athletic

HATKO ATHLON

HATKO ATHLON is our new system for Athletic Tracks. In addition to our Grass and Acrylics products, we developed our systems to meet our customers needs on Athletic Facilities.

Our engineers designed and developed our ATHLON System with the best polymers available in the industry. Athlon Systems provide the best sports performance with the optimum material consumption and cost.

Our products were tested under severe climatic conditions and proved their performance. They were installed in many reference projects right after they were introduced.




ReferenceSqmSystemCertificate
Istanbul Olympic Stadium16.000m2Athlon SWIAAF Class 2
Ashgabat Olympic Complex7.200m2Athlon FPIAAF Class 2
Ashgabat Stadium7.200m2Athlon FP
Nigde University7.200m2Athlon SWIAAF Class 2
Nevsehir University7.200m2Athlon SWIAAF Class 2
Afyon TOKI Sport Complex7.200m2Athlon FPIAAF Class 2
Osmaniye Athletic Track7.200m2Athlon SWIAAF Class 2
Sinop University Stadium7.200m2Athlon SWIAAF Class 2
Isparta Athletic Track7.200m2Athlon SWIAAF Class 2
Kırklareli Athletic Track6.400m2Athlon SWIAAF Class 2
Batman TPAO Athletic Track7.200m2Athlon MP
Gaziantep University4.305m2Athlon MP
Kuleli Military High Scool2.400m2Athlon MP
Tunceli Sports Directorate2.800m2Athlon MP
Police Academy Ankara4.305m2Athlon SW
Aydın University3.800m2Athlon SW
Bitlis Eren University4.750m2Athlon MP
Kocaeli University7.800m2Athlon SW
Afşin Municipality1.700m2Athlon MP

Athletic Track

Athlon Athletic Systems are developed by HATKO engineers to provide the requirements of the Athletes and Facility Owners.

ATHLON FP

ATHLON FP is a multi-layer in-situ full pour polyurethane track surfacing system. The system consists of 3 layers.

Layer 1: Impermeable self-leveling Polyurethane base layer

Layer 2: Force-Reduction Central Foam Structured Polyurethane Layer. In addition to providing force reduction in compliance with IAAF Requirements, EPDM granules encapsulated at the top and bottom of this engineered layer allows for energy restitution and comfort, much desired by all athletes.

Layer 3: Highest quality Polyurethane, embedded with UV resistant EPDM rubber granule. Providing the best traction and spike resistancy.

The High Quality Polyurethanes used in the ATHLON Systems guarantee the highest durability and the best performance to the systems even under the world’s most severe climatic conditions.

ATHLON SW

ATHLON SW is a two-layer, seamless and elastic athletic ooring with a sandwich-type construction: special in-situ rubber shock pad of 10mm thick + 3mm self-leveling polyurethane layer + nish embedded UV resistant EPDM layer.

Layer 1: Base Layer is an in-situ constructed Polyurethane Binder + SBR elastic Layer. This engineered layer allows for energy restitution and force reduction in compliance with IAAF Requirements.

Layer 2: Highest quality Polyurethane, embedded with UV resistant EPDM rubber granule. Providing the best traction and spike resistancy.

ATHLON SW is a 2-layer sandwich system and is developed to resist UV degradation in the most severe climate conditions.

ATHLON is a 100% solid polyurethane system and is developed to resist UV degradation in the most severe climate conditions.

ATHLON MP

ATHLON MP is a two-layer, seamless and elastic multi- purpose ooring with a sandwich-type construction: special in-situ SBR shock pad of 8mm thick + 7mm UV resistant EPDM layer. This system is designed for multipurpose sports oorings with a permeable structure. It is ideal for ooring in schools or community sports facilities of municipalities. This easy-to-maintain, affordable and well-performing surface meet needs of almost any sport. It provides the best results in force reduction and energy restitution for community use.

Layer 1: Base Layer is an in-situ constructed Polyurethane Binder + SBR elastic Layer. This engineered layer allows for energy restitution and force reduction in compliance with IAAF Requirements.

Layer 2: in-situ constructed Polyurethane Binder + Highest quality UV resistant EPDM rubber granule.

ATHLON MP is a 2-layer sandwich system and is developed to resist UV degradation in the most severe climate conditions.