PHNTM

PHNTM TECHNOLOGY

Built to disappear.

Pads so thin and unobtrusive that they practically disappear while riding. Minimal in thickness. Precise in function.

Designed to support – not to be noticed.

Features

Cyclist in black kit riding a sleek bike indoors with textured walls, emphasizing motion and athleticism.

Second-Skin Feel

Adapts to your body and follows every move.

Multilayered shoe insole with varying textures and colors, including blue and grey, displayed in a dynamic, fanned-out position.

Ultra Thin Design (4 mm)

Compressed to 1/4 of its original size

Cyclist on a high-tech bike in a soundproof room, grid lights reflecting on the bike frame and cyclist's clothing.

Reduced Shear-Forces

Less movement against your skin.

Close-up view of cyclist wearing a grid-patterned suit, from behind on a bike, with dynamic lighting highlighting the outfit.

Defined Sit Bone Support

Compressed super high density foam (280 kg/m³.

Cyclist in an aerodynamic testing chamber with neon grid lines on body, focusing intently.

Up to 50% less pressure

Reducing peak loads where it matters most.

Silhouette of a cyclist on a bike in a dark, futuristic room with geometric, backlit walls.

What makes the difference?

Most bib short pads rely on volume and softness. PHNTM follows a different principle. - High-density foam - Ultra-thin construction (4–8 mm) - Reduced shear forces. The result are pads that stay stable, support precisely and move naturally with the body.

Concept

Close-up of a multi-layered shoe insole with blue and black sections, floating against a soft blue gradient background.

Comfort beyond thickness

Comfort is not created by thickness. It comes from support that stays stable under load. When a pad is too soft, the body sinks in. Pressure concentrates, friction increases, and the pad starts to work against the rider’s movement.

Floating layers of textured, perforated, black and blue materials against a gradient background, resembling a deconstructed sneaker sole.

PHNTM avoids this by design.

Very high foam density combined with minimal thickness keeps the body supported on the surface of the pad. Instead of collapsing under load, the pad distributes the pressure and follows the rider’s motion.

Cyclist wearing a mask rides a stationary bike in a dimly lit room with soundproof walls and a monitor in front.

One principle. Five application-specific pads.

Depending on riding style and comfort requirements, five pad options cover different use cases. Thickness and material setup are adapted to each use case – from performance-focused road riding to comfort-oriented applications.