Product Description
The CL 1803657 is a precision caster wheel engineered for Clark electric lift trucks, delivering reliable performance in demanding warehouse environments. This wheel combines a high-strength machined steel core with bonded Durarun 95A polyurethane tread for excellent load capacity and floor protection. Precision ball bearing construction ensures smooth rotation and extended service life.
Specifications
Material
| Core Material | Machined steel |
| Tread Material | Polyurethane, Shore 95A |
Dimensions & Performance
| Bearing Type | Precision ball bearing |
Part Numbers
| Part Number | CL 1803657 |
| Manufacturer | Clark |
Frequently Asked Questions
Q: What is the 0000-72010 wheel designed for?
A: The CL 1803657 is a precision caster wheel for Clark electric lift trucks and material handling equipment and make it suitable for general warehouse and industrial applications requiring reliable caster performance.
Q: What does the 95A Shore durometer rating mean?
A: The 95A Shore durometer is a hardness measurement for polyurethane. At 95A, the Durarun tread provides a balanced combination of load capacity, abrasion resistance, and floor grip, making it ideal for general material handling in warehouse environments.
Q: What type of bearing does the CL 1803657 use?
A: The CL 1803657 is fitted with a precision ball bearing, which ensures smooth, low-friction rotation. This bearing design supports consistent wheel performance and extended service life in electric lift truck applications.
Q: What is the core material of the CL 1803657?
A: The CL 1803657 features a machined steel core with bonded polyurethane tread. The high-strength steel core provides rigidity to handle the weight and dynamic loads encountered in electric lift truck operations.
Q: How should the CL 1803657 be stored when not in use?
A: Store the caster wheel in a clean, dry location protected from direct sunlight and extreme temperatures. Keep the bearing clean and lightly lubricated. Store away from ozone sources, oils, and chemicals that may degrade polyurethane.
