Anti-Fatigue Mat Bubble Trax® Ultra™ 782

  • Heavy-duty vinyl bubble top surface combined with a dense closed cell PVC foam base provides added cushioning comfort
  • UniFusion™ bond guaranteed for the life of the mat
  • Redstop™ non-slip backing to reduce mat slippage
  • Beveled edges on all 4 sides
  • Certified by the NFSI (National Floor Safety Institute)
  • Available Colors: Black; Black/Yellow; Gray
  • Overall Thickness: 3/4
  • Stock Sizes: 2'x 3'; 3'x 5'
  • Roll Sizes: 2'x 75'; 3'x 75'; 4'x 75'; 5'x 75'
  • Custom Lengths: 2', 3', 4' and 5' widths (up to 75' long) * Gray not available in 4' and 5' widths
Made in USA Made in USA
As low as $17.00
Need a bulk or special order? Get a Quote
782 Black / Yellow
782 Black / Yellow 782 Gray 782 Black 782 Black 782 Black / Yellow 782 Gray 782 Black 782 Black / Yellow 782 Gray 782 Situational 782 Application 782 Black / Yellow Application 782 Black / Yellow Application 782 Gray Application 782 Black Swatch 782 Black / Yellow Swatch 782 Gray Swatch

Bubble Trax® Ultra™ is an unique high performance anti-fatigue floor mat with a bubble top surface design providing extreme ergonomic comfort and durability. Bubble Trax® Ultra™ combines a heavy-duty vinyl top surface with a dense sponge backing utilizing NoTrax® exclusive UniFusion™ technology. This virtually eliminates the possibility of de-lamination. NoTrax® laminate floor mats that come with RedStop™, a uniquely engineered non-slip backing technology, eliminates the slipping and sliding of floor mats on smooth surface flooring such as tile, wood, marble, and treated concrete. The sloped beveled edges reduce tripping hazards and allow easy access on and off the mat. Extremely well suited for multi-shift operations in dry work area where the worker is standing for prolonged periods of time; workstations, assembly lines.

WARNING: This product can expose you to chemicals including di-2-ethylhexyl phthalate and/or diisononyl phthalate which is known to the State of California to cause cancer, birth defects or reproductive harm. For more information, visit