A stitched fabric including a barrier layer; a yarn stitched through and forming stitch holes in the barrier layer, and a coating. A melted portion of the barrier layer fills a portion of the stitch holes. The coating occupies interstitial spaces between individual strands of the yarn to prevent a liquid from passing from one side of the stitched fabric to another side of the stitched fabric via the yarn.

A pre-saturated disposable disinfecting wipe may include a microfiber cloth. The microfiber cloth may include a low weight substrate having a first face and an opposed second face, and microfiber yarn attached to the low weight substrate in a plurality of parallel rows of stitches. The pre-saturated disposable disinfecting wipe further includes a disinfecting formulation saturated in the microfiber cloth. The pre-saturated disposable disinfecting wipe may have a single-touch two-minute wetness coverage of more than 100 in.sup.2. A method of manufacturing a pre-saturated disposable disinfecting wipe may include saturating, with a disinfecting formulation, a microfiber cloth.

A pre-saturated disposable disinfecting wipe may include a microfiber cloth. The microfiber cloth may include a low weight substrate having a first face and an opposed second face, and microfiber yarn attached to the low weight substrate in a plurality of parallel rows of stitches. The pre-saturated disposable disinfecting wipe further includes a disinfecting formulation saturated in the microfiber cloth. The pre-saturated disposable disinfecting wipe may have a single-touch two-minute wetness coverage of more than 100 in.sup.2. A method of manufacturing a pre-saturated disposable disinfecting wipe may include saturating, with a disinfecting formulation, a microfiber cloth.

A multiple-part surface covering for the cladding of support structures includes at least two surface covering parts, respective portion of a first and second surface covering parts, and a cover. The at least two surface covering parts are sewn to one another by way of a connecting seam. The respective portion of a first surface covering part and a respective portion of a second surface covering part form a seam overhang. The cover is sewn to the two surface covering parts by way of the connecting seam and covers the seam overhang. An edge strip core is arranged between the cover and the seam overhang.

Carbon nanotube threads are coated with a coating solution such as dimethylformamide (DMF), ethylene glycol (EG), polyethylene glycol (PEG), PEG200 (PEG with a average molecular weight of approximately 200 grams per mole (g/mol)), PEG400 (PEG with a average molecular weight of approximately 400 g/mol), dimethyl sulfide (DMS 100 cP), HP1632, poly(methylhydrosiloxane), polyalkylene glycol, (3-aminopropyl)trimethoxysilane, hydride functional siloxane 0 resin, platinum (0) -1,3-divinyl-1,1,3,3-tetramethyl-disiloxane, moisture in air, acetic acid, water, poly(dimethylsiloxane) hydroxy terminated, (3-glycidyloxypropyl)-trimethoxysilane or a combination thereof. The coated carbon nanotubes may be used to stitch in a Z-direction into a composite such as a polymer prepreg to strengthen the composite. The stitching may occur using a sewing machine.

Carbon nanotube threads are coated with a coating solution such as dimethylformamide (DMF), ethylene glycol (EG), polyethylene glycol (PEG), PEG200 (PEG with a average molecular weight of approximately 200 grams per mole (g/mol)), PEG400 (PEG with a average molecular weight of approximately 400 g/mol), dimethyl sulfide (DMS 100 cP), HP1632, poly(methylhydrosiloxane), polyalkylene glycol, (3-aminopropyl)trimethoxysilane, hydride functional siloxane 0 resin, platinum (0) -1,3-divinyl-1,1,3,3-tetramethyl-disiloxane, moisture in air, acetic acid, water, poly(dimethylsiloxane) hydroxy terminated, (3-glycidyloxypropyl)-trimethoxysilane or a combination thereof. The coated carbon nanotubes may be used to stitch in a Z-direction into a composite such as a polymer prepreg to strengthen the composite. The stitching may occur using a sewing machine.

The present invention provides a flowerpot and a manufacturing method thereof, and relates to the technical field of flowerpots. A flowerpot comprises a flowerpot body provided with an opening, the flowerpot body being woven from ultrafine fibers. The flowerpot of the present invention is light in weight, not easy to corrode, has a long service life, and cannot be broken. The flowerpot can be ventilated around to facilitate the growth of plants. Furthermore, the present invention also proposes a method for manufacturing a flowerpot, comprising the flowerpot described above, further comprising the steps of: weaving ultrafine fibers into a cloth with a loom; washing the woven cloth with water and then subjecting to natural shrinkage; printing the cloth after natural shrinkage; and sewing the printed cloth into a flowerpot body. With this method, it is convenient to manufacture the flowerpot.

The present invention provides a flowerpot and a manufacturing method thereof, and relates to the technical field of flowerpots. A flowerpot comprises a flowerpot body provided with an opening, the flowerpot body being woven from ultrafine fibers. The flowerpot of the present invention is light in weight, not easy to corrode, has a long service life, and cannot be broken. The flowerpot can be ventilated around to facilitate the growth of plants. Furthermore, the present invention also proposes a method for manufacturing a flowerpot, comprising the flowerpot described above, further comprising the steps of: weaving ultrafine fibers into a cloth with a loom; washing the woven cloth with water and then subjecting to natural shrinkage; printing the cloth after natural shrinkage; and sewing the printed cloth into a flowerpot body. With this method, it is convenient to manufacture the flowerpot.

The invention relates to a thread body sewing structure, comprising: a sheet-shaped object, at least one upper thread, and at least one thread body, the upper thread and the thread body are sewn on the sheet-shaped object, the upper thread is located on a front side of the sheet-shaped object; the thread body is fixed on the front side of the sheet-shaped object by the upper thread. Thereby, the thread body is fixed on the front side of the sheet-shaped object by the upper thread, and does not need to pass through the object, so the thread body will not be damaged, and an integrity of its structure and functions can be maintained.

The invention relates to a thread body sewing structure, comprising: a sheet-shaped object, at least one upper thread, and at least one thread body, the upper thread and the thread body are sewn on the sheet-shaped object, the upper thread is located on a front side of the sheet-shaped object; the thread body is fixed on the front side of the sheet-shaped object by the upper thread. Thereby, the thread body is fixed on the front side of the sheet-shaped object by the upper thread, and does not need to pass through the object, so the thread body will not be damaged, and an integrity of its structure and functions can be maintained.