• Full roll of patterned shock pad showing wavy diamond friction surface
  • Patterned shock pad installed beneath artificial turf system
  • Full roll of patterned shock pad showing wavy diamond friction surface
  • Patterned shock pad installed beneath artificial turf system

Patterned Shock Pad

Patterned shock pad with sealed foundation and multi-directional drainage for artificial turf. Wavy diamond friction surface, tested performance data.
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  • Full roll of patterned shock pad showing wavy diamond friction surface
  • Patterned shock pad installed beneath artificial turf system

Description

Product Overview

The Patterned Shock Pad is a shock-absorbing underlay for artificial turf systems, built on a sealed foundation with a dense, multi-directional drainage structure. The design moves water more efficiently than standard drainage layouts used in older shock pad constructions.

The pad goes through a secondary high-temperature shaping process. This shaping step improves load-bearing capacity, elastic recovery, and compression resistance, and supports more complete VOC volatilization during manufacturing. The surface uses a wavy diamond-shaped friction pattern, which increases grip between the turf backing and the underlay. This helps reduce wrinkling and cracking caused by thermal expansion and contraction of the turf.

The pad is manufactured without added sex hormone carcinogens or heavy metals, in line with safe material handling for sports surfaces used by the public.

Technical Specifications

Parameter Test Standard Value
Thickness EN 1969:2000 10.0 mm
Weight per Unit Area ISO 8543:2020 604 g/m²
Shock Absorption CEN/TS 16717:2015 35.5% (mean)
Vertical Deformation CEN/TS 16717:2015 6.9 mm (mean)
Tensile Strength EN 12230:2023 (Method 3, rectangular specimen) 7.71 kN/m
Tensile Elongation EN 12230:2023 (Method 3, rectangular specimen) 42%
Vertical Seepage Rate EN 12616:2023 (Method A) 1465 mm/h
Anti-Bowing & Curling EN 17326:2020 2 mm

Key Features & Benefits

High-Efficiency Drainage System

The sealed foundation combined with a dense, multi-directional drainage structure moves water through the pad more effectively than standard drainage layouts. The measured vertical seepage rate is 1465 mm/h under EN 12616:2023 (Method A).

High Load-Bearing & Compression Resistance

Secondary high-temperature shaping improves the pad's load-bearing capacity and its resistance to compression and elasticity loss over repeated use, supporting a longer working life on the field.

Patterned Friction Surface for Turf Stability

The wavy diamond-shaped surface pattern increases friction between the turf backing and the shock pad. This reduces turf wrinkling and cracking caused by thermal expansion and contraction.

Excellent Elasticity & Long-Term Performance

Shock absorption is measured at 35.5% (mean) with vertical deformation of 6.9 mm (mean) under CEN/TS 16717:2015, reflecting the pad's cushioning and recovery behavior under load.

Structural Strength & Flatness

Tensile strength is rated at 7.71 kN/m with 42% elongation under EN 12230:2023 (Method 3, rectangular specimen). Anti-bowing and curling performance is rated at 2 mm under EN 17326:2020, supporting a flat, stable surface after installation.

Safe Material Composition

The high-temperature shaping process supports more complete VOC volatilization during production. The finished product does not contain added sex hormone carcinogens or heavy metals.

Applications

The Patterned Shock Pad is designed for use beneath artificial turf systems, including:

  • Football and soccer fields
  • School sports grounds and municipal sports facilities
  • Landscape turf and community recreation areas
  • Sports field renovation projects

FAQ

What drainage rate does this shock pad achieve?

Vertical seepage rate is measured at 1465 mm/h under EN 12616:2023 (Method A), based on the pad's sealed foundation and multi-directional drainage structure.

How much shock absorption does the pad provide?

Shock absorption is measured at 35.5% (mean) with vertical deformation of 6.9 mm (mean), tested under CEN/TS 16717:2015.

Does the surface pattern affect turf stability?

Yes. The wavy diamond-shaped friction surface increases grip between the turf backing and the shock pad, which helps reduce wrinkling and cracking from thermal movement in the turf.

What is the tensile performance of this shock pad?

Tensile strength is rated at 7.71 kN/m with 42% elongation, tested under EN 12230:2023 (Method 3, rectangular specimen).

Is the material safe for public sports facilities?

The manufacturing process supports more complete VOC volatilization, and the finished product does not contain added sex hormone carcinogens or heavy metals.

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