Patching a Rusted-Out Hydraulic Tank: Solutions and Considerations

[MikePhua]

Problem Background
Hydraulic tanks on heavy equipment, such as the Clark IT50 compact track loader, are prone to rust and damage, especially when positioned behind drive tires that throw debris and stones against the tank surface. Over time, mechanical impact combined with moisture exposure can cause tanks to rust through and develop leaks. When the tank is structurally integrated into the machine's frame or body, removing and replacing it becomes impractical, presenting maintenance challenges.
Common Repair Approaches

• Sealers and Epoxies: Products like Seal-All or high-performance epoxy putties are often applied over leaks to provide temporary or semi-permanent seals. These can work well for small holes or cracks but may fail on severely rusted or stressed surfaces.
  
• Fiberglass Patching: Coating the area with fiberglass patches and resin creates a strong, corrosion-resistant overlay that seals leaks and strengthens weak tank areas.
  
• Welding Repairs: For steel tanks, welding (MIG or TIG) is a preferred permanent fix, but it requires access to the tank and expertise. Rusted areas often need to be ground out before welding to ensure clean, strong welds. However, welding on integral tanks is complicated.
  
• Epoxy Coatings: Internally applying epoxy lining coatings after tank repair helps prevent future rust and extends tank life.
  
• Custom Fabrication: In cases where tank removal is impossible, fabricating external reinforcement plates or external drip pans can contain leaks and prolong usability.
  

Challenges for Frame-Integrated Tanks

• Limited access complicates cleaning and preparation before repair.
  
• Vibration and mechanical stress in the tank area require durable repair materials.
  
• Compatibility of repair compounds with hydraulic fluid and pressure must be confirmed.
  
• Heat generated during welding can damage adjacent components or coatings.
  

Recommendation and Best Practices

• Assessment: Carefully evaluate the extent of rust and hole size. Small punctures are good candidates for sealants or epoxy; larger damage may require partial welding or reinforcement.
  
• Surface Preparation: Remove rust and contaminants thoroughly to ensure adhesion of sealants or preparation for weld.
  
• Use of High-Quality Materials: Choose hydraulic fluid-compatible sealants and epoxies designed for oil tanks.
  
• Testing Post-Repair: After the repair, refill the tank and check for leaks under pressure to ensure the repair holds.
  
• Regular Maintenance: Apply rust inhibitors, keep fluid clean, and routinely inspect tanks to prevent severe corrosion.
  

Terminology

• Seal-All: A brand of industrial-grade flexible sealant commonly used for hydraulic and oil tank repairs.
  
• MIG/TIG Welding: Metal Inert Gas/Tungsten Inert Gas welding methods used to join metal parts.
  
• Epoxy Putty: An adhesive compound that hardens to form a durable patch, resistant to chemicals and pressure.
  
• Fiberglass Patch: A repair cloth impregnated with resin used to reinforce and seal damaged surfaces.
  
• Frame-Integrated Tank: Hydraulic tanks integrated structurally into the machine's frame, limiting removal options.
  

Real-World Insights
Mechanics working in remote or resource-limited environments often resort to high-grade sealants or fiberglass when tank replacement is not feasible. Some have reinforced tanks with steel plates welded externally after spot repairs. While these methods can restore functionality temporarily or mid-term, proactive tank replacement remains preferred when possible.
Conclusion
Patching rusted hydraulic tanks, especially those integrated into machine frames, requires balancing practicality with durability. While sealants and fiberglass patches can provide effective interim fixes, welding is often the most reliable long-term solution where accessible. Proper surface prep, use of compatible materials, and diligent testing ensure repairs stand up to hydraulic system pressures and environmental challenges, prolonging equipment operational life. Regular maintenance remains crucial to prevent future corrosion and leaks.