Maximize your industrial forging and forming versatility with our comprehensive technical documentation for Odprto Orodje. Unlike closed-die systems that confine the material within a cavity, open-die tooling allows the workpiece to be deformed between flat or simple-shaped dies without completely enclosing it. This “open” architecture is critical for producing large-scale shafts, rings, and custom-forged blocks where material flow must be managed manually or via manipulators. This drawing package provides the structural blueprints for heavy-duty die blocks designed to withstand extreme thermal stress and repeated high-impact loads.

The provided desenho package offers an exhaustive look at the die-holder interfaces, the surface finish requirements for the striking faces, and the thermal expansion allowances. By analyzing the material specifications—typically high-strength alloys like 4340 or specialized hot-work tool steels—engineers can ensure the tooling maintains its integrity during the deformation of red-hot billets. We provide these high-fidelity CAD resources for free to help heavy-industry specialists and custom forges design robust, long-lasting anvil and punch sets.

Our files are compatible with all major 3D engineering platforms, allowing your team to simulate the “upsetting” and “drawing out” processes. This ensures that the tool geometry facilitates optimal grain flow in the metal, resulting in superior mechanical properties for the finished component. Download this essential resource today to master the fundamentals of large-format metal deformation and open-die engineering.

Principais recursos:

  • High-Impact Structural Design: Engineered with massive cross-sections to absorb and distribute the energy of heavy hydraulic or mechanical hammers.
  • Thermal Stress Resistance: Specifications for hot-work tool steels (like H13) to prevent “heat checking” and surface cracking during high-temperature forging.
  • Universal Bolster Mounting: Detailed layouts for standardized T-slots and dovetail mounts for rapid installation on industrial presses.
  • Optimized Surface Geometry: Features precision-ground faces (flat, V-shape, or radius) to control material spread and elongation.
  • Integrated Handling Points: Includes pre-designed lift-hole locations for safe maneuvering of heavy die blocks via overhead cranes.