Tool & Die Design

CAD/CAM design, simulation, build, and preventive maintenance under one roof

Precision craft system

Controls you can see across every program

Standardized checkpoints keep automotive, commercial truck, furniture, and defense launches predictable.

IATF 16949 · AS9100D · ISO 14001 · OSHA VPP
Launch discipline APQP

DFM, timing, risk registers, and PPAP readiness with customer-facing dashboards.

Quality controls SPC

In-die sensing, camera inspection, CMM/laser validation, and layered process audits.

Logistics & service JIT

Sequenced delivery, VMI, and service parts with packaging engineered for your lines.

Capabilities

Precision tooling built for uptime

Our in-house toolmakers design, build, and maintain dies with simulation, spare strategies, and rapid response built in.

  • CAD/CAM design with forming simulation and springback checks
  • Progressive, transfer, and line dies for high-tonnage presses
  • Preventive maintenance, spares, and quick-change strategies
  • 24/7 tooling support across all production facilities
Tooling design and inspection
Process flow

Tool lifecycle management

01
Simulation & DFM
Predictive

Forming simulation, blank optimization, and springback mitigation before cutting steel.

02
Design & Build
CAD/CAM

Progressive and transfer die design, CNC/EDM build, and validation in-house.

03
Tryout & PPAP
Capability

Tryout, gage R&R, and capability data captured before production release.

04
Maintenance & Repair
24/7

Preventive maintenance, spares, and rapid response to keep presses running.

05
Continuous Improvement
Feedback

Tool performance reviews with production data to enhance throughput and quality.

Tooling scope

Support across materials and product families

See stamping lines →
Press Compatibility

Dies built for high-tonnage progressive, transfer, and line presses with robust feed and sensing strategies.

  • Coil width up to 72\"
  • In-die tapping and insertion capability
  • Camera and sensor integration
Materials

Steel, HSLA, stainless, aluminum, and specialty alloys with tool steels selected for life and surface requirements.

  • Coatings to extend die life
  • Surface protection for cosmetic parts
  • Spare details stocked for uptime
Quality & Data

Tool performance tracked through maintenance logs, SPC feedback, and structured improvement cycles.

  • Electronic PM schedules
  • Die history and repair records
  • Feedback loop to design and process teams
Case study
Automotive

Tool redesign for HSLA component

Result: +18% throughputScrap: -22%

Re-optimized forming stations and lubrication strategy to stabilize thinning on HSLA material, improving uptime and reducing scrap.

Outcome: Higher throughput and stable capability for a global OEM platform.

Need tooling support?

Share your prints and volume plans. Our tool engineers will propose design, timing, and maintenance strategies.

Talk with tooling