An experimental and theoretical investigation into the effect of braiding angle and combination on a tensile modulus of the tubular biaxial hybrid braids

Abstract: Due to the numerous and growing programs and applications of braid structures, understanding and predicting the mechanical behaviors of these structures is essential for engineers. In this paper, 12 tubular biaxial hybrid braids with different combinations and braiding angles were produced. They are made of two different yarns that one of them is a high-performance yarn and the other is an ordinary yarn. The tensile modulus as a mechanical property of a braided structure was compared in the different braiding … Show more

“…Row-and-column braiding method is constrained by the trajectory of the rows and columns, while the rotary braiding method allows for more flexible carrier movements. [18][19][20] This method enables the creation of intricate structures in braided fabrics, but it also poses challenges when it comes to exploring new structures. 21,22 With the changes in the braiding method, the row-and-column braiding algorithm cannot be applied to establish the rotating braiding architecture.…”

“…Row‐and‐column braiding method is constrained by the trajectory of the rows and columns, while the rotary braiding method allows for more flexible carrier movements 18–20 . This method enables the creation of intricate structures in braided fabrics, but it also poses challenges when it comes to exploring new structures 21,22 .…”

A matrix computing method for visualizing switchless controlled 3D hexagonal‐annular rotary braiding process architecture

“…Row-and-column braiding method is constrained by the trajectory of the rows and columns, while the rotary braiding method allows for more flexible carrier movements. [18][19][20] This method enables the creation of intricate structures in braided fabrics, but it also poses challenges when it comes to exploring new structures. 21,22 With the changes in the braiding method, the row-and-column braiding algorithm cannot be applied to establish the rotating braiding architecture.…”

“…Row‐and‐column braiding method is constrained by the trajectory of the rows and columns, while the rotary braiding method allows for more flexible carrier movements 18–20 . This method enables the creation of intricate structures in braided fabrics, but it also poses challenges when it comes to exploring new structures 21,22 .…”

A matrix computing method for visualizing switchless controlled 3D hexagonal‐annular rotary braiding process architecture

Biaxial tubular hybrid braided structures with supreme tensile performance: Experimental and statistical assessments

Coated sisal/PET hybrid braided textiles interface behavior into cementitious matrix