The running shoe includes a sole and an upper, wherein the upper has a textile main material. The running shoe has tightening bands with at least one compressing tightening band and tensioning bands with at least one compressing tensioning band.
The running shoe (1) comprises a sole (3) and an upper (2), wherein the upper (2) has a textile main material. Moreover, the running shoe (1) has a group of tightening bands with at least one compressing tightening band (11, 12, 13, 14) and a group of tensioning bands with at least one compressing tensioning band (15, 16).
Cadense adaptive shoes help reduce toe-catch and support smoother, more confident walking with our glide-to-grip sole.
Furthermore, visual representations like the one above help us fully grasp the concept of Adaptive Tension Bands In Shoe Sole.
Notably, even passive elastic dummies reduced the heel-to-midsole movement compared to lacing, indicating potential benefits of non-adaptive laceless SCS for foot-to-shoe alignment. We demonstrate potential of adaptive SCS to enhance foot stability and safety during dynamic movements, war-ranting further development in sports shoe design.
The study obtained peak plantar pressures (PPPs) and contact area across seven plantar regions of each shoe sole and analyzed the correlation between these biomechanical parameters and subjective comfort. Results: Compared to non-auxetic shoe soles, auxetic structured shoe soles reduced PPPs across various foot regions and increased contact area.
