What is Urethane Casting? Everything You Need to Know
September 3, 2024
What is urethane casting? It is a versatile manufacturing process that allows for the creation of high-quality plastic parts with complex geometries and a wide range of material properties. This method bridges the gap between rapid prototyping and full-scale production, making it an invaluable tool for product development and low to medium-volume manufacturing. In this post, we will explore what is urethane casting, the urethane casting process, advantages and disadvantages.
What is Urethane Casting?
Urethane casting, also named vacuum casting, is a manufacturing process that involves pouring liquid urethane resin into a soft silicone mold to produce high-quality plastic parts. Urethane casting developed as a more cost-effective and flexible alternative to traditional injection molding for smaller production runs. Urethane casting uses less expensive silicone molds that can be produced quickly, this makes it ideal for prototyping, product development, and short production runs.
The Urethane Casting Process
Step 1: Creating the Master Model
The urethane casting process begins with the creation of a master model, which serves as the template for mold creation. The precision and quality of the master model are critical as any imperfections will be replicated in the final cast parts. This master model can be fabricated using various methods such as 3D printing and CNC machining.
3D printing is commonly used due to its speed and cost-effectiveness. High-resolution methods like SLS (Selective Laser Sintering) or SLA (Stereolithography) are preferred for their smooth finishes. Additional surface finishing steps like sanding, media blasting, or vibratory tumbling may be required for a smoother finish.
CNC machining offers tighter tolerances and greater detail but is more expensive and has longer lead times compared to 3D printing. Traditional sculpting is another mold creation method. It is used for custom or artistic designs.
Step 2: Mold Construction
Once the master model is ready, the next step is to create the silicone mold. The following steps to introduce how to create silicone mold.
The master model is placed inside a containment box and securely fixed to the bottom using glue, styrene blocks, or modeling clay to prevent the silicone from flowing inside the part.
Put the dowel pins into any through holes to maintain their integrity during mold-making.
The silicone is placed in a vacuum chamber to eliminate any bubbles formed during mixing.
A two-component silicone is poured in two steps to create the two halves of the mold. Once cured, the mold is carefully cut in half to remove the master model, leaving a negative impression that captures all intricate details and features.
Step 3: Urethane Pouring
After the mold is prepared, the urethane resin is mixed and poured:
A two-part urethane resin is mixed, with pigments added if colored parts are desired. The mixture is degassed in a vacuum chamber to remove bubbles. Then the urethane resin is poured into the silicone mold using vent straws and a pouring funnel to ensure complete filling of the mold’s intricate crevices. The mold is placed in a pressurized oven to initiate the curing process. Vacuum, heat, and pressure are applied to produce a strong, stable, void-free part. The curing process ensures that the urethane material replicates the master model’s shape and characteristics accurately.
Step 4: Finishing
Once the urethane part has cured, it undergoes finishing steps:
The cured part is carefully removed from the mold and check the part quality. Any small bits of flashing are removed using fine-grit sandpaper. Some parts may undergo additional curing to improve its strength. Then the part is polished and painted as needed to achieve the desired surface finish.
Types of Urethanes Casting Material
1. Rigid Polyurethane
Rigid polyurethanes are known for their stiffness and durability, making them suitable for various structural and functional applications. They come in different formulations, such as ABS-like, glass-filled nylon-like, polypropylene-like, and polycarbonate-like.
2. Rigid Clear Polyurethane
This versatile material has a Shore D 80 hardness and is colorless. It can have a frosted appearance with a matte finish or increased transparency with a higher gloss finish. It is used in applications where clarity and rigidity are required.
3. Rubber-like Polyurethane
Rubber-like polyurethanes are elastomers that provide flexibility and elongation, making them suitable for applications requiring soft, stretchable materials.
4. Polyurethane Elastomers (Shore A Resins)
These materials are softer than rigid Shore D materials and provide greater flex and tear strength.
5. Polyester Polyurethane:
Polyester polyurethane is known for high resistance to solvents, good mechanical properties, and excellent chemical corrosion resistance. Used in construction, automotive, and electronic fields.
6. Polyether Polyurethane
Polyether polyurethane provides high resilience, hydrolytic stability, and excellent elasticity. Used in automotive suspension systems, aerospace, and medical equipment.
7. Thermoplastic Polyurethane (TPU)
Thermoplastic Polyurethane can be processed into different shapes and has good plasticity, chemical corrosion resistance, and heat resistance. Used in construction, automotive, and electronics for producing building insulation materials, automobile housings, and electronic housings.
8. Waterborne Polyurethane
Waterborne Polyurethane is Made with polyether or polyester polyols, isocyanates, and water and is known for its environmental protection, non-toxicity, and ease of processing and used for coatings, adhesives, and printing inks.
Applications of Urethane Casting
Prototyping and Product Development:
Urethane casting is widely used for rapid prototyping, allowing designers and engineers to quickly test and refine their designs before moving to more expensive production methods. It’s particularly useful for creating functional prototypes that closely resemble the final product in terms of material properties and appearance.
Industrial Applications:
- Wheels for various applications, including skateboards, robots, and other rotating equipment.
- Rollers for conveyor systems and printing industries.
- Bushings and bearings.
- Urethane-covered rollers for industrial machinery.
Consumer Products:
- Electronics casings and housings.
- Shoe soles.
- Sporting equipment components (e.g., dumbbell grips, helmet padding).
- Custom parts for consumer goods.
Medical Devices and FDA-compliant Parts:
Urethane casting can produce medical device components and FDA-approved parts using biocompatible materials. This is particularly useful for custom medical devices or low-volume production of specialized equipment.
Automotive Industry:
- Car bumpers (especially for low-volume or custom vehicles).
- Interior components.
- Prototype parts for testing and development.
Robotics Industry:
- Wheel systems for robotic forklifts.
- Components for bomb disposal robots.
- Custom parts for specialized robotic applications.
Large-scale Parts:
Urethane casting is suitable for producing large parts that would be expensive to manufacture using other methods, especially for low-volume production.
Flexible and Rubber-like Parts:
The process is excellent for creating parts with varying degrees of flexibility, from rigid to highly elastic, making it ideal for seals, gaskets, and custom rubber-like components.
Transparent or Colored Parts:
Urethane casting allows for the creation of clear or colored parts, useful for items like presentation boxes, lenses, or custom-colored components.
Overmolded Parts:
The process can be used to create overmolded components, such as electronic parts encased in a rubberized shell.
Urethane Casting Advantages
Urethane casting offers several advantages, making it a popular choice for various manufacturing applications. Here’s a detailed breakdown of the key benefits:
Cost-effectiveness for low to medium-volume production:
It is economical for producing small to medium runs (10 to 1000 parts) with lower tooling costs compared to injection molding.
It allows for design changes without expensive mold modifications, so it’s ideal for tooling between prototyping and full production.
Rapid prototyping capabilities:
Quick turnaround from design to functional prototype, so it facilitates iterative design processes and faster product development cycles.
It is the ability to produce parts that closely resemble final production materials and enable functional tests.
Capabilities for special shapes production: It is suitable for creating both solid and hollow parts. It is excellent for replicating intricate details and undercuts.
Quick turnaround times: Silicone molds can be produced quickly, often within 1-3 days.
Overmolding capabilities: Ability to cast around inserts or create multi-material parts.
Urethane Casting Limitations
Limited Production Volume:
Urethane casting is best suited for low to medium production runs, typically up to 1000 parts. Silicone molds used in urethane casting have a limited lifespan, usually around 20-30 castings before replacement is needed.
Cost for Higher Volumes:
While cost-effective for low volumes, urethane casting becomes less economical as production quantities increase, especially compared to injection molding for large-scale production.
Precision and Tolerances:
While urethane casting can achieve good tolerances, it may not match the precision of CNC machining or high-volume injection molding for certain applications.
Conclusion
Urethane casting stands out as a highly versatile and cost-effective manufacturing process, particularly suited for low to medium-volume production. Its ability to produce high-quality parts quickly and affordably makes it an invaluable tool for industries ranging from automotive to consumer goods, medical devices, and beyond. Whether for creating functional prototypes or producing end-use parts, urethane casting remains a key player in modern manufacturing, poised for continued innovation and growth.
FAQ
The primary material used for urethane casting molds is silicone. It's important to note that silicone itself can also be used as a casting material for producing urethane parts.