Senior Tooling Development Engineer

About The Position

Requirements

• Bachelor's degree in Mechanical Engineering, Manufacturing Engineering, Engineering Technology, or related discipline, with 5+ years of relevant hands-on tooling design and fabrication experience; OR Associate's degree in Mechanical Engineering Technology, Tool & Die, Manufacturing Engineering Technology, or related discipline, with 8+ years of relevant hands-on experience; OR 12+ years of demonstrated hands-on experience designing AND fabricating production tooling, fixtures, and jigs, supported by a portfolio of work.
• Demonstrated track record of owning mechanical design projects independently from concept through release, with minimal day-to-day technical oversight.
• Proven experience serving as the primary technical voice on tooling, fixture, or comparable mechanical projects in a cross-functional manufacturing environment.
• Demonstrated ability to make and defend technical decisions when cross-functional stakeholders disagree, and to drive alignment toward a final approach.
• Strong creative problem-solving skills, with the ability to develop unique, non-standard solutions to ambiguous or highly constrained design problems.
• A genuine willingness to be hands-on in the machine shop and on the production floor.
• Demonstrated proficiency in SolidWorks for parametric solid modeling, assembly modeling, and 2D drawing creation.
• CAM software experience for programming CNC mills from CAD models.
• Fluent operation of manual mill and lathe.
• Proven CNC mill setup, operation, and programming experience.
• Demonstrated ability to read and apply GD&T to interpret customer drawings.
• A willingness and eagerness to learn new tools, software, and processes as the role evolves.
• Strong written and verbal communication skills.
• U.S. person status required per ITAR (U.S. citizens, lawful permanent residents, asylees, or refugees).

Nice To Haves

• Tool & Die background or equivalent toolmaking craft training.
• Fluency in reading and writing G-code and M-code, with the ability to manually edit CAM-generated programs at the computer or directly at the CNC control.
• Sheet metal fabrication experience, including layout, shearing, and press brake operation.
• Familiarity with 3D printing (FDM and/or SLA) for prototyping, fixture development, and end-use applications.
• Experience designing tooling for the manufacture, assembly, or test of printed circuit board assemblies (PCBAs).
• Prior experience interpreting PCB design data (Gerber, ODB++, .asc, .emn/.emp) for fixture design.
• Substantive experience working in a quality-managed manufacturing environment under ISO 9001 or AS9100.
• Surface grinding, welding, brazing, and/or soldering experience.
• Experience applying GD&T to internally-generated drawings.

Responsibilities

• Serve as the senior technical voice on tooling design and fabrication at the Milwaukee facility, representing tooling in cross-functional discussions with engineering, operations, quality, and program leadership.
• Own assigned tooling projects end-to-end — from intake and scoping through design, fabrication, commissioning, and post-release support.
• Make final technical decisions on tooling design, weighing input from NPI, Manufacturing Engineering, Test Engineering, Program Management, and production personnel.
• Develop creative, often non-standard mechanical solutions to ambiguous tooling and fixturing problems brought forward by NPI, Manufacturing Engineering, Test Engineering, and production teams.
• Analyze design trade-offs across cost, manufacturability, lead time, durability, and end-use functionality to select the right approach for each project.
• Apply first-principles technical judgment — including material behavior, tolerance stack-ups, mechanism design, and failure mode analysis — to tooling that must perform reliably in a production environment.
• Design with the end user in mind. Shop floor operators and technicians are key stakeholders for every tool delivered; successful tooling makes their work easier, faster, and more accurate while reducing physical and cognitive strain.
• Iterate on designs through prototyping, fitting, and field feedback to converge on robust final solutions.
• Design fixtures, pallets, jigs, and custom tooling in SolidWorks to support PCB assembly, box-build assembly, electrical and functional test, and mechanical processes across the facility.
• Translate PCBA design data (Gerber, ODB++, .tgz, .asc, .emn/.emp) into accurate 2D and 3D representations to support fixture design, using tools such as GerbView and SolidWorks.
• Collaborate closely with Test Engineering to develop test fixture mechanicals — including but not limited to PCBA/DUT locating features, tooling-pin selection, pogo pin layout, single- or dual-sided board access, test actuation mechanism, and enclosures for test equipment.
• Partner with NPI Engineering during new product introductions to define and deliver the tooling required to bring new processes online.
• Support Manufacturing Engineering with fixture refurbishment, modification, and updates as products evolve over their lifecycle.
• Program and operate CNC equipment to fabricate tooling components directly from CAD models, using CAM software (SolidWorks CAM), manual G-code/M-code programming, and Haas CNC mill operation.
• Fabricate completed designs in MEC's machine shop using a full complement of manual and additive equipment — including manual mill and lathe; shear and manual press brake for sheet metal; FDM (Bambulab) and SLA (Formlabs) 3D printers; bandsaws, drill presses, tapping machine, hydraulic knockout punches, surface grinder, and a wide range of hand tools.
• Produce one-off mechanical components and short-run parts for internal teams as needed, including lifetime-buy quantities for end-of-life programs and supply-chain mitigation builds.
• Commission and validate completed tooling on the production floor in collaboration with the operators and technicians who will use it, confirming intended function and ease of use before production handoff.
• Maintain technical documentation, drawings, and revision history in accordance with MEC document control practices.

Benefits

• Learning and advancement opportunities
• Culture that truly cares
• Meaningful work
• Strong teamwork
• Room to go beyond