RTX Forging Press Investment Strengthens US Aerospace Engine Supply Chain

RTX

RTX forging press investment in Columbus, Georgia, will expand US capacity for critical nickel- and titanium-based rotating aircraft components. The $200mn Pratt & Whitney project adds a seventh isothermal forging press and targets a 30pc increase in compressor and turbine disk output.

The RTX forging press expansion comes at a strategically important moment for aerospace manufacturing. Commercial airframers continue to face engine shortages and parts constraints, while defense programs require reliable domestic capacity for high-performance components. Forged rotating parts sit at the center of that pressure because they must withstand extreme heat, stress, and fatigue.

The new press is expected to become operational in 2028. RTX did not disclose current production levels, but the planned 30pc output increase shows that Pratt & Whitney is investing directly in one of the most constrained areas of the aerospace value chain.

Isothermal Forging Capacity Targets Engine Bottlenecks

Isothermal forging is critical for producing high-performance nickel and titanium components used in jet engines. Compressor and turbine disks require precise microstructure control, strength, and thermal stability. These are not ordinary metal parts, and qualifying new capacity takes time.

The Columbus Forge facility already supports several major engine programs, including the PW1100G geared turbofan engine for Airbus’ A320neo family. It also supports the F135 engine used in Lockheed Martin’s F-35 Lightning II fighter jet. That makes the site important for both commercial aerospace and defense readiness.

The investment also responds to a wider industry problem. Airbus build rates have been affected by engine availability, while Pratt & Whitney has been managing a powdered metal issue that grounded hundreds of narrowbody aircraft for inspection and rework. More forging capacity will not solve every engine constraint, but it strengthens a key upstream production step.

Titanium and Nickel Supply Chains Gain Strategic Importance

Nickel- and titanium-based rotating components are among the most demanding products in the aerospace materials chain. They require qualified feedstock, controlled melting, advanced forging, heat treatment, machining, inspection, and strict traceability. Any weakness in one step can delay engine deliveries.

RTX’s investment therefore has implications beyond one facility. It signals that aerospace manufacturers are rebuilding capacity in deeper parts of the supply chain, not only final assembly and MRO. This matters because engine shortages often originate from specialized materials, forgings, castings, coatings, and certified component bottlenecks.

Pratt & Whitney also recently completed a separate $70mn expansion at the Columbus Engine Center. That project added 81,000ft² of MRO capacity and increased annual service capacity by more than 25pc. Together, the forging and MRO investments show a broader strategy: increase new-part output while improving support for engines already in service.

The Metalnomist Commentary

The RTX forging press investment shows that aerospace resilience depends on metallurgical capacity as much as final aircraft demand. Nickel and titanium forging assets are becoming strategic infrastructure for both commercial engine recovery and defense supply security.