Front Fork Spring 4.0N -(Pair), 435-455-40, HIGH PERFORMANCE FORK SPRING, K-TECH SUSPENSION

¥20,194
1

K-Tech high performance fork springs are manufactured from the highest grade Chrome Silicone wire. Each spring is cold coiled, heat treated, tempered, shot peened, ground to length, and polished for reduced friction and smoother performance. The spring rate is laser etched on the end. Manufactured to DIN 2095 grade 1. This is a pair of front fork springs with a 4.0N rate.

Specifications
SKU
84-0015.40
Brand
K-Tech Suspension
Availability
In Stock (7)
General Product Group
Suspension & Drive Parts
General Product Type
Fork Spring
General Size
4.0N
Variant Id
286532
Shipping OptionsShown at checkout
14-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

K-Tech High Performance Front Fork Springs 4.0N (Pair)

Experience superior handling and control with K-Tech High Performance Front Fork Springs. Designed for motorcycle enthusiasts seeking ultimate performance, these springs are engineered with precision and crafted from the highest grade Chrome Silicone wire. Each spring undergoes a meticulous manufacturing process, including cold coiling, heat treatment, pre-setting, and grinding to the exact length. A final polish reduces friction, ensuring a smoother and more responsive ride.

The spring rate is clearly laser etched on the end for easy identification, and all springs are manufactured to the stringent DIN 2095 grade 1 standard, guaranteeing exceptional quality and reliability.

  • Cold Coiled: Ensures consistent spring performance and durability.
  • Heat Treated & Tempered: Enhances strength and resilience.
  • Shot Peened: Improves fatigue life and resistance to stress.
  • Ground Ends: Provides a precise seating surface for optimal performance.
  • Polished Finish: Minimizes friction for smoother fork action and improved responsiveness.
  • Part Number Etched: Easy identification of spring rate and specifications.
  • High Grade Chrome Silicone Wire: Built for longevity and high-performance demands.