A braided EMI protective sleeve and method of construction thereof is provided. The sleeve has a braided, tubular wall extending lengthwise along a central longitudinal axis between open opposite ends. The wall includes a plurality of filament bundles, with each filament bundle including a plurality of filaments twisted with one another to form a plurality of loops, wherein a plurality of the loops of each filament bundle are interlinked with a plurality of the loops of an adjacent filament bundle. At least some of the filament bundles include a conductive wire filament to provide the sleeve with an EMI protective shielding capacity.

A braided EMI protective sleeve and method of construction thereof is provided. The sleeve has a braided, tubular wall extending lengthwise along a central longitudinal axis between open opposite ends. The wall includes a plurality of filament bundles, with each filament bundle including a plurality of filaments twisted with one another to form a plurality of loops, wherein a plurality of the loops of each filament bundle are interlinked with a plurality of the loops of an adjacent filament bundle. At least some of the filament bundles include a conductive wire filament to provide the sleeve with an EMI protective shielding capacity.

Aspects herein are directed to braided articles and methods for their manufacture. The braided articles may include articles of footwear having braided uppers. The braided uppers may include a base yarn and a high performance yarn. The high performance yarn may form a braided structure within the braided upper. The braided structure may be continuously braided to provide continuous support to a wearer's foot when the article of footwear is worn as intended, by a wearer.

A personalized prosthetic valve for implantation at a native valve treatment site includes a self-expanding mesh and a plurality of valve leaflets coupled to the mesh. The mesh may be delivered to the native valve in a collapsed configuration, and in an expanded configuration the mesh engages the native valve. The mesh in the expanded configuration is also personalized to match the treatment site, such that the outer mesh surface substantially matches the treatment site shape and size. The self-expanding mesh forms a central lumen configured to allow blood or other body fluids to pass therethrough. In the open configuration, blood passes through the prosthetic valve, and in the closed configuration, the plurality of leaflets are closer together and blood is prevented from flowing upstream through the prosthetic valve.

A personalized prosthetic valve for implantation at a native valve treatment site includes a self-expanding mesh and a plurality of valve leaflets coupled to the mesh. The mesh may be delivered to the native valve in a collapsed configuration, and in an expanded configuration the mesh engages the native valve. The mesh in the expanded configuration is also personalized to match the treatment site, such that the outer mesh surface substantially matches the treatment site shape and size. The self-expanding mesh forms a central lumen configured to allow blood or other body fluids to pass therethrough. In the open configuration, blood passes through the prosthetic valve, and in the closed configuration, the plurality of leaflets are closer together and blood is prevented from flowing upstream through the prosthetic valve.

[Object] To provide a tether that is automatically deformed from a deployment state in case of cutting or the like.

[Solving Means] A tether 10 is a net that kinks and is automatically deformed upon tension release. The tether 10 has a length of several kilometers to several tens of kilometers upon deployment and is capable of shrinking to have a length of approximately several tens of meters to several hundreds of meters by kinking and automatically being deformed when the tension is released because of cutting or the like.

An upper for an article of footwear is formed by incorporating different braided portions. The upper may be formed by incorporating a first braided portion with a second braided portion. The top portion of the upper may have the first braided portion. The lower portion of the upper may have the second braided portion.

An upper for an article of footwear is formed by incorporating different braided portions. The upper may be formed by incorporating a first braided portion with a second braided portion. The top portion of the upper may have the first braided portion. The lower portion of the upper may have the second braided portion.

A sheer fabric for use in a fabric panel is disclosed where the sheer fabric is formed from a plurality of yarns having a denier from about 25 up to 35, wherein the plurality of yarns are configured and arranged as a plurality of diagonal structures each forming a diamond-shaped opening, wherein the sheer fabric has an openness factor of about seventy five percent (75%) and greater. In one or more embodiments the sheer fabric has properties that resist the formation of puckers, including in an embodiment an improved elongation percentage upon application of a force, and in one or more aspects, an improved variability of the elongation percentage upon application of the force. Additional and alternative properties of the sheer fabric are disclosed. The sheer fabric finds application in a fabric panel or assembly that can be used as a light-controlling covering.

A sheer fabric for use in a fabric panel is disclosed where the sheer fabric is formed from a plurality of yarns having a denier from about 25 up to 35, wherein the plurality of yarns are configured and arranged as a plurality of diagonal structures each forming a diamond-shaped opening, wherein the sheer fabric has an openness factor of about seventy five percent (75%) and greater. In one or more embodiments the sheer fabric has properties that resist the formation of puckers, including in an embodiment an improved elongation percentage upon application of a force, and in one or more aspects, an improved variability of the elongation percentage upon application of the force. Additional and alternative properties of the sheer fabric are disclosed. The sheer fabric finds application in a fabric panel or assembly that can be used as a light-controlling covering.