A joint tape for drywall includes a substrate layer having an elongate shape in a lengthwise direction and being flexible in the lengthwise direction and in a transverse direction. The tape further includes a covering layer disposed in bonding relation on the substrate layer. The covering layer is r
A joint tape for drywall includes a substrate layer having an elongate shape in a lengthwise direction and being flexible in the lengthwise direction and in a transverse direction. The tape further includes a covering layer disposed in bonding relation on the substrate layer. The covering layer is rigid in the transverse direction and configured to withstand compressive forces applied generally in the transverse direction and shear stresses applied generally along the transverse direction.
대표청구항▼
1. A joint tape for drywall, comprising: a substrate layer having an elongate shape in a lengthwise direction and a narrower width in a transverse direction to form a substrate layer strip, the substrate layer strip being made from reinforced plastic, glass, fabric, or metal that is formed into subs
1. A joint tape for drywall, comprising: a substrate layer having an elongate shape in a lengthwise direction and a narrower width in a transverse direction to form a substrate layer strip, the substrate layer strip being made from reinforced plastic, glass, fabric, or metal that is formed into substrate fibers that have a substrate layer strip flexibility in the lengthwise direction and also the transverse direction that is perpendicular to the lengthwise direction; anda covering layer disposed in overlapping and bonding relation on the substrate layer, the covering layer having an elongate shape in the lengthwise direction and a narrower width in the transverse direction to form a strip that matches and extends along the substrate layer strip, the covering layer strip being made from metal, rigid plastic, or glass that is formed into covering fibers, the covering fibers having a covering layer strip flexibility in the transverse direction and configured to withstand compressive forces applied generally in the transverse direction and shear stresses applied generally long the transverse direction;wherein the substrate fibers and the covering fibers contact each other at intersections, and wherein the joint tape further includes bonds disposed at a majority of intersections between the substrate fibers and the covering fibers:wherein the covering layer strip flexibility is less than the substrate layer strip flexibility;wherein the substrate layer includes the substrate fibers extending parallel to one another along the lengthwise direction;wherein the covering layer includes the covering fibers extending parallel to one another a long the transverse direction;wherein the substrate fibers are thinner and more flexible than the covering fibers, which are thicker and more rigid to withstand compressive forces along the transverse direction. 2. The joint tape of claim 1, wherein the substrate layer is made entirely of substrate fibers extending parallel to one another along the lengthwise direction. 3. The joint tape of claim 1, wherein the covering layer is made entirely of covering fibers extending parallel to one another along the transverse direction. 4. The joint tape of claim 1, wherein the covering layer includes covering fibers extending at an angle relative to the transverse direction. 5. The joint tape of claim 1, wherein the substrate fibers of the substrate layer and the covering fibers of the covering layer are made from different materials, and wherein the covering fibers are made from metal; wherein the covering fibers have a greater diameter than the substrate fibers. 6. The joint tape of claim 1, wherein the substrate fibers are made of the same material as the covering fibers; wherein the covering fibers have a greater diameter than the substrate fibers. 7. The joint tape of claim 1, wherein the bonds are formed by deposition of an adhesive material at the majority of intersections between the substrate fibers and the covering fibers. 8. The joint tape of claim 1, wherein the substrate fibers and the covering fibers are made from plastic, and wherein the bonds are formed by locally melting the substrate fibers and the covering fibers to fuse the plastic material at each intersection. 9. A drywall joint between two adjacent drywall panels, comprising: a layer of joint compound disposed along generally abutting edges of the two adjacent drywall panels;a joint tape embedded within the layer of joint compound, the joint tape comprising:a substrate layer having an elongate shape in a lengthwise direction along the generally abutting edges, the substrate layer being made from reinforced plastic, glass, fabric, or metal that is formed into substrate fibers that have a substrate fiber modulus of flexibility in the lengthwise direction and in a transverse direction, which is perpendicular to the lengthwise direction; anda covering layer disposed in overlapping and bonding relation on the substrate layer, the covering layer having an elongate shape that matches the substrate layer, the covering layer being made from metal, rigid plastic, or glass that is formed into covering fibers having a covering fiber modulus of flexibility that is less than the substrate fiber modulus of flexibility in the transverse direction, the transversely extending covering fibers configured to withstand compressive forces applied generally in the transverse direction tending to push the two adjacent drywall panels towards each other, and shear stresses applied generally along the transverse direction tending to slide the two drywall panels relative to one another along the abutting edges thereof;wherein the substrate fibers and the covering fibers contact each other at intersections, and wherein the joint tape further includes bonds disposed at a majority of intersections between the substrate fibers and the covering fibers;wherein the substrate layer includes the substrate fibers extending parallel to one another along the lengthwise direction;wherein the covering layer includes the covering fibers extending parallel to one another along the transverse direction;wherein the substrate fibers are thinner and more flexible than the covering fibers, which are thicker and more rigid to withstand compressive forces along the transverse direction. 10. The drywall joint of claim 9, wherein the substrate layer is made entirely of substrate fibers extending parallel to one another along the lengthwise direction. 11. The drywall joint of claim 9, wherein the covering layer is made entirely of covering fibers parallel to one another along the transverse direction. 12. The drywall joint of claim 9, wherein the covering layer includes covering fibers extending at an angle relative to the transverse direction. 13. The drywall joint of claim 9, wherein the substrate fibers of the substrate layer and the covering fibers of the covering layer are made from different materials; and wherein the covering fibers are made metal; wherein the covering fibers have a greater diameter than the substrate fibers. 14. The drywall joint of claim 9, wherein the substrate fibers are made of the same material as the covering fibers; wherein the covering fibers have a greater diameter than the substrate fibers. 15. The drywall joint of claim 9, wherein the bonds are formed by deposition of an adhesive material at the majority of intersections between the substrate fibers and the covering fibers. 16. The drywall joint of claim 9, wherein the substrate fibers and the covering fibers are made from plastic, and wherein the bonds are formed by locally melting the substrate fibers and the covering fibers to fuse the plastic material at each intersection. 17. A method for manufacturing joint tape for use in drywall joints, comprising: providing a substrate layer that is made from reinforced plastic, glass, fabric, or metal that is formed into substrate fibers that have a substrate layer bending modulus in a lengthwise direction and in a transverse direction, the transverse direction being perpendicular to the lengthwise direction;providing a covering layer that is made from metal, rigid plastic, or glass that is formed into covering fibers, the covering fibers having a covering layer bending modulus that is different than the substrate layer bending modulus such that the covering layer is flexible in the lengthwise direction but more rigid in the transverse direction than the substrate layer, wherein the substrate layer includes the substrate fibers extending parallel to one another along the lengthwise direction, wherein the covering layer includes the covering fibers extending parallel to one another along the transverse direction, wherein the substrate fibers are thinner and more flexible than the covering fibers, which are thicker and more rigid to withstand compressive forces along the transverse direction;depositing the substrate and covering layers in overlapping relation to create a joint tape preform, wherein the substrate fibers and the covering fibers contact each other at intersections; andbonding the substrate layer to the covering layer in the joint tape preform to create a joint tape that is flexible in the lengthwise direction but more rigid in the transverse direction than the lengthwise direction, wherein bonding the substrate layer to the covering layer includes forming bonds at a majority of intersections between the substrate fibers and the covering fibers. 18. The method of claim 17, wherein forming the bonds is accomplished by locally melting the covering fibers and the substrate fibers at the intersections to fuse them together.
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