A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

Disclosed herein are implementations of a weighted fabric and a method of construction thereof. The method for constructing the weighted fabric includes loading a first yarn on a cylinder of a double-knit circular knit machine. The method includes loading the first yarn on a dial of the double-knit circular knit machine. The method includes loading a second yarn on the dial of the double-knit circular knit machine. The method includes knitting the first yarn and the second yarn to construct the weighted fabric. The first yarn may be knitted at a first feed rate. The second yarn may be knitted at a second feed rate. The first feed rate may be greater than the second feed rate. The method may include dyeing the weighted fabric. The method may include framing the weighted fabric.

Disclosed herein are implementations of a weighted fabric and a method of construction thereof. The method for constructing the weighted fabric includes loading a first yarn on a cylinder of a double-knit circular knit machine. The method includes loading the first yarn on a dial of the double-knit circular knit machine. The method includes loading a second yarn on the dial of the double-knit circular knit machine. The method includes knitting the first yarn and the second yarn to construct the weighted fabric. The first yarn may be knitted at a first feed rate. The second yarn may be knitted at a second feed rate. The first feed rate may be greater than the second feed rate. The method may include dyeing the weighted fabric. The method may include framing the weighted fabric.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.

The present invention relates to a method for weaving a single fabric, the method comprising: alternately forming a clearing position and a half-tuck position at a first-stage cylinder cam; and forming a half-tuck position and a clearing position at a second-stage cylinder cam formed under the first-step cylinder cam, wherein the half-tuck position of the second-stage cylinder cam is positioned under the clearing position of the first-stage cylinder cam, and the clearing position of the second-stage cylinder cam is positioned under the half-tuck position of the first-stage cylinder cam, and wherein a non-covered yarn is supplied to the clearing position of the first-stage cylinder cam, and a covered yarn is supplied to the half-tuck position of the first-stage cylinder cam.

A method of making a loop fastener product features knitting, such as by circular knitting, a pile yarn and one or more ground yarns to form a stretchable knit fabric having loops of the pile yarn extending from a knit ground, with the ground yarns including polymers of differing melt temperatures. The knit fabric is then held in a desired state while the fabric is set by first applying sufficient heat to cause the lower melt temperature resin to flow into interstices of the fabric ground, and then allowing the fabric to cool. The cooled fabric ground is less stretchable in two orthogonal directions after setting than before setting, has a greater air permeability after setting than before setting, and has hook-engageable pile loops extending from bound interstices.