inert gas atomization dominates aerospace and medical-grade production
• Plasma atomization gaining traction in ultra-high purity applications
• Conventional inert gas atomization remains widely used for industrial grades

By Region

• North America leads in aerospace and defense consumption
• Europe maintains strong demand from healthcare and precision engineering industries
• Asia-Pacific records the fastest growth in additive manufacturing investments
• Middle East demand gradually increasing through aviation maintenance activities

Market Segmentation Dynamics Across End-Use Industries

The aerospace industry continues to account for the highest-value segment within the Gas Atomized Cobalt-Chrome Powder Market because qualification standards and material specifications remain extremely demanding. Aerospace-grade powders often command pricing premiums exceeding 25% compared to industrial-grade material due to certification costs and tighter process controls.

Medical and dental applications form the second-largest segment. Implant manufacturers increasingly require powders with:

• Extremely low impurity levels
• Controlled microstructure behavior
• Stable mechanical properties
• High fatigue resistance

Healthcare applications are less vulnerable to short-term economic fluctuations than industrial manufacturing, helping stabilize long-term demand patterns.

Industrial coatings remain an important volume segment. Thermal spray coatings using cobalt-chrome powders are widely applied in:

• Oil and gas components
• Power generation equipment
• Marine engineering systems
• Heavy industrial machinery

These applications benefit from cobalt-chrome alloys’ resistance to abrasion, corrosion, and high-temperature wear.

Energy-sector applications are gradually expanding as gas turbine maintenance requirements increase. Several maintenance providers adopted additive repair technologies during 2025–2026 to extend component life cycles while reducing replacement costs.

Gas Atomized Cobalt-Chrome Powder Price Analysis

The Gas Atomized Cobalt-Chrome Powder Price environment remained volatile through 2025 and early 2026 due to fluctuations in cobalt feedstock pricing, energy costs, and aerospace-grade alloy demand.

Medical and aerospace-certified powders continue to command substantial premiums because of:

• Complex certification requirements
• Traceability obligations
• Higher rejection sensitivity
• Specialized atomization processes

Average aerospace-grade Gas Atomized Cobalt-Chrome Powder Price levels during early 2026 were estimated 18–22% above standard industrial-grade equivalents. Fine particle distributions below 20 microns also carried higher pricing due to lower production yields and stricter classification requirements.

Energy prices influenced European production costs significantly during 2025, especially for atomization facilities dependent on electricity-intensive vacuum systems. This contributed to temporary upward pressure on European export pricing during late 2025.

At the same time, increasing Chinese domestic production capacity moderated some pricing pressure in Asia-Pacific industrial-grade markets. However, premium aerospace and medical segments remained relatively insulated from aggressive price competition because customers prioritize qualification history and material consistency over low-cost sourcing.

Gas Atomized Cobalt-Chrome Powder Price Trend

The overall Gas Atomized Cobalt-Chrome Powder Price Trend between 2024 and 2026 reflected alternating periods of raw material inflation and supply normalization. Cobalt feedstock price swings remained the primary market influence, particularly after supply disruptions and refining bottlenecks impacted global metal availability during parts of 2025.

The Gas Atomized Cobalt-Chrome Powder Price Trend also showed divergence between commodity-grade and specialty-grade materials. Industrial coating powders experienced relatively moderate price movement due to broader supplier availability, while medical and aerospace powders recorded firmer pricing because of limited qualified production capacity.

Powder recycling initiatives are beginning to moderate long-term pricing pressure. Aerospace and healthcare manufacturers improved powder reuse efficiency rates during 2025–2026 through enhanced sieving and contamination monitoring systems. This reduced material wastage and improved operational economics for additive manufacturing users.

Looking ahead, the Gas Atomized Cobalt-Chrome Powder Price Trend is expected to remain moderately elevated through the near term as aerospace production activity strengthens and medical implant manufacturing volumes continue rising globally. Premium-grade powder categories are likely to retain higher margins because qualification barriers and quality-control requirements remain difficult for new entrants to replicate.

Leading Manufacturers in the Gas Atomized Cobalt-Chrome Powder Market

The competitive landscape of the Gas Atomized Cobalt-Chrome Powder Market is shaped by a relatively small group of manufacturers with strong expertise in alloy metallurgy, inert gas atomization, and additive manufacturing feedstock engineering. Aerospace and medical applications continue to favor suppliers with long qualification histories, stable production consistency, and advanced powder characterization capabilities.

Large manufacturers maintain an advantage because high-end cobalt-chrome powders require strict control over:

• Particle sphericity
• Oxygen content
• Flowability
• Particle size distribution
• Microstructural uniformity

Qualification standards in aerospace turbine manufacturing and orthopedic implants remain difficult for new entrants to meet. As a result, market concentration remains higher in premium-grade powders than in industrial-grade applications.

Gas Atomized Cobalt-Chrome Powder Market Share by Manufacturers

The top five companies collectively account for more than half of total global revenue in the Gas Atomized Cobalt-Chrome Powder Market during 2026. Their dominance is strongest in medical and aerospace-grade materials, where technical certification and long-term supply agreements play a major role.

Sandvik remains one of the leading participants in specialty metal powders for additive manufacturing. Its Osprey powder portfolio includes cobalt-chrome alloy powders used in laser powder bed fusion, aerospace tooling, and industrial wear-resistant components. The company benefits from strong penetration across European aerospace and medical manufacturing sectors.

Carpenter Technology Corporation continues to strengthen its position through the Carpenter Additive business segment. The company supplies high-purity cobalt-chrome powders designed for demanding additive manufacturing applications, particularly in aerospace propulsion systems and medical implants. Vertical integration in alloy melting and powder production provides tighter quality control and greater consistency in powder chemistry.

Oerlikon maintains a significant market presence through its additive manufacturing materials and surface technology operations. Its MetcoAdd product range includes cobalt-chrome powders used for additive manufacturing and thermal spray applications. The company has expanded its focus on aerospace repair technologies and industrial coatings, supporting steady demand for engineered alloy powders.

Praxair Surface Technologies remains influential in the industrial coatings and aerospace maintenance segment. The company’s cobalt-based alloy powders are widely used in turbine repair, wear-resistant coatings, and additive manufacturing systems requiring high-temperature corrosion resistance.

Höganäs AB continues expanding its advanced powder metallurgy portfolio, particularly for precision engineering and industrial additive manufacturing applications. The company’s expertise in powder processing and particle engineering supports its growing role in specialty alloy feedstocks.

Asian manufacturers are becoming increasingly competitive, especially in industrial-grade powders. Chinese suppliers such as CNPC Powder and Avimetal expanded production capability between 2024 and 2026 to support domestic aerospace manufacturing and additive manufacturing localization programs. However, premium aerospace and implant-grade categories continue to be dominated by established Western and Japanese producers due to certification requirements.

Product Line Expansion and Alloy Development

Manufacturers within the Gas Atomized Cobalt-Chrome Powder Market are increasingly focusing on application-specific alloy development instead of standardized bulk production. Powder formulations are now optimized for:

• Medical implants
• Dental prosthetics
• Aerospace combustion systems
• Industrial thermal spray coatings
• Energy-sector repair applications

Sandvik’s Osprey cobalt-chrome powders continue gaining traction in aerospace and medical additive manufacturing because of their consistent morphology and narrow particle size distribution. Fine-particle grades designed for laser powder bed fusion systems are becoming increasingly important as component geometries become more complex.

Carpenter Additive has emphasized engineered powders capable of supporting repeatable printing performance across aerospace-certified additive manufacturing platforms. The company’s alloy development programs increasingly focus on fatigue resistance and oxidation stability in high-temperature applications.

Oerlikon has expanded specialized alloy offerings for industrial wear applications and turbine repair systems. Demand for thermal spray cobalt-chrome powders remains stable in oil and gas, power generation, and heavy industrial machinery.

Manufacturers are also developing ultra-fine powders below 20 microns for high-resolution medical printing applications. These powders support improved surface finish and structural precision in orthopedic and dental implants.

Competitive Strategies Reshaping the Market

Competition in the Gas Atomized Cobalt-Chrome Powder Market increasingly depends on process capability rather than production volume alone. Leading manufacturers are investing in:

• Vacuum inert gas atomization systems
• Powder recycling technologies
• Advanced sieving systems
• AI-assisted quality inspection
• Automated powder handling systems

Powder recycling compatibility has become a major competitive factor because cobalt feedstock costs remain volatile. Additive manufacturing operators increasingly seek powders capable of maintaining stable chemistry after multiple reuse cycles.

Several producers are also strengthening partnerships with additive manufacturing equipment manufacturers. System-specific powder optimization helps improve print density, reduce defect formation, and enhance customer retention.

Medical-grade suppliers are investing heavily in traceability infrastructure and documentation systems to comply with evolving regulatory requirements. Implant manufacturers increasingly demand batch-level validation, contamination control, and lifecycle material tracking.

Regional Manufacturing Influence

North America continues to lead in aerospace-certified cobalt-chrome powder production due to strong defense spending and advanced aircraft engine manufacturing activity. The United States remains a major center for aerospace additive manufacturing qualification programs.

Europe maintains strong production capability through Germany, Sweden, Switzerland, and the United Kingdom. European manufacturers benefit from established medical device industries and advanced industrial engineering infrastructure.

China has rapidly expanded domestic powder manufacturing capacity since 2024. Investments in aerospace independence and industrial modernization encouraged local production of additive manufacturing feedstocks, including cobalt-chrome alloys. However, imported premium powders still maintain strong positioning in high-specification aerospace and medical applications.

Japan remains highly specialized in ultra-pure fine powder production, particularly for precision engineering and medical technologies requiring strict morphology control.

Recent Industry Developments and Company Updates

• January 2026: Sandvik expanded specialty metal powder optimization programs focused on medical additive manufacturing and industrial alloy consistency improvement.
• February 2026: Carpenter Technology Corporation increased investment in additive manufacturing feedstock development targeting aerospace propulsion applications.
• October 2025: Oerlikon expanded thermal spray and additive manufacturing material capabilities for aerospace maintenance and turbine repair operations.
• December 2025: Praxair Surface Technologies enhanced advanced powder processing operations supporting high-performance coating applications.
• November 2025: EOS GmbH introduced updated cobalt-chrome parameter packages designed to improve density consistency and print repeatability in medical manufacturing.
• March 2026: Several Chinese powder manufacturers accelerated domestic inert gas atomization expansion projects to support aerospace localization and industrial additive manufacturing growth.
• Late 2025 through early 2026: Multiple aerospace OEMs strengthened procurement agreements with qualified cobalt-chrome powder suppliers amid rising demand for turbine and combustor additive manufacturing applications.