A traction system for increasing traction on a mat can comprise a first surface and a second surface adapted for a vehicle wheel or pedestrian foot to contact wherein the first surface comprises a plurality of first traction elements extending from the first surface. The first traction elements and the second traction elements can be attached to each other. The first traction elements can have a set pattern extending across the first surface. The second traction elements can comprise one or more side walls that are arranged as a crosshatch pattern that substantially diamond shape in the middle of the crosshatch pattern each wall having substantially the same height.

A traction system for increasing traction on a mat can comprise a first surface and a second surface adapted for a vehicle wheel or pedestrian foot to contact wherein the first surface comprises a plurality of first traction elements extending from the first surface. The first traction elements and the second traction elements can be attached to each other. The first traction elements can have a set pattern extending across the first surface. The second traction elements can comprise one or more side walls that are arranged as a crosshatch pattern that substantially diamond shape in the middle of the crosshatch pattern each wall having substantially the same height.

A vehicle wheel traction assembly for use in freeing a stuck vehicle includes a plate having a plurality of ridges engaged thereto and extending from a first face thereof. A second face of the plate can be positioned upon a surface proximate to a drive wheel of a vehicle to increase traction of the drive wheel relative to that of the drive wheel directly upon the surface. A handle is engaged by a pivot pin to the second face of the plate proximate to a first end thereof. The pivot pin is biased toward a first terminus of the handle. The handle is rotatable between a deployed configuration, wherein a second terminus of the handle is positioned distal from the plate, and a stowed configuration, wherein the handle extends between the first end and a second end of the plate.

A vehicle wheel traction assembly for use in freeing a stuck vehicle includes a plate having a plurality of ridges engaged thereto and extending from a first face thereof. A second face of the plate can be positioned upon a surface proximate to a drive wheel of a vehicle to increase traction of the drive wheel relative to that of the drive wheel directly upon the surface. A handle is engaged by a pivot pin to the second face of the plate proximate to a first end thereof. The pivot pin is biased toward a first terminus of the handle. The handle is rotatable between a deployed configuration, wherein a second terminus of the handle is positioned distal from the plate, and a stowed configuration, wherein the handle extends between the first end and a second end of the plate.

A wheel traction device is adapted for providing traction for a wheel of a vehicle to escape from a mud ground during rotation of the wheel, and includes: a guiding unit having a guiding portion adapted to abut against the wheel; a bearing unit that is detachably connected to the guiding unit, and that has a bearing portion adapted to be positioned on the mud ground such that, during rotation of the wheel, the bearing unit and the guiding unit are prevented from being driven by the rotation of the wheel to move relative to the mud ground, thereby allowing the wheel to roll over the bearing portion under guidance of the guiding portion; and a fastening unit that detachably fastens the bearing and guiding units together.

A vehicle recovery board including an inner layer fabricated from a first material, the inner layer including a first face and an opposed second face, in which the first face and the second face each include a plurality of inner layer projections extending outwardly therefrom; and an outer layer fabricated from a second material, the outer layer is configured to substantially overlie the first face and the second face of the inner layer, in which the outer layer includes a plurality of outer layer projections extending outwardly therefrom, in which at least a portion of the plurality of outer layer projections are formed over at least a portion of the inner layer projections.

A vehicle recovery board including an inner layer fabricated from a first material, the inner layer including a first face and an opposed second face, in which the first face and the second face each include a plurality of inner layer projections extending outwardly therefrom; and an outer layer fabricated from a second material, the outer layer is configured to substantially overlie the first face and the second face of the inner layer, in which the outer layer includes a plurality of outer layer projections extending outwardly therefrom, in which at least a portion of the plurality of outer layer projections are formed over at least a portion of the inner layer projections.

A vehicle wheel traction assembly for use in freeing a stuck vehicle includes a plate having a plurality of ridges engaged thereto and extending from a first face thereof. A second face of the plate can be positioned upon a surface proximate to a drive wheel of a vehicle to increase traction of the drive wheel relative to that of the drive wheel directly upon the surface. A handle is engaged by a pivot pin to the second face of the plate proximate to a first end thereof. The pivot pin is biased toward a first terminus of the handle. The handle is rotatable between a deployed configuration, wherein a second terminus of the handle is positioned distal from the plate, and a stowed configuration, wherein the handle extends between the first end and a second end of the plate.

A vehicle wheel traction assembly for use in freeing a stuck vehicle includes a plate having a plurality of ridges engaged thereto and extending from a first face thereof. A second face of the plate can be positioned upon a surface proximate to a drive wheel of a vehicle to increase traction of the drive wheel relative to that of the drive wheel directly upon the surface. A handle is engaged by a pivot pin to the second face of the plate proximate to a first end thereof. The pivot pin is biased toward a first terminus of the handle. The handle is rotatable between a deployed configuration, wherein a second terminus of the handle is positioned distal from the plate, and a stowed configuration, wherein the handle extends between the first end and a second end of the plate.

A removably attachable fender flare system has an inner flare and an upper flare and a lower flare, which are removably attachable to the inner flare. The upper and lower flare may have traction protrusions to provide traction to free a stuck off-road vehicle. The inner flare may be in direct contact with and coupled to the off-road vehicle, providing a location to secure the upper and lower flares. The upper flare and lower flare may couple to a groove, which runs the length of the inner flare, from front to back. Further, the lower flare may couple to the upper flare, securing the fender flares.