GH-15 xSynthetic Ice™ is a "heavy duty" commercial panel which is versatile in that it can be used for small, medium or large commercial or community surfaces. Our GH-15 xSynthetic Ice offers superior glide properties and durability with glide enhancer infused throughout the entire thickness of the material. Whether you are looking to improving hockey skating, passing, shooting, goaltending skills or just leisure skating anywhere this is the perfect synthetic ice!
This item requires shipment via freight carrier. At checkout your cart will note Freight Quoted Separately. Once you've placed your order we'll contact you to discuss your shipping location (business or home) and requirements (on-site dock, lift gate required, etc.), and get back to you with our best rate.
GH-15 xSynthetic Ice™ offers superior glide properties and durability with glide enhancer infused throughout the entire thickness of the material. Both silicone glide plus dry slip additives are combined with the raw material resulting in the longest glide and highest overall performing panel we've found on the market today. These innovations translate to make our xSynthetic Ice 20-30% faster than other well-known brands for the entire life of the panel. Best of all, you don't have to deal with adding liquid glide. We designed the Synthetic Ice with the right firmness level because we know that skaters need to be able to edge into the product but not rip a massive gouge into it, or just slide across it. Synthetic Ice needs to feel realistic in order to provide the skater with confidence to perform like they would on a normal rink ice. Our Very High Molecular Weight material delivers this to our customers. Our xSynthetic Ice is a Sinter Pressed material which means less cleanup and a greater overall skating experience compared to the typical competitors extruded sheet material. xSynthetic Ice will not only last longer but the products glide properties have proven to last 40% longer on average as well! There is only ONE true synthetic ice skating efficiency test that ensures you are buying a high quality synthetic product. Most companies will cite the Coefficient of Friction (COF) tests to compare their product with refrigerated ice. This is not only a poor comparison – but it is also misleading to the consumer. COF tests are not made using a weighted skate blade – so why talk about them? Even the sellers of synthetic ice don’t understand this – so how can a consumer ever be expected to understand? Our xSynthetic synthetic ice test using actual skates has proven to have on average, 30-40% less resistance than any competitor tested which provides you a BETTER product and an easier skating effort. Manufacturing standards based on DIN ISO 9001 ensure excellence in raw material consistency every time our panels are produced. This directly translates to a superior synthetic ice skating performance. Most sellers of synthetic ice have absolutely no idea where their raw materials come from. Some producers simply switch from one resin supplier to the next looking for the cheapest price. This can result in mixed resin batches that can produce inconsistent materials with various negative consequences over the short and long term of a product life. Our superior grade resin (raw material) ensures a consistent synthetic ice sheet every time. Due to our machining excellence, you also receive a perfectly tight panel joint every time, which means uncompromised safety, and higher levels of product satisfaction. All of this translates to a more enjoyable skating experience, every time.
Unpack your GH-15 xSynthetic Ice™ onto a smooth rigid flooring area. Arrange the puzzle pattern edges as precisely as possible and simply snap them in place by utilizing a block (included) and a rubber mallet. Now you're ready to take your training to the next level through a superior training experience!
Product to be used on smooth, level surface such as concrete or wooden sub-floor. Ideal for both at-home and small commercial surfaces such as hockey development or figure skating practice surfaces.