Cookie Policy

Last updated: March 9, 2026

This Cookie Policy explains how IMTOS ("we", "us", or "our") uses cookies and similar technologies when you visit www.imtosbike.com (the "Site").

By using our website, you agree to the use of cookies in accordance with this policy unless you disable them through your browser settings.

What Are Cookies

Cookies are small text files stored on your device when you visit a website. They help websites recognize your device and remember certain information about your visit.

Cookies may be used to improve website performance, remember user preferences, and analyze website traffic.

How We Use Cookies

IMTOS uses cookies for several purposes, including:

Essential Cookies

These cookies are necessary for the website to function properly.

They allow basic features such as:

  • Secure login

  • Shopping cart functionality

  • Checkout and payment processing

  • Website navigation

Without these cookies, some parts of the website may not work properly.

Performance and Analytics Cookies

These cookies help us understand how visitors interact with our website.

They collect information such as:

  • Pages visited

  • Time spent on pages

  • Traffic sources

  • Website performance data

This information helps us improve our website and services.

Examples include tools such as Google Analytics.

Functional Cookies

These cookies allow the website to remember your preferences, such as:

  • Language settings

  • Region

  • Previously viewed products

This improves your browsing experience.

Advertising Cookies

Advertising cookies may be used to deliver relevant advertisements to you.

These cookies may be placed by third-party advertising partners and may track your browsing activity across websites.

They help ensure that advertisements are relevant to your interests.

Shopify Cookies

Our online store is hosted on Shopify, which uses cookies necessary for store functionality such as:

  • Secure checkout

  • Cart functionality

  • Fraud prevention

  • Customer login

For more information about Shopify cookies, please visit:

https://www.shopify.com/legal/cookies

Managing Cookies

Most web browsers automatically accept cookies.

However, you can control or disable cookies through your browser settings.

Please note that disabling cookies may affect the functionality of certain features on our website.

Instructions for managing cookies can usually be found in your browser’s help section.

Third-Party Cookies

Some cookies on our website may be placed by third-party services including:

  • Analytics providers

  • Payment processors

  • Advertising platforms

These third parties may use cookies according to their own privacy policies.

Changes to This Cookie Policy

We may update this Cookie Policy from time to time to reflect changes in technology, law, or our business practices.

Any updates will be posted on this page with a revised "Last updated" date.

Contact Us

If you have any questions about this Cookie Policy, please contact us:

Website:
https://www.imtosbike.com

Email:
info@imtosbike.com

Modular Design

Imtos axles feature a modular design with interchangeable threaded heads, allowing riders to adjust both thread pitch and effective length. This flexible system ensures compatibility with most bike frames, making one axle set adaptable to multiple bicycles.

Ultra-Light Structure

IMTOS products feature a next-generation carbon layup structure designed to optimize fiber orientation and structural efficiency.

This innovative layering method allows us to significantly reduce weight while maintaining exceptional strength and durability.

For example, the IMTOS carbon thru axle weighs only 25g, yet it achieves over 1000 kgf tensile strength and more than 20 Nm torque resistance.

This advanced engineering ensures reliable performance while delivering meaningful weight savings for riders who demand the highest performance

Room-Temperature Coating

IMTOS uses an advanced Room-Temperature Coating Technology that eliminates the need for secondary high-temperature curing commonly used in traditional coating processes. By avoiding additional heat exposure, the original structural integrity of the carbon fiber is better preserved.

This process helps maintain the material’s maximum strength and stiffness, while ensuring a clean and durable surface finish without compromising performance.

Thermoplastic Carbon Technology

Thermoplastic composite materials use linear polymer matrices combined with high-strength carbon fibers. The inherent toughness of thermoplastic polymers gives the composite excellent impact resistance and damage tolerance.

Compared with traditional thermoset composites, thermoplastic carbon structures offer superior impact performance and outstanding fatigue resistance, ensuring long-term durability under repeated stress.

Another key advantage is the ability for secondary compression molding. Defective or imperfect parts can be reprocessed through a second pressing process, restoring structural integrity without reducing the mechanical performance of the final product.

This advanced technology allows IMTOS components to achieve high strength, improved reliability, and consistent performance while maintaining lightweight construction.

Recyclable Carbon Technology

IMTOS utilizes advanced thermoplastic carbon composite technology, which enables carbon fiber components to be chemically separated and recycled at the end of their lifecycle.

Through a specialized solvent-based process, thermoplastic resin can be extracted from the carbon fiber structure and purified through filtration, concentration, and extraction, producing high-purity recyclable resin. At the same time, the recovered carbon fibers retain over 90% of their original mechanical performance.

This technology allows the materials to be reprocessed and reused with different resin systems, significantly improving sustainability while maintaining high structural performance.

Compared with traditional thermoset composites, thermoplastic carbon materials provide true recyclability, helping reduce material waste and support more environmentally responsible composite manufacturing.