Product Description
Clark CL L009135-XL is a high-performance Cushothane XL 97A durometer load wheel for electric lift trucks, featuring a 3.25 inch diameter, 5.00 inch width, 25 mm bore, XL extra load poly compound, XL3 bonding, and direct compatibility with Clark electric pallet trucks.
Specifications
Material
| Core Material | Steel, precision machined |
Part Numbers
| OEM Part Number | CL L009135-XL |
| Manufacturer Part Number | CLL009135-XL |
| Cross-Reference Part Numbers | Replaces Clark L009135; Equivalent to CLL009135, L009135 |
| Supersedes Part Numbers | Supersedes Clark L009135 |
Frequently Asked Questions
Q: What equipment does the Clark CL L009135-XL load wheel fit?
A: The CL L009135-XL is designed for Clark electric pallet trucks and lift trucks. The 3.25 inch diameter and 5.00 inch width make it compatible with Clark electric material handling equipment. Verify your equipment bore size matches the 25 mm bore before ordering.
Q: What are the material properties and durometer rating of this wheel?
A: The CL L009135-XL features Cushothane XL polyurethane compound at 97A durometer hardness. The XL designation indicates extra load capacity polymer formulation bonded to a precision-machined steel core. This material composition provides high abrasion resistance for heavy-duty applications.
Q: What is the cross-reference part number if I need to order a replacement?
A: The Clark CL L009135-XL replaces the older Clark L009135 part number. The equivalent part number is CLL009135. All three designations refer to the same wheel assembly.
Q: What are the exact dimensions of the CL L009135-XL wheel?
A: The CL L009135-XL has a 3.25 inch outside diameter, 5.00 inch width, and 25 mm center bore. Steel hub with precision machining ensures consistent fit across Clark equipment models.
Q: How does the XL3 bonding affect wheel performance?
A: XL3 bonding is the adhesive process that attaches the Cushothane XL polyurethane tread to the steel core. This bonding method provides durability in the polyrethane-to-metal interface, reducing separation and extending wheel lifespan under loaded conditions.