HARDWARE 3 16 X 4 ALLOY STEEL DOWEL PIN REKLUSE 411-167

12,16 €
Out of Stock

Rekluse 411-167 Hardware 3/16 x 3/4 Alloy Steel Dowel Pin. Precision alignment and secure component positioning in clutch hardware systems. Made from premium alloy steel for robust performance and reliability, essential for maintaining structural integrity. Measures 3/16 inch in diameter and 3/4 inch in length. Alloy steel construction provides exceptional strength and durability. Essential for accurate alignment and secure positioning of mechanical components. Suitable for use in clutch hardware, ensuring proper orientation and stability. Built to withstand demanding conditions and maintain performance. Crucial component in ensuring precise alignment and stability in clutch assemblies, supporting the system’s overall efficiency and functionality.

Specifications
SKU
RK-411167
Brand
Rekluse
Availability
Out of Stock
General Product Group
Clutch & Transmission
General Product Type
Clutch Hardware
Variant Id
341999
Shipping OptionsShown at checkout
14-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

Rekluse 3/16 x 3/4 Alloy Steel Dowel Pin

The Rekluse Hardware 3/16 x 3/4 Alloy Steel Dowel Pin is engineered for precise alignment and secure component positioning within clutch hardware systems. Crafted from premium alloy steel, this dowel pin delivers robust performance and unwavering reliability, vital for preserving structural integrity.

Key Features:

  • Dimensions: 3/16 inch diameter by 3/4 inch length, ensuring exact fitment.
  • Material: Constructed from high-grade alloy steel for superior strength and longevity.
  • Functionality: Essential for achieving accurate alignment and maintaining secure positioning of mechanical parts.
  • Application: Designed for use in clutch hardware, guaranteeing proper orientation and stability.
  • Durability: Built to endure rigorous conditions while consistently delivering optimal performance.

This alloy steel dowel pin is an indispensable component for ensuring precise alignment and steadfast stability in clutch assemblies, thereby enhancing the system's overall efficiency and operational effectiveness.