CNC Manufacturing Engineer

About The Position

Requirements

• Machining of aluminum, steels, aircraft alloys and plastics.
• Aerospace and Defense industry specifications.
• Design for shop tooling and fixtures.
• Machine preparatory codes ( G codes) and miscellaneous function codes (M codes)
• 3 and 5 axis milling
• Geometric dimensioning and tolerancing (GD&T)
• Manage capital equipment purchases and layout
• Program, set up, and troubleshooting CNC machines as needed.
• Work independently as well as an integral part of multifunctional teams.
• Liaise between design engineering and manufacturing.
• Communicate effectively both verbally and in written form.
• Provide technical leadership and support for multiple projects running concurrently.
• Independent decision making based on information available.
• A 4-year degree in Manufacturing Engineering, Mechanical Engineering, or a combination experience and relevant education/certifications.
• Ability to access all machines for maintenance and operation; to lift 30 pounds; to work in a standing and/or sitting position with a variety of machines.
• Good eyesight, hearing, and finger dexterity required.

Responsibilities

• Develop, simulate, and optimize CNC programs for complex aerospace components, with a strong focus on 3 and 5-axis milling machines.
• Analyze machining operations and implement engineering solutions (e.g., specialized fixturing, advanced macro programming, standardized tooling setups, and visual work instructions) to reduce the operator skill required to run complex jobs.
• Develop and document comprehensive manufacturing processes, routing steps, and standard operating procedures (SOPs) to ensure repeatable quality and maximize spindle uptime.
• Design, model, and procure custom workholding fixtures, cutting tools, and gauges to support production requirements and deskilling initiatives.
• Lead root-cause analysis on machining defects or inefficiencies.
• Apply lean manufacturing and Six Sigma principles to reduce cycle times, minimize scrap, and improve overall equipment effectiveness (OEE).
• Collaborate closely with design engineering to ensure design for manufacturability (DFM) on new products, transitioning them smoothly from prototype to high-volume production.
• Provide technical guidance and troubleshooting support to CNC setup personnel and machine operators on the shop floor.
• Advanced proficiency in CAM software (e.g., Fusion 360, Mastercam, ESPRIT, NX, or similar) for complex 3D surfacing and multi-axis toolpaths.
• Deep technical understanding of feeds, speeds, cutting tool geometries, and advanced machining strategies for aerospace-grade materials.
• Take complex CNC setups and engineering them down to reliable, operator-friendly processes (Poka-yoke/error-proofing).
• Application of AS9100 quality standards and GD&T (Geometric Dimensioning and Tolerancing) per ASME Y14.5.
• Strong analytical skills with a hands-on approach to resolving shop-floor manufacturing bottlenecks.
• Effectiveness related to cost, quality, and quantity.