Product Overview
Restore precise suspension alignment and steering performance with this Rear Steering Knuckle Universal Joint Assembly, designed for Tesla Model Y vehicles. Manufactured to match OE specifications, this component plays a critical role in connecting suspension and wheel hub assemblies while supporting vehicle stability, wheel alignment, and handling performance.
Built for replacement and repair applications, this rear steering knuckle assembly is engineered for durability, accurate fitment, and dependable operation under daily driving conditions.
OE Number: 1188417-00-F



Key Features
- Direct replacement for OE part number 1188417-00-F
- Designed for Tesla Model Y rear suspension system
- Supports proper wheel alignment and suspension geometry
- Heavy-duty construction for long service life
- Precision-machined mounting points for accurate installation
- Helps maintain steering stability and vehicle handling
- Ideal for collision repair, suspension restoration, and worn component replacement
- Manufactured to meet OEM fit and performance standards
Product Specifications
| Item | Specification |
|---|---|
| Product Name | Rear Steering Knuckle Universal Joint Assembly |
| OE Number | 1188417-00-F |
| Vehicle Model | Tesla Model Y |
| Position | Rear Suspension |
| Condition | New |
| Material | OEM Standard Automotive Grade Material |
| Installation Type | Direct Replacement |
| Warranty | 1 Year |
| Place of Origin | Guangdong, China |
| Application | Suspension & Steering System |
Vehicle Compatibility
| Make | Model | Year |
|---|---|---|
| Tesla | Model Y RWD | 2020-2026 |
| Tesla | Model Y Long Range AWD | 2020-2026 |
| Tesla | Model Y Performance AWD | 2020-2026 |
Note: Please verify OE number 1188417-00-F and vehicle configuration before ordering.
Package Includes
- 1 × Rear Steering Knuckle Universal Joint Assembly
- OE Reference: 1188417-00-F
Installation
Professional installation is recommended. After installation, a complete wheel alignment inspection should be performed to ensure proper suspension geometry and optimal vehicle handling.
