A heel pad for placement within a shoe and a method of use. The heel pad includes a pliable body, a filler element contained within the pliable body, and a malleable member fastened within the pliable body and extending along at least part of a length of the pliable body. In use, the heel pad is positioned in a heel section of the shoe. A longitudinal end of the heel pad is folded along an upper edge of the heel section of the shoe. The folded longitudinal end of the heel pad is affixed to an outer surface of the heel section of the shoe.

A heel pad for placement within a shoe and a method of use. The heel pad includes a pliable body, a filler element contained within the pliable body, and a malleable member fastened within the pliable body and extending along at least part of a length of the pliable body. In use, the heel pad is positioned in a heel section of the shoe. A longitudinal end of the heel pad is folded along an upper edge of the heel section of the shoe. The folded longitudinal end of the heel pad is affixed to an outer surface of the heel section of the shoe.

As described above, one or more aspects of the present disclosure provide articles having structural color, and methods of making articles having structural color. The present disclosure provides for articles that exhibit structural colors through the use of an optical element, where structural colors are visible colors produced, at least in part, through optical effects. The optical element (e.g., a single layer reflector, a single layer filter, a multilayer reflector or a multilayer filter) can include the reflective layer(s), constituent layers, and an optional textured surface. The optical element has a minimum percent reflectance in a wavelength range within the wavelength range of about 380 to 625 nanometers. The optical element imparts a structural color that corresponds substantially to the range of wavelength range.

As described above, one or more aspects of the present disclosure provide articles having structural color, and methods of making articles having structural color. The present disclosure provides for articles that exhibit structural colors through the use of an optical element, where structural colors are visible colors produced, at least in part, through optical effects. The optical element (e.g., a single layer reflector, a single layer filter, a multilayer reflector or a multilayer filter) can include the reflective layer(s), constituent layers, and an optional textured surface. The optical element has a minimum percent reflectance in a wavelength range within the wavelength range of about 380 to 625 nanometers. The optical element imparts a structural color that corresponds substantially to the range of wavelength range.

A heel pad for placement within a shoe and a method of use. The heel pad includes a pliable body, a filler element contained within the pliable body, and a malleable member fastened within the pliable body and extending along at least part of a length of the pliable body. In use, the heel pad is positioned in a heel section of the shoe. A longitudinal end of the heel pad is folded along an upper edge of the heel section of the shoe. The folded longitudinal end of the heel pad is affixed to an outer surface of the heel section of the shoe.

A heel pad for placement within a shoe and a method of use. The heel pad includes a pliable body, a filler element contained within the pliable body, and a malleable member fastened within the pliable body and extending along at least part of a length of the pliable body. In use, the heel pad is positioned in a heel section of the shoe. A longitudinal end of the heel pad is folded along an upper edge of the heel section of the shoe. The folded longitudinal end of the heel pad is affixed to an outer surface of the heel section of the shoe.

The present invention relates to a sole for a shoe, in particular a running shoe. The shoe comprises a sole component and at least one loose particle(s) contained within the sole component. The loose particles provide haptic feedback to a user of the sole during an athletic activity.

As described above, one or more aspects of the present disclosure provide articles having structural color, and methods of making articles having structural color. The present disclosure provides for articles that exhibit structural colors through the use of an optical element, where structural colors are visible colors produced, at least in part, through optical effects. The optical element (e.g., a single layer reflector, a single layer filter, a multilayer reflector or a multilayer filter) can include the reflective layer(s), constituent layers, and an optional textured surface. The optical element has a minimum percent reflectance in a wavelength range within the wavelength range of about 380 to 625 nanometers. The optical element imparts a structural color that corresponds substantially to the range of wavelength range.

As described above, one or more aspects of the present disclosure provide articles having structural color, and methods of making articles having structural color. The present disclosure provides for articles that exhibit structural colors through the use of an optical element, where structural colors are visible colors produced, at least in part, through optical effects. The optical element (e.g., a single layer reflector, a single layer filter, a multilayer reflector or a multilayer filter) can include the reflective layer(s), constituent layers, and an optional textured surface. The optical element has a minimum percent reflectance in a wavelength range within the wavelength range of about 380 to 625 nanometers. The optical element imparts a structural color that corresponds substantially to the range of wavelength range.

As described above, one or more aspects of the present disclosure provide articles having structural color, and methods of making articles having structural color. The present disclosure provides for articles that exhibit structural colors through the use of an optical element, where structural colors are visible colors produced, at least in part, through optical effects. The optical element (e.g., a single layer reflector, a single layer filter, a multilayer reflector or a multilayer filter) can include the reflective layer(s), constituent layers, and an optional textured surface. The optical element has a minimum percent reflectance in a wavelength range within the wavelength range of about 380 to 625 nanometers. The optical element imparts a structural color that corresponds substantially to the range of wavelength range.