 Urethane Fixtures
We can design and manufacture fixtures for your particular assembly applications. Fixtures are cast to meet your production requirements.
The fixture pattern is molded by using an original or prototype designed part. Once the fixture pattern is furnished then tooling can be made depending on production assembly.
Urethane fixtures are used to hold a part in place while in the assembly or during shipping of the component.
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Cast urethane is superior to foam urethane. Solid urethanes have desired physical properties and integrity homogenously through the urethane; foams integrity and physical properties are compromised if the this "skin" is cut. Solid urethane is the preferred choice for dunnage especially where extreme environments, heavy loading and longevity are factors.
Urethanes have excellent abrasion resistance outwearing metals, plastics, and other rubbers 8:1 or more. Generally, the harder the urethane the lower the coefficient of friction. Lubricants can be added to urethane to make them more slippery without compromising the urethane properties.
- Softer urethanes (50A-85A) are best for particle impingement applications.
- Mid-range urethanes (80A-95A) of medium resilience last longest in abrasive applications.
- Hard urethanes (90A-95A) work best in impact and sliding types of abrasion applications.
- Very hard urethanes (60D-75D) work well in bearing and bushing applications.
During the molding process, solid urethane can be attached permanently to metals and composites with bond strengths exceeding the tear strength of urethane. Solid urethane can be cast or machined with tapers, chamfers, grooves, and other surface configurations. Solid urethanes behave like incompressible hydraulic fluids, where under load they do not change volume. Urethane Innovators will help you determine deflection based on design, material selection and load.
Urethanes have resistance to oil, water, weather, ozone, oxidation and many chemicals. Some are even radiation, fungus and bacteria resistant. They have high tensile and tear strength compared to other types of rubbers, along with outstanding abrasion resistance compared to metals, plastics and rubbers. Solid urethanes have higher load bearing capacity than other rubbers, and higher impact resistance and resilience than plastics. Solid urethanes have excellent retention of properties at very low temperatures and at temperatures up to 220°F, or where bonded to metal to 160°F. Solid urethanes have deflection and recovery capabilities unlike any other plastic or metal.
Solid urethanes can be deformed without breaking; recovers quickly after repeated deformation; deformations can be proportionally large to the original dimensions; large deformations are produced with low stress levels; desired stress-strain properties can usually be obtained by compound blending; stress-strain characteristics are not linear, so urethanes become stiffer with greater deflection and velocity of impact.
Urethane Versus Other Materials:
| Urethane vs. Metal |
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- Lightweight
- Noise Reduction
- Abrasion Resistance
- Less Expansive Fabrication
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- Corrosion Resistance
- Resilience
- Impact Resistance
- Flexibility
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- Easily Moldable
- Non-Conductive
- Non-Sparking
- Lower Cost
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| Urethane vs. Plastics |
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- High Impact Resistance
- Elastic Memory
- Abrasion Resistance
- Noise Reduction
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- Variable Coefficient of Friction
- Resilience
- Thick Section Molding
- Lower Cost Tooling
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- Low Temperature Resistance
- Resistance to Cold Flow (or Compression Set)
- Radiation Resistance
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| Urethane vs. Rubber |
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- High Abrasion Resistance
- High Cut & Tear Resistance
- Superior Load Bearing Capacity
- Thick Section Molding
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- Can be Colored
- Oil Resistance
- Ozone Resistance
- Radiation Resistance
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- Broader Hardness Range
- Castable Nature
- Lower Cost, Low Pressure Tooling
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