A woven textile is provided, including at least two blocks connected with each other. Each of the two blocks has an upper layer and a lower layer which are woven and fixed by a binding thread, and the upper layer and the lower layer are respectively composed of woven braids which extend meanderingly. The textile braid of the upper layer and the textile braid of the lower layer define a plurality of meshes, and the textile braids of the two blocks have different heights so that the meshes on the two blocks have different dimensions.

A fabric with wefts that include hard yarns and elastomeric yarns in a predetermined arrangement such that at least one hard yarn is alternately arranged with at least one elastomeric yarn, the elastomeric yarns having a greater shrinkage ratio than that of the hard yarns; the hard yarns form under portions and over portions with respect to warps, said under portions being formed when said hard yarns pass along the back side of the warps and defining loop portions, and said over portions being formed when the hard yarns pass along the front side of the warps and define connection portions, wherein for each hard yarn, an average number of warps passed by the loop portion is at least 6, and wherein the elastomeric yarns form under portions and over portions with respect to said warps in a weave that is tighter than the weave of the hard yarns.

A fabric with wefts that include hard yarns and elastomeric yarns in a predetermined arrangement such that at least one hard yarn is alternately arranged with at least one elastomeric yarn, the elastomeric yarns having a greater shrinkage ratio than that of the hard yarns; the hard yarns form under portions and over portions with respect to warps, said under portions being formed when said hard yarns pass along the back side of the warps and defining loop portions, and said over portions being formed when the hard yarns pass along the front side of the warps and define connection portions, wherein for each hard yarn, an average number of warps passed by the loop portion is at least 6, and wherein the elastomeric yarns form under portions and over portions with respect to said warps in a weave that is tighter than the weave of the hard yarns.

An object of the present invention is to provide a shoe having excellent comfort. The present invention provides a shoe including an upper material that is partially or fully formed of a fiber sheet, wherein the fiber sheet exhibits specific tensile characteristics at least in one direction.

An object of the present invention is to provide a shoe having excellent comfort. The present invention provides a shoe including an upper material that is partially or fully formed of a fiber sheet, wherein the fiber sheet exhibits specific tensile characteristics at least in one direction.

Aspects of the present invention relate to a dynamic woven material that is capable of undergoing a dimensional change in response to an external stimulus. The dynamic woven material comprises a plurality of discrete woven cells, where each woven cell comprises a reactive region and a non-reactive region. The reactive region changes from a first physical state to a second physical state when the woven material is exposed to the external stimulus. The woven material may be formed with zonal stretch properties by varying the areas occupied by the reactive region and the non-reactive region in each woven cell. For example, the bigger the area occupied by the reactive region in the woven cells in a particular zone of the dynamic woven material, the higher the level of stretch in the particular zone may be. Exemplary products manufactured from the dynamic woven material include, for example, articles of footwear.

Aspects of the present invention relate to a dynamic woven material that is capable of undergoing a dimensional change in response to an external stimulus. The dynamic woven material comprises a plurality of discrete woven cells, where each woven cell comprises a reactive region and a non-reactive region. The reactive region changes from a first physical state to a second physical state when the woven material is exposed to the external stimulus. The woven material may be formed with zonal stretch properties by varying the areas occupied by the reactive region and the non-reactive region in each woven cell. For example, the bigger the area occupied by the reactive region in the woven cells in a particular zone of the dynamic woven material, the higher the level of stretch in the particular zone may be. Exemplary products manufactured from the dynamic woven material include, for example, articles of footwear.

Aspects of the present invention relate to a dynamic woven material that is capable of undergoing a dimensional change in response to an external stimulus. The dynamic woven material comprises a plurality of discrete woven cells, where each woven cell comprises a reactive region and a non-reactive region. The reactive region changes from a first physical state to a second physical state when the woven material is exposed to the external stimulus. The woven material may be formed with zonal stretch properties by varying the areas occupied by the reactive region and the non-reactive region in each woven cell. For example, the bigger the area occupied by the reactive region in the woven cells in a particular zone of the dynamic woven material, the higher the level of stretch in the particular zone may be. Exemplary products manufactured from the dynamic woven material include, for example, articles of footwear.

Aspects of the present invention relate to a dynamic woven material that is capable of undergoing a dimensional change in response to an external stimulus. The dynamic woven material comprises a plurality of discrete woven cells, where each woven cell comprises a reactive region and a non-reactive region. The reactive region changes from a first physical state to a second physical state when the woven material is exposed to the external stimulus. The woven material may be formed with zonal stretch properties by varying the areas occupied by the reactive region and the non-reactive region in each woven cell. For example, the bigger the area occupied by the reactive region in the woven cells in a particular zone of the dynamic woven material, the higher the level of stretch in the particular zone may be. Exemplary products manufactured from the dynamic woven material include, for example, articles of footwear.

A fabric with wefts that include hard yarns and elastomeric yarns in a predetermined arrangement such that at least one hard yarn is alternately arranged with at least one elastomeric yarn, the elastomeric yarns having a greater shrinkage ratio than that of the hard yarns; the hard yarns form under portions and over portions with respect to warps, said under portions being formed when said hard yarns pass along the back side of the warps and defining loop portions, and said over portions being formed when the hard yarns pass along the front side of the warps and define connection portions, wherein for each hard yarn, the number of warps passed by the loop portion is at least 6, and the elastomeric yarns form under portions and over portions with respect to said warps in a weave that is tighter than the weave of the hard yarns.