TECH SERIES - WHAT GOES INTO A SNOWBOARD CORE?

21/09/16

TECH SERIES - WHAT GOES INTO A SNOWBOARD CORE?

The core is the snowboard's engine room. It is where the riding characteristics are created and is the single most important area of the board. It is essentially several laminated strips of wood glued together - from which the rest of the board is built around. So what separates a good core from a not so good one? And how will it to affect your riding?

Core Materials

Each species of tree has slightly different attributes which engineers take advantage of in order to create responsive and fun boards. Each species' attributes are measured against four factors:

  • Density - A measure of mass per unit of volume. (the amount of wood packed into 1 square inch)
  • Burst strength - The pressure at which body will burst. (the force needed to squash a piece of wood from each end till it breaks outwards)
  • Tensile strength - Measures the force required to pull something such to the point where it breaks
  • Flex strength –The pressure required to bend a cross-section until it fractures.

Snowboard Core Woods

Poplar tree

Poplar and Aspen

Both woods are classed as mid-hardness and have almost identical properties. These woods can form the whole core (usually on beginner to intermediate boards) or the main foundation for higher spec cores.

Beech tree

Beech, Maple and Ash

Again, these woods have similar properties and are used to create performance zones within the core. These harder woods are more resistant to compression and are stiffer and heavier. For this reason they are normally only used within strategic areas of the board.

Combining the harder woods with a mid-hard wood allows the designer to optimize the performance and weight.

Birch tree

Birch

Birch comes from the same family of tree as Beech, but its higher tensile strength combined with the lower density make it ideal for snowboard designers who want to take advantage of its added power without adding too much to the overall weight of the board.

Bamboo tree

Bamboo

Bamboo has excellent tensile strength that is used it to add pop to a core or even for reinforcing the snowboard's structural layers. Bamboo can grow at the rate of 4 to 5ft per day making it one of the most environmentally sound products available.

Paulownia tree

Abachi and Balsa

They are usually combined with harder woods and placed in lower stressed areas of the core as a means of saving weight. Abachi is from the same family as Balsa but has a far higher density.

Use of these woods is becoming less common due to the serious environmental impact of Central and South American deforestation.

Paulownia tree

Paulownia

Paulownia is one of the new woods being used in snowboard manufacturing. It has several properties that make it attractive to snowboard designers. The first of these is its combination of lightweight and strength. Weighing not much more than super light Balsa wood Paulownia has a strength rating closer to the traditional woods used in core building.

Other core materials

Honeycomb

Honeycomb combines great strength with lightness. It is 90% air. Two types are used: Nomex and Aluminium. Nomex honeycomb needs more wood reinforcing but is lighter. Aluminium honeycomb is stronger and only needs the binding area reinforced. Both types produce a board that is about equal in weight.

Wood fibre composite

A composite is a combination of wood fibres and resin which forms a lightweight and durable material which is more versatile and lighter than the old traditional 2 pack foam cores. The softer flex combined with a higher strength ratio to weight than standard wood-cored boards makes this construction perfect for the specific characteristics of the jib rider.

Construction

Core construction

Once the engineers have decided which type of core materials they want to use they need to be joined together to create a core block

By altering the orientation of the wood grain it is possible to have additional control over areas of the board. Running the grain at different angles to the core gives improved energy transmission. Some brands also use end grain wood along the edges to create stiff torsional zones for improved edge hold.

snowboard core

The strips are then glued and put into a press to form a core block. The core block is then cut into thinner strips, after that it goes through the milling machine where the shape and profile are milled into it.

Posted by: Pete F Tagged as: Snowboarding,Tech Series,Workshop