Product Description
OEM Crown CR 060016-093 Screw for electric lift truck chassis, rear axle, and drive unit assemblies; 3/8 inch UNC thread, hex head, Grade 5 steel, with factory-applied threadlocker for vibration resistance. Used in Crown 50WAVE series as a fastener for critical weldments and assemblies.
Compatibility: Fits pallet jacks made by Crown, model Wave. SKU: CR 060016-093
Specifications
Part Numbers
| Part Number | CR 060016-093 |
| Cross Reference | 060016-093 |
Specifications
| Thread Size | 3/8 inch UNC |
| Head Type | Hex Head |
| Material | Grade 5 Steel |
| Finish | Factory-Applied Threadlocker |
| Applications | Chassis, rear axle, and drive unit fastening |
Frequently Asked Questions
Q: What are the specifications for the CR 060016-093 screw?
A: The CR 060016-093 is a 3/8 inch UNC thread hex head screw manufactured from Grade 5 steel with factory-applied threadlocker. This specification provides vibration resistance and secure fastening for critical chassis and assembly applications.
Q: Which Crown models use the CR 060016-093?
A: The CR 060016-093 is used in Crown 50WAVE series electric pallet jacks. It functions as a fastener for the chassis, rear axle, and drive unit assemblies. Verify your equipment model and serial range before ordering.
Q: Why does the CR 060016-093 have threadlocker applied?
A: The factory-applied threadlocker prevents the screw from loosening due to vibration and movement during operation of the lift truck. This is critical for safety in assemblies like the rear axle and drive unit where fastener failure creates operational risk.
Q: What is the cross reference part number for CR 060016-093?
A: The cross reference part number is 060016-093. When ordering or identifying this fastener, either the full SKU CR 060016-093 or the reference number 060016-093 can be used.
Q: Is Grade 5 steel the correct material for CR 060016-093 replacement?
A: Yes, Grade 5 steel is the specified material for this fastener. Using the correct grade ensures proper strength and threadlocker compatibility. Substituting lower-grade materials may compromise assembly integrity and safety.