Soles for articles of footwear including a mechanically anisotropic three-dimensional mesh. The mechanically anisotropic three-dimensional mesh can include one or more mechanically anisotropic regions with a first lattice shear modulus measured in a first direction and a second lattice shear modulus measured in a second direction opposite to or orthogonal to the first direction. The first and second lattice shear moduli are different to provide the three-dimensional mesh with mechanically anisotropic properties. The mechanically anisotropic three-dimensional mesh can be three-dimensionally printed.

A sole plate includes slots spaced apart from each other and extending along a longitudinal axis to define at least one interior bridge portion disposed therebetween. A lateral bridge portion is disposed between a lateral side of the sole plate and a lateral most one of the slots, and a medial bridge portion is disposed between a medial side of the sole plate and a medial most one of the slots. A stiffness controlling device is interlaced between the lateral bridge portion, the interior bridge portions, and the medial bridge portion, and is moveable within the slots, between a first position and a second position, for changing between a first bending stiffness at a specific flex angle when the stiffness controlling device is in the first position, and a second bending stiffness at the specific flex angle when the stiffness controlling device is in the second position.

Devices with internal flexibility sipes, such as slits, provide improved flexibility, improved cushioning to absorb shock and/or shear forces, and improved stability of support. Siped devices can be used in any existing product that provides or utilizes cushioning and stability. These products include human and other footwear, both soles and uppers, as well as orthotics; athletic, occupational and medical equipment and apparel; padding or cushioning, such as for equipment or tool handles, as well as furniture; balls; tires; and any other structural or support elements in a mechanical, architectural, or any other product.

A cushioning and impact absorbing pad with a surface layer of thickness t, and an elastomeric sub-surface-structure of height h. The sub-surface structure comprises an array of elastomeric columns wherein each column has a frustoconical column wall surrounding a central void. The frustoconical column walls have a zone that is a more compressible, relatively collapsible zone in a region at an end of the column opposite the surface layer and a zone that is a relatively less compressible zone in a region at the end of the column abutting the surface layer. Column walls are tapered with draft angles in the range of greater than 6 degrees and less than 10 degrees.

A plate for an article of footwear includes a substrate, a first strand portion attached to the substrate via first stitching, and a second strand portion disposed on the first layer. The first strand portion includes first segments that each extend between two different locations along the substrate to form a first layer on the substrate. The second strand portion includes second segments that each extend between two different locations along the substrate to form a second layer on the first layer.

A sole for sports shoes is provided including a base or tread component, a top or midsole component and a least one intermediate or elastic cushioning component. Advantageously, the sole if able to provide high cushioning, elastic yield and stability thanks to the mechanical or structural characteristics of the sole.

Improved soles for shoes, in particular for sports shoes, are described. A sole for a shoe, in particular a sports shoe, is provided, said sole having a cushioning element that includes randomly arranged particles of an expanded material and a control element. The control element is free from expanded material and reduces the shearing motions in a first region of the cushioning element compared to shearing motions in a second region of the cushioning element.

An article of footwear includes an upper and a sole structure with a sole member. The sole member can be manufactured using a customized cushioning sole system. A user's foot morphology and/or preferences may be used to design the sole member. The sole member can include a set of pinpoint apertures that are formed along the outer surface of the sole member to form at least a first distribution of apertures associated with a first density and a second distribution of apertures associated with a second density, wherein the first density is greater than the second density.

Sole structures and uppers for articles of footwear are described that includes features to enhance footwear flexibility, dexterity, natural motion feel, and/or tackiness. Such articles of footwear may provide enhanced properties and feel for use in skateboarding and other activities.

A sole structure and an article of footwear that includes an upper midsole component, a lower midsole component, and a plate. The lower midsole component includes a raised portion that acts as a fulcrum or pivot point. The raised portion may be attached to the plate. The plate may be able to pivot in response to forces on the lateral side and the medial side.