Excessive tool wear in tube forming disrupts production, increases costs, and shortens tool lifespan. By addressing the root causes and applying advanced alloy solutions, manufacturers can extend service intervals, improve consistency, and maintain efficient, high-volume forming operations.
Tool wear in tube forming is one of the most persistent challenges in this manufacturing method. Continuous pressure, friction, and abrasive particles gradually damage tool surfaces, reducing accuracy and forcing more frequent replacements. The effects ripple across production lines, causing unplanned downtime, higher scrap rates, and increased maintenance costs.
To counter these challenges, manufacturers are turning to improved tooling practices and advanced alloys. By combining durability, stability, and resistance to adhesion, these solutions help extend tool life while maintaining consistent tube geometry and surface quality.
High forming pressures are a primary driver of tool degradation. When tools are in constant contact with high-strength steels and stainless steels, the repeated stress accelerates abrasion, gradually reducing tool hardness and dimensional accuracy over long production runs.
Friction and galling are equally damaging. Without sufficient sliding properties, tube material can adhere to the tool surface under high pressure. This adhesion results in galling and surface scoring, producing rough tube finishes while wearing down tool surfaces prematurely.
Abrasive particles generated during forming also contribute to wear. Scale, debris, or inclusions within the workpiece act like grinding agents, leaving scratches and pits that compromise tool life and reduce the quality of the finished tube.
Thermal and mechanical stresses amplify these effects. Heat buildup and tool deflection under heavy loads create localized wear zones, often leading to ovality, wall thickness variation, and misalignment. Inconsistent material properties in tubes, such as hardness variations or coatings, can further accelerate uneven wear patterns.
Draft of a tube forming setup that strategically implements AMPCO® Aluminum Bronze alloys
Minimizing tool wear requires a combination of proper process control, maintenance practices, and the use of advanced materials. When applied together, these measures help extend tool life and improve consistency in tube forming operations.
With these strategies you’ll be able to reduce downtime, improve dimensional accuracy, and increase the efficiency of high-volume tube forming processes.
AMPCO® Aluminum Bronze alloys are engineered to overcome the limitations of conventional tool steels in tube forming. Their high wear resistance ensures longer service intervals, reducing the frequency of tool replacements and minimizing costly downtime.
The alloys’ excellent sliding properties prevent galling and adhesion, even when forming stainless steels or other difficult materials. This not only extends tool life but also maintains smooth tube surfaces, reducing scrap and rework.
Different AMPCO grades are optimized for specific applications. AMPCO® 22 and 25 offer toughness for end forming tools, but AMPCO® 22 also provides stability in welding rolls, and AMPCO® 25 also combines high strength with polishability for forming and sizing rolls. Each alloy delivers reliable performance where tool wear would otherwise compromise efficiency.
Managing tool wear in tube forming is essential for achieving stable production, lower scrap rates, and extended tool life. Conventional steels often struggle under the combined pressures of abrasion, galling, and thermal stress, leading to frequent changeovers and inconsistent results. AMPCO aluminum bronze alloys provide a proven solution, delivering superior wear resistance, smoother sliding, and the dimensional stability needed for high-volume forming lines.
For more insights into materials and practices that shape modern manufacturing, visit the AMPCO Academy. To explore a deeper technical perspective on alloy performance and application-specific benefits, download our paper: Achieving Durability and Precision in Tube Forming by using AMPCO Alloys. We have put this detailed guide together to help you improve various aspects of your tube forming operations, from tool life to forming efficiency and others.