If "G+" referred to Google Plus (historical context), this feature would have been a "Share to G+" button allowing players to post a screenshot and replay link of their track directly to their Google Plus circles.
, a pure, non-toxic form of graphene produced through a patented physical process rather than chemical exfoliation [1, 5]. Polyurethane Base: The "Poly" refers to the polyurethane binder used to hold the EPDM (Ethylene Propylene Diene Monomer) rubber granules together. Graphene Integration: By dispersing G+® graphene into the polyurethane, the molecular structure of the track is reinforced, providing several mechanical and thermal advantages [2, 4]. Key Benefits of G+ Poly Tracks Integrating graphene into athletic surfaces addresses common pain points associated with traditional rubberized tracks: Enhanced Durability: Graphene’s extreme tensile strength makes the track more resistant to the "mechanical stress" of spikes and heavy foot traffic, extending the lifespan of the surface [3, 6]. Thermal Management: Graphene is highly thermally conductive. In G+ tracks, this helps dissipate heat more efficiently, preventing the surface from becoming excessively hot in direct sunlight and reducing the risk of "softening" or degradation due to heat [4, 7]. Elasticity & Energy Return: The material provides a consistent "force reduction" and "vertical deformation," which can help reduce athlete fatigue and injury risk by providing better shock absorption [2, 8]. Weather Resistance: The graphene-enhanced binder offers superior resistance to UV radiation and oxidative aging, meaning the track maintains its color and structural integrity longer under harsh environmental conditions [4, 6]. Typical Applications These tracks are generally used in professional and high-traffic environments where performance and longevity are priorities: Professional Athletics Stadiums: Where IAAF (World Athletics) standards for performance are required. University & School Facilities: To reduce long-term maintenance costs and provide a safer training surface. Public Parks: In regions with extreme temperature fluctuations where traditional poly tracks might crack or melt. Comparison: G+ Poly vs. Traditional Poly Tracks Feature Traditional Poly Track G+ Poly Track Heat Dissipation Low; can retain significant heat. High; graphene acts as a heat sink. Wear Resistance Standard; prone to thinning in lanes 1-2. Superior; reinforced molecular bond. Sustainability Variable; depends on recycled content. Higher; G+ is sustainably produced. Long-term Cost Higher maintenance/replacement frequency. Lower lifecycle cost due to durability. Would you like to see a list of manufacturers that specialize in G+ graphene-enhanced surfaces, or are you looking for technical installation specifications? AI can make mistakes, so double-check responses Copy Creating a public link... You can now share this thread with others Good response Bad response Show all g+ poly track
The material is designed with superior drainage, allowing races to continue safely during heavy rain. Unlike dirt, which can become muddy or hard-packed, Polytrack remains uniform in texture. If "G+" referred to Google Plus (historical context),
Use the built-in level editor to design your own polygonal challenges. Graphene Integration: By dispersing G+® graphene into the
This acts as the primary base, providing the necessary "grip" and stability.
Navigate loops, sharp turns, and massive jumps where every millisecond counts.
G+ Polytrack is not a simple dirt or grass path; it is a meticulously mixed composite material: