Kevlar® EXO™ And KINETIXX Collaboration Transforms Advanced Golf Shaft Composite Architectures

TW Special Report

After more than fifteen years of material research, polymer development and qualification in extreme industrial- and aerospace-adjacent environments, Wilmington, Del.-based DuPont’s Kevlar^® EXO™ is now being translated into precision sporting systems where energy-transfer dynamics, structural resilience, torsional control and fatigue resistance are mission-critical.

Kevlar^® EXO™ represents a generational shift in aramid fiber technology. Unlike legacy Kevlar^® grades, Kevlar^® EXO™ is a copolyamide fiber platform incorporating a new monomer chemistry that improves molecular alignment and chain mobility. This architecture delivers a rare combination of high tensile strength, elevated elongation, controlled flexibility, thermal stability and intrinsic flame resistance, collectively outperforming traditional para-aramids across multiple performance measures.

These properties have already enabled breakthrough solutions in next-generation soft armor, flexible containment systems and aerospace deployables, where durability after extended service life and repeated high-strain loading is essential.

Composite Engineering

From a composite engineering standpoint, Kevlar^® EXO™ exhibits an unusually favorable strain-to-failure profile, allowing it to absorb and return energy under dynamic load rather than dissipating it through brittle fracture. Its elongation capability — approximately 1.5 to 2 times greater than high-modulus carbon fiber — enables enhanced ductility and impact tolerance while maintaining low density. Kevlar^® EXO™ also retains structural integrity at temperatures exceeding 500°C, mitigating risks associated with resin-matrix softening or thermal degradation in high-energy environments.

KINETIXX Prepregs At Commercial Scale

Building on the extensive validation of Kevlar^® EXO™ across ballistics protection, flexible fuel bladders, orbital debris shielding and aerospace deployable structures, San Clemente, Calif.-based KINETIXX’s engineering team has integrated the fiber into proprietary golf shaft composite systems using precisely controlled fiber architectures. Crucially, KINETIXX is not merely a materials integrator, but the sole owner and manufacturer of the novel unidirectional prepreg architectures used in these shafts. KINETIXX develops, qualifies and produces these prepreg materials in-house at commercial scale — a vertically integrated capability unmatched in the golf industry and virtually nonexistent across premium sporting goods.

This proprietary unidirectional prepreg platform is not a single-use solution. It represents a foundational materials technology that KINETIXX is actively deploying across a broader innovation roadmap, including future applications in adjacent sporting categories, industrial systems and advanced medical devices, where controlled flexibility, fatigue resistance and structural reliability are paramount.

Two Platforms

KINETIXX is the only golf shaft manufacturer with exclusive access to Kevlar^® EXO™ and has developed two distinct shaft platforms — SyrgeX and FlexurX — to fully exploit the material’s mechanical advantages through utility-patented hybrid construction methods. Because KINETIXX both engineers and produces the underlying composite materials, no other manufacturer can replicate these shaft architectures, their performance envelopes or their manufacturing consistency. Quite simply, these shafts cannot be reverse-engineered, licensed or table-rolled into existence elsewhere.

“We couldn’t be more excited to partner with KINETIXX on a project that brings together two innovation-driven brands,” said Scott Janco, Kevlar^® EXO™ Application Development. “By combining KINETIXX’s advanced composite architectures with the breakthrough material science behind Kevlar^® EXO™, we are extending the performance envelope of aramid fibers into precision sporting systems — an application space that demands both extreme mechanical efficiency and refined tactile response.”

The SyrgeX Platform

The SyrgeX platform utilizes a vacuum-cured hybrid architecture, combining high-modulus carbon fiber core flags (30T at 0° for longitudinal strength and 40T at 45° for torsional resistance) with a homogeneous, circumferential filament-wound Kevlar^® EXO™ exoskeleton. Filament winding aligns continuous Kevlar^® EXO™ fibers along calculated helical and hoop-load paths, creating a structurally “spineless” shaft with exceptional concentricity and resistance to ovalization under high load. Vacuum curing minimizes resin content and air voids, producing a dense, low-void composite that maximizes fiber volume fraction and energy return. This construction allows SyrgeX shafts to simultaneously optimize carbon fiber’s compressive stiffness, and Kevlar® EXO™’s tensile toughness and impact absorption, a balance previously unattainable in golf shaft design.

The FlexurX Platform

The FlexurX platform applies Kevlar^® EXO™ innovation to a vacuum-cured, table-rolled architecture, pairing a 30T/40T high-modulus carbon fiber core with an ultra-thin (0.10 mm) proprietary Kevlar^® EXO™ unidirectional outer ply oriented at 45°. This Kevlar^® EXO™ bias layer functions as an external stabilizing exoskeleton, suppressing torsional deformation and shaft ovaling during high-speed loading while adding elongation and vibration damping that carbon-only constructions cannot provide. The result is a lighter, more forgiving structure that preserves precise loading and unloading behavior, even on off-center impacts.

End To End

“What makes this moment truly different is that we are not adapting someone else’s material to golf,” said Jason Horodezky, CEO of KINETIXX. “We own the material science, the prepreg architecture, and the manufacturing process end to end. That allows us to engineer performance at the molecular, fiber and structural levels simultaneously. There is no other company in golf — and very few anywhere — that can design, produce and scale composite systems like this. These shafts are the first visible expression of a much larger materials platform that will ultimately extend far beyond golf.”

Across both platforms, KINETIXX’s use of vacuum curing rather than conventional air-cured or mechanically-compacted processes ensures uniform resin distribution, reduced void content and repeatable mechanical properties from shaft to shaft. Unlike centerless-ground shafts, KINETIXX shafts are produced as true net-shape composites, preserving the concentricity and structural symmetry critical to torsional consistency and dispersion control.

By integrating Kevlar^® EXO™ into load-bearing and stabilizing regions of the shaft, KINETIXX has redefined the traditional carbon-dominant composite paradigm used in premium golf shafts. The resulting structures demonstrate improved energy efficiency, reduced vibration transmission, enhanced fatigue life and superior damage tolerance, while maintaining the stiffness-to-weight ratios demanded by elite players.

Consumer-Facing Performance

The Kevlar^® EXO™ and KINETIXX collaboration exemplifies how polymer-level and fiber-level innovation can unlock new composite architectures beyond the traditional trade-offs of stiffness, toughness and weight. It further underscores a broader trend: aerospace- and defense-grade materials being re-engineered for consumer-facing performance systems, where durability, consistency and structural optimization are as critical as peak output.

For more information on Kevlar^® EXO™ please visit https://www.dupont.com/kevlar-exo.html. For more information on KINETIXX, https://www.kinetixxgolf.com/.

Sponsored content provided by DuPont Kevlar® EXO™.

2026 Quarterly Issue I