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Engineering & design

Magnetics is a
discipline.

A dedicated engineering bench focused on magnets — FEA, design assistance, and R&D — supports every project from sketch to production.

Three pillars

A complete
engineering bench.

1

FEA & Simulation

Validate magnetic behavior before tooling. Field strength, holding force, demagnetization, and EMI effects are modeled in software so the first prototype lands closer to spec.

2

Design Assistance

Modern CAD-driven design support for permanent magnets and assemblies. Material selection, tolerance studies, and circuit-level optimization tailored to your application.

3

Research & Development

Custom engineering when off-the-shelf isn't enough. Manufacturing methodology development, novel materials evaluation, and proof-of-concept builds for new product programs.

FEA capabilities

What we model.

Common analyses we run for customers, with deliverables that go straight into your design review or regulatory file.

Field & force

Magnetic field strength and gauss readings at specified distances. Holding and pull force values for assemblies. Field profiling and focusing for sensors and actuators.

Material behavior

Demagnetization studies across operating temperatures and load conditions. Recommendations for grade, geometry, and orientation based on your duty cycle.

System-level effects

Reed switch triggering analysis. Electromagnetic interference on adjacent circuits. Motor performance modeling for torque, RPM, and back-EMF.

Documentation

Reports formatted to support design reviews, FDA submissions, and supplier qualification packages. Field deflection solutions delivered with the underlying assumptions called out.

FEA flux density visualization on a generator rotor and stator assembly
Flux density solved across a generator rotor and stator assembly. The kind of analysis we run before tooling is cut.
Magnet production line

Why specialists matter

Magnetics is its
own discipline.

Predicting field behavior, picking the right grade, accounting for temperature swings, and translating it into a manufacturable part is a niche skill set. We've built the team around it.

  • Decades of magnetic circuit design experience
  • Hands-on familiarity with every grade we offer
  • Manufacturing-aware design from day one

How it works

From sketch
to part number.

01

Scope

You share the application, the constraints, and what success looks like. We ask the questions a non-magnetics-focused supplier wouldn't.

02

Simulate

FEA models confirm the magnetic behavior matches the requirement. Material, geometry, and orientation are tuned in software, not in tooling.

03

Prototype

Rapid prototypes in your specified material. Real-world testing against the simulation closes the loop on any assumptions.

04

Produce

Production transfer with the design intent intact. Quality plans, documentation, and supplier records that match your program's needs.

Applications

Where this work shows up.

A representative slice of programs the engineering team has supported.

Consumer electronics Medical devices Motors & generators LiDAR systems Marine equipment Dental devices Wind turbines Surgical instruments Space exploration Robotics Sensors Automotive

Have a project in mind?

Send us a sketch, a spec sheet, or just the problem you're trying to solve. An engineer will reply within one business day.

Talk to an engineer