Production Process of Polyurethane Rigid Foam for Refrigerators

Polyurethane rigid foam is one of the most widely used insulation materials in the refrigeration industry. From household refrigerators and freezers to commercial cold storage units, polyurethane rigid foam provides excellent thermal insulation, energy efficiency, and durability. Understanding the production process of polyurethane rigid foam is critical for manufacturers seeking consistent quality, and a key part of this process is the proper selection of polyurethane catalysts.

1. Raw Materials and Formulation

The production of polyurethane rigid foam for refrigerators begins with carefully selected raw materials:

• Polyols – serve as the base material, determining foam properties like density and compressive strength.
• Isocyanates – typically polymeric MDI (pMDI), which reacts with polyols to form urethane bonds.
• Blowing agents – such as pentane or environmentally friendly HFOs, which create the foam’s cellular structure.
• Additives – including flame retardants, surfactants, and stabilizers.
• Polyurethane catalysts – crucial for controlling the reactivity and curing speed of the system.

2. Importance of Polyurethane Catalysts

In refrigerator applications, the foaming process must be stable, uniform, and controllable to ensure consistent insulation performance and dimensional stability. Polyurethane catalysts are used to balance the reaction between isocyanate and polyol (urethane reaction) and the water-isocyanate reaction (urea reaction).

Commonly used amine catalysts include:

• Triethylenediamine (TEDA) – provides strong gelling activity, accelerates urethane formation, and ensures good foam curing.
• Pentamethyldiethylenetriamine (PMDETA) – balances foaming and gelling reactions, ensuring uniform cell structure.
• Dimorpholine diethyl ether (DMDEE) – offers delayed reactivity, extending cream time and improving process control.

Metal catalysts, such as stannous octoate or dibutyltin dilaurate, are used in combination with amine catalysts to further enhance curing and achieve the desired tack-free time.

Selecting the right combination of amine and metal catalysts can:

• Control the rise profile of the foam.
• Prevent voids and collapse during foaming.
• Achieve excellent adhesion to refrigerator cabinet walls.
• Optimize cycle times in continuous and discontinuous production lines.

3. Mixing and Metering

In refrigerator foam production, precise metering equipment mixes polyol, isocyanate, blowing agent, surfactant, flame retardant, and catalysts in the correct ratio. Any deviation can result in density variations, poor adhesion, or shrinkage.

The mixed components are injected into the refrigerator cabinet or door mold. At this point, the polyurethane reaction begins immediately, and the catalysts play their role in controlling the cream time, rise time, and curing profile.

4. Foaming and Curing

During the foaming stage, the blowing agent expands and creates a fine, closed-cell structure. The amine catalysts regulate the foaming speed, while the metal catalysts promote cross-linking, leading to strong, rigid foam.

Proper catalyst selection ensures that:

• The foam expands evenly to fill the entire cavity.
• The foam adheres well to metal, plastic, or composite surfaces.
• The final foam exhibits excellent thermal insulation (low λ value) and mechanical strength.

5. Quality Control and Performance Testing

After curing, the refrigerator foam is tested for:

• Density and cell structure
• Adhesion strength
• Thermal conductivity
• Dimensional stability

Consistent quality control ensures that refrigerators achieve their target energy efficiency ratings.

Conclusion

The production process of polyurethane rigid foam for refrigerators relies heavily on the correct selection and combination of polyurethane catalysts. Using amine catalysts such as triethylenediamine, pentamethyldiethylenetriamine, and dimorpholine diethyl ether—together with metal catalysts—enables manufacturers to achieve a stable foaming process, improved cell structure, and optimized curing speed.

Mingxu New Materials specializes in supplying high-performance polyurethane catalysts for refrigerator foam systems. Our range of amine and metal catalysts can help manufacturers improve process efficiency, reduce defects, and meet the demanding requirements of modern refrigeration insulation.