FULLY COATED GLOVE HAVING MOISTURE WICKING PROPERTY

Abstract

A fully coated glove having a moisture wicking property is provided, which includes a palm body, a moisture wicking layer, and a shielding layer. Each of the moisture wicking layer and the shielding layer is prepared by using a raw material including waterborne polyurethane or solvent-based polyurethane. The moisture wicking layer is a foam layer with a thickness of 0.1 mm to 0.3 mm; the shielding layer is a non-foam layer with a thickness of 0.03 mm to 0.2 mm. The preparation process includes following steps: molding of the palm body; preparing the moisture wicking layer that is foamed by coating; water washing; drying; preparing the shielding layer that is not foamed by coating; drying; demolding of the finished product; and packaging. Polyurethane is used as the raw material of the coating in the glove provided by the present disclosure, so as to associatedly combine the foam layer and non-foam layer.

Claims

1. A fully coated glove having a moisture wicking property, comprising: a palm body that is knitted; a moisture wicking layer fully coated on an inner surface of the palm body; and a shielding layer fully coated on an outer surface of the palm body; wherein each of the moisture wicking layer and the shielding layer is prepared by coating using a raw material including waterborne polyurethane or solvent-based polyurethane, the moisture wicking layer is a foam layer with a thickness of 0.1 mm to 0.3 mm, the shielding layer is a non-foam layer with a thickness of 0.03 mm to 0.2 mm: wherein a preparation process of the fully coated glove includes following steps: molding of the palm body; preparing the moisture wicking layer that is foamed by coating; water washing; drying; preparing the shielding layer that is not foamed by coating; drying; demolding of a finished product; and packaging, wherein, when a second coating layer that is the shielding layer is coated, a first layer that is the moisture wicking layer is ensured to be cured and dried into a film, and a surface energy of a shielding layer coating in a liquid state is ensured to be lower than a surface energy of the moisture wicking layer, so that the shielding layer coating infiltrates into a surface of the moisture wicking layer at a maximum level and even into micropores of a surface layer.

2. The fully coated glove having a moisture wicking property according to claim 1, wherein, when the shielding layer is prepared by coating using the raw material including a waterborne polyurethane resin, a solid content of the coating is maintained between 20% and 40% and a viscosity of the coating is maintained between 500 centipoises and 2000 centipoises so as to ensure that the thickness of the shielding layer is 0.03 mm to 0.2 mm; when the shielding layer is prepared by coating using the raw material including a solvent-based polyurethane resin, the solid content of the coating is maintained between 12% and 20% and the viscosity of the coating is maintained between 300 centipoises and 1500 centipoises.

3. The fully coated glove having a moisture wicking property according to claim 2, wherein, when the shielding layer is prepared by coating using the raw material including the waterborne polyurethane resin, the raw material includes the following components: a waterborne polyurethane emulsion, a defoamer, a thickener, a curing agent, and a wetting agent; when the shielding layer is prepared by coating using the raw material including the solvent-based polyurethane resin, the raw material includes the following components: a dry polyurethane resin, DMF, the defoamer, a leveling agent, a penetrating agent, and the wetting agent.

4. The fully coated glove having a moisture wicking property according to claim 3, wherein, when the shielding layer is prepared by coating using the raw material including the waterborne polyurethane resin, the raw material includes the following components and parts by mass thereof: 1000 parts by mass of the waterborne polyurethane emulsion, 4 to 7 parts by mass of the defoamer, 3 to 8 parts by mass of the thickener, 10 to 30 parts by mass of the curing agent, and 2 to 5 parts by mass of the wetting agent; when the shielding layer is prepared by coating using the raw material including the solvent-based polyurethane resin, the raw material includes the following components and parts by mass thereof: 1000 parts by mass of the dry polyurethane resin, 800 to 2000 parts by mass of DMF, 3 to 10 parts by mass of the defoamer, 3 to 8 parts by mass of the leveling agent, 3 to 8 parts by mass of the penetrating agent, and 2 to 5 parts by mass of the wetting agent.

5. The fully coated glove having a moisture wicking property according to claim 1, wherein, when the moisture wicking layer is prepared by coating using raw material including a waterborne polyurethane resin, a solid content of the coating is maintained between 20% and 40%, a viscosity is maintained between 500 centipoises and 2000 centipoises and an expansion ratio is maintained between 1.15-1.8 so as to ensure that the moisture wicking layer with the thickness of 0.1 mm to 0.3 mm; when the moisture wicking layer are prepared by coating using raw materials including a solvent-based polyurethane resin, solid content of the coating is maintained between 12% and 18% and the viscosity of the coating is maintained between 500 centipoises and 1500 centipoises.

6. The fully coated glove having a moisture wicking property according to claim 5, wherein, when the moisture wicking layer is prepared by coating using raw material including a waterborne polyurethane resin, the prepared raw material include the following components: a waterborne polyurethane emulsion, a foam agent and a thickener, a foam agent is add between 5% and 15% of the mass of the waterborne polyurethane emulsion; when the moisture wicking layer are prepared by coating using the raw material including a solvent-based polyurethane resin, the prepared raw material includes the following components: a wet polyurethane resin, a DMF, a defoamer, a penetrating agent, a cell aid, an accelerator, solid content of the coating is maintained between 12% and 18%.

7. The fully coated glove having a moisture wicking property according to claim 6, wherein, when the moisture wicking layer are prepared by coating using raw material including the waterborne polyurethane resin, the prepared raw material includes the following components and mass: 1000 parts by mass of the waterborne polyurethane emulsion, 50 to 150 parts by mass of the foam agent and 2 to 6 parts by mass of the thickener; when the moisture wicking layer are prepared by coating using the raw materials including solvent-based polyurethane resin, the prepared raw material includes the following components and mass: 1000 parts by mass of the wet polyurethane resin, 800 to 2000 parts by mass of the DMF, 3 to 10 parts by mass of the defoamer, 3 to 8 parts by mass of the penetrating agent, 2 to 8 parts by mass of the cell aid and 5 to 15 parts by mass of the accelerator.

Description

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

[0024] A fully coated glove having a moisture wicking property, which includes a palm body that is knitted, a moisture wicking layer fully coated on an inner surface of the palm body, a shielding layer fully coated on an outer surface of the palm body, each of the moisture wicking layer and the shielding layer are prepared by coating using a raw material including waterborne polyurethane or solvent-based polyurethane, the moisture wicking layer is a foam layer with a thickness of 0.1 mm to 0.3 mm, the shielding layer is a non-foam layer with a thickness of 0.03 mm to 0.2 mm, and the preparation process of the fully coated glove includes following steps: molding of the palm body; preparing the moisture wicking layer that is foamed by coating; water washing; drying; preparing the shielding layer that is not foamed by coating; drying; demolding of the finished product; and packaging. when a second coating layer that is the shielding layer is coated, a first layer that is the moisture wicking layer is ensured to be cured and dried into a film, and a surface energy of a shielding layer coating in a liquid state is ensured to be lower than a surface energy of the moisture wicking layer, so that the shielding layer coating infiltrates into a surface of the moisture wicking layer at a maximum level and even into micropores of a surface layer. Because the low surface energy can make the shielding coating material soak into the surface of the moisture wicking layer or even the micropores of the surface layer to the greatest extent, through sufficient interfacial contact, it is absorbed by the moisture wicking layer. During the subsequent heating process, the shielding layer rubber under the action of Brownian motion, the molecules are closely combined with the molecules of the moisture wicking layer, and the two-layer coating forms a stable state under the joint action of Van der Waals force and hydrogen bonds. Therefore, strictly controlling the surface energy of the shielding layer is the key to making the two-layer coating have high bonding strength.

[0025] When the shielding layer is prepared by coating using the raw material including a waterborne polyurethane resin, a solid content of the coating is maintained between 20% and 40% and a viscosity of the coating is maintained between 500 centipoises and 2000 centipoises so as to ensure that the thickness of the shielding layer is 0.03 mm to 0.2 mm; when the shielding layer is prepared by coating using the raw material including a solvent-based polyurethane resin, the solid content of the coating is maintained between 12% and 20% and the viscosity of the coating is maintained between 300 centipoises and 1500 centipoises.

[0026] When the shielding layer is prepared by coating using the raw material including the waterborne polyurethane resin, the raw material includes the following components: a waterborne polyurethane emulsion, a defoamer, a thickener, a curing agent, and a wetting agent; when the shielding layer is prepared by coating using the raw material including the solvent-based polyurethane resin, the raw material includes the following components: a dry polyurethane resin, DMF, the defoamer, a leveling agent, a penetrating agent, and the wetting agent.

[0027] Specifically, when the shielding layer is prepared by coating using the raw material including the waterborne polyurethane resin, the raw material includes the following components and parts by mass thereof: 1000 parts by mass of the waterborne polyurethane emulsion, 4 to 7 parts by mass of the defoamer, 3 to 8 parts by mass of the thickener, 10 to 30 parts by mass of the curing agent, and 2 to 5 parts by mass of the wetting agent; when the shielding layer is prepared by coating using the raw material including the solvent-based polyurethane resin, the raw material includes the following components and parts by mass thereof: 1000 parts by mass of the dry polyurethane resin, 800 to 2000 parts by mass of DMF, 3 to 10 parts by mass of the defoamer, 3 to 8 parts by mass of the leveling agent, 3 to 8 parts by mass of the penetrating agent, and 2 to 5 parts by mass of the wetting agent.

[0028] When the moisture wicking layer is prepared by coating using raw material including a waterborne polyurethane resin, a solid content of the coating is maintained between 20% and 40%, a viscosity is maintained between 500 centipoises and 2000 centipoises and an expansion ratio is maintained between 1.15-1.8 so as to ensure that the moisture wicking layer with the thickness of 0.1 mm to 0.3 mm; when the moisture wicking layer are prepared by coating using raw materials including a solvent-based polyurethane resin, solid content of the coating is maintained between 12% and 18% and the viscosity of the coating is maintained between 500 centipoises and 1500 centipoises; the moisture wicking layer is prepared by coating using raw material including a waterborne polyurethane resin, the prepared raw material include the following components: a waterborne polyurethane emulsion, a foam agent and a thickener, a foam agent is add between 5% and 15% of the mass of the waterborne polyurethane emulsion; when the moisture wicking layer are prepared by coating using the raw material including a solvent-based polyurethane resin, the prepared raw material includes the following components: a wet polyurethane resin, a DMF, a defoamer, a penetrating agent, a cell aid, an accelerator, solid content of the coating is maintained between 12% and 18%.

[0029] Specifically, when the moisture wicking layer are prepared by coating using raw material including the waterborne polyurethane resin, the prepared raw material includes the following components and mass: 1000 parts by mass of the waterborne polyurethane emulsion, 50 to 150 parts by mass of the foam agent and 2 to 6 parts by mass of the thickener; when the moisture wicking layer are prepared by coating using the raw materials including solvent-based polyurethane resin, the prepared raw material includes the following components and mass: 1000 parts by mass of the wet polyurethane resin, 800 to 2000 parts by mass of the DMF, 3 to 10 parts by mass of the defoamer, 3 to 8 parts by mass of the penetrating agent, 2 to 8 parts by mass of the cell aid and 5 to 15 parts by mass of the accelerator.

[0030] When making fully coated glove, the formulas of the raw materials used for the moisture wicking layer and the shielding layer can be combined arbitrarily according to needs.

[0031] Wherein, the used waterborne polyurethane emulsion, dry polyurethane resin and wet polyurethane resin are all commercially available materials.

Specific Embodiment

[0032] The basic formulas for preparing each of the moisture wicking layer and the shielding layer as follows. When making fully coated glove, the formulas of the raw materials used for each of the moisture wicking layer and the shielding layer can be combined arbitrarily according to needs, and the following parts by mass represent 1 gram.

[0033] Basic formula 1: The formula of waterborne polyurethane emulsion fully coated shielding layer: 1000 parts by mass of a waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 4 to 7 parts by mass of a defoamer (BYK-016), 3 to 8 parts by mass of a thickener (Digao Chemical 3030), 10 to 30 parts by mass of a curing agent (Bayer 3100) and 2 to 5 parts by mass of a wetting agent (DuPont Chemical Capstone FS-63).

[0034] Basic formula 2: waterborne polyurethane emulsion fully coated moisture wicking layer formula: 1000 parts by mass of a waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 50 to 150 parts by mass of a foam agent (BASF Glucopon 225DK), 2 to 6 parts by mass of a thickener (TEGO Chemical 3030).

[0035] Basic formula 3: The formula of solvent-based polyurethane fully coated shielding layer: 1000 parts by mass of a dry polyurethane resin (Xuchuan XCS-3030L), 800 to 2000 parts by mass of the DMF (reagent), 3-10 parts by mass of the defoamer (BYK-016), 3 to 8 parts by mass of the leveling agent (TEGO Flow425), 3 to 8 parts by mass of the penetrating agent (AERLSOL OT-75) and 2 to 5 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63).

[0036] Basic formula 4: Formula of solvent-based polyurethane fully coated moisture wicking layer: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 800 to 2000 parts by mass of the DMF (reagent), 3 to 10 parts by mass of the defoamer (BYK-016), 3 to 8 parts by mass of the penetrating agent (AERLSOL OT-75), 2 to 8 parts by mass of the cell aid (BYK-L9520) and 5 to 15 parts by mass of the accelerator (BYK-L9525).

[0037] Demonstration example 1: The process is as follows: molding of the palm body; coating in coagulant; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging.

[0038] Moisture wicking layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 60 parts by mass of the foam agent (BASF Glucopon 225DK), and 6 parts by mass of the thickener (TEGO 3030). The foam ratio is 1.2 times. The viscosity of the working slurry was measured to be 1000 centipoises.

[0039] Shielding layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the thickener (TEGO Chemical 3030), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), 20 parts by mass of the curing agent (Bayer 3100). The viscosity of the working slurry was measured to be 1000 centipoises.

[0040] Demonstration example 2: The process is as follows: molding of the palm body; coating in coagulant; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging.

[0041] Moisture wicking layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 120 parts by mass of the foam agent (BASF Glucopon 225DK), and 4 parts by mass of the thickener (TEGO 3030). The foam ratio is 1.6 times. The viscosity of the working slurry was measured to be 980 centipoises.

[0042] Shielding layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 5 parts by mass of a defoamer (BYK-016), 5 parts by mass of the thickener (TEGO Chemical 3030), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), 20 parts by mass of the curing agent (Bayer 3100). The viscosity of the working slurry was measured to be 1020 centipoises.

[0043] Demonstration example 3: The process is as follows: molding of the palm body; coating in coagulant; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging.

[0044] Moisture wicking layer formula: 1000 parts by mass of a waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 60 parts by mass of the foam agent (BASF Glucopon 225DK) and 6 parts by mass of the thickener (TEGO 3030). The foam ratio is 1.2 times. The viscosity of the working slurry was measured to be 980 centipoises.

[0045] Shielding layer formula: 1000 parts by mass of the dry polyurethane resin (Xuchuan XCS-3030L), 1000 parts by mass of the DMF (reagent), 5 parts by mass of defoamer (BYK-016), 3 parts by mass of the leveling agent (TEGO Flow425), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63). Measure the working slurry viscosity of 1000 centipoises.

[0046] Demonstration example 4: molding of the palm body; coating in coagulant; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging.

[0047] Moisture wicking layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 120 parts by mass of the foam agent (BASF Glucopon 225DK), and 4 parts by mass of the thickener (TEGO 3030). The foam ratio is 1.6 times. The viscosity of the working slurry was measured to be 1010 centipoises.

[0048] Shielding layer formula: 1000 parts by mass of a dry polyurethane resin (Xuchuan XCS-3030L), 1000 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 3 parts by mass of the leveling agent (TEGO Flow425), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63). The viscosity of the working slurry was measured to be 990 centipoises.

[0049] Demonstration example 5: The process is as follows: molding of the palm body; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging. The moisture wicking layer formula: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 1200 parts by mass of a DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 2 parts by mass of a cell aid (BYK-L9520), 10 parts by mass of an accelerator (BYK-L9525). The measured viscosity of the working slurry is 1300 centipoises. The shielding layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the thickener (Di High Chemical Industry 3030), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), 20 parts by mass of the curing agent (Bayer 3100). The viscosity of the working slurry was measured to be 950 centipoises.

[0050] Demonstration example 6: The process is as follows: molding of the palm body; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging. The moisture wicking layer formula: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 1500 parts by mass of the DMF (reagent), 5 parts by mass of a defoamer (BYK-016), 5 parts by mass of the penetrant (AERLSOL OT-75), 5 parts by mass of the cell aid (BYK-L9520), and 10 parts by mass of the accelerator (BYK-L9525). The viscosity of the working slurry is measured to be 800 centipoises.

[0051] Shielding layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the thickener (TEGO Chemical 3030), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63) and 20 parts by mass of the curing agent (Bayer 3100). The viscosity of the working slurry was measured to be 1020 centipoises.

[0052] Demonstration example 7: The process is as follows: molding of the palm body; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging. The moisture wicking layer formula: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 1200 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 2 parts by mass of the cell aid (BYK-L9520) and 10 parts by mass of the accelerator (BYK-L9525). The viscosity of the working slurry was measured to be 1350 centipoises.

[0053] Shielding layer formula: 1000 parts by mass of the dry polyurethane resin (Xuchuan XCS-3030L), 1500 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 3 parts by mass of the leveling agent (TEGO Flow425), 5 parts by mass of the penetrating agent (AERLSOL OT-75) and 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), the viscosity of the working pulp was measured to be 800 centipoises.

[0054] Demonstration example 8: The process is as follows: molding of the palm body; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging. The moisture wicking layer formula: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 1800 parts by mass of DMF (reagent), 5 parts by mass of a defoamer (BYK-016), 5 parts by mass of penetrating agent (AERLSOL OT-75), 5 parts by mass of the cell aid (BYK-L9520) and 10 parts by mass of the accelerator (BYK-L9525). The viscosity of the working slurry is measured to be 850 centipoises. The shielding layer formula: 1000 parts by mass of the dry polyurethane resin (Xuchuan XCS-3030L), 1500 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), and 3 parts by mass of the leveling agent (TEGO Flow425), 5 parts by mass of a penetrating agent (AERLSOL OT-75) and 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), the viscosity of the working pulp is measured to be 780 centipoises.

[0055] Demonstration example 9: The process is as follows: molding of the palm body; coating in coagulant; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging.

[0056] Moisture wicking layer formula: 1000 parts by mass of the waterborne polyurethane emulsion (XWB-7510B of Xuchuan Chemical Suzhou Co., Ltd.), 120 parts by mass of the foam agent (BASF Glucopon 225DK), and 4 parts by mass of the thickener (TEGO 3030). The foaming ratio is 2 times. The viscosity of the working slurry was measured to be 1010 centipoises.

[0057] Shielding layer formula: 1000 parts by mass of the dry polyurethane resin (Xuchuan XCS-3030L), 2000 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 3 parts by mass of the leveling agent (TEGO Flow425), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63). The viscosity of the working slurry was measured to be 990 centipoises.

[0058] Demonstration example 10: The process is as follows: molding of the palm body; coating in glue (foam layer); water washing; drying; coating in glue (shielding layer); drying; demolding of the finished product; and packaging. The moisture wicking layer formula: 1000 parts by mass of the wet polyurethane resin (Huafon JF-P-2930), 2000 parts by mass of the DMF (reagent), 5 parts by mass of the defoamer (BYK-016), 5 parts by mass of the penetrating agent (AERLSOL OT-75), 5 parts by mass of the cell aid (BYK-L9520), 10 parts by mass of the accelerator (BYK-L9525). The working slurry viscosity is measured to be 550 centipoises. The shielding layer formula: 1000 parts by mass of a waterborne polyurethane emulsion (XWB-7248 of Xuchuan Chemical Suzhou Co., Ltd.), 800 parts by mass of a purified water, 5 parts by mass of the defoamer (BYK-016), 10 parts by mass of the thickener (TEGO Chemical 3030), 3 parts by mass of the wetting agent (DuPont Chemical Capstone FS-63), 20 parts by mass of the curing agent (Bayer 3100). The viscosity of the working slurry was measured to be 980 centipoises.

[0059] Performance testing standards: [0060] Water absorption value: GB/T 1540-2002; [0061] Air permeability: JIS-L-1096; [0062] Moisture permeability: JIS-L-1099; [0063] Bacterial Penetration Rate: EN374-5; [0064] Water pressure resistance: GB/T 4744-2013; and [0065] Abrasion test: EN388-2016.

[0066] The result of the performance test of the fully coated glove of each example is as shown in Table 1:

TABLE-US-00001 TABLE 1 solid content of solid Thickness of moisture content of moisture Thickness of wicking shielding wicking shielding Water moisture water layer layer layer layer absorption breathability permeability pressure durable Bacterial examples (%) (%) (mm) (mm) (g/m2) (cm3/cm2*s) (g/m2*24 h) (mmH2O) (spin) penetration 1 40 30 0.12 0.08 80 0.2 780 16500 6500 Pass 2 40 30 0.15 0.08 150 0.25 1050 14700 5500 Pass 3 40 15 0.12 0.06 70 0.19 700 16000 7000 Pass 4 40 15 0.16 0.06 165 0.23 800 14500 5200 Pass 5 14 30 0.15 0.08 120 0.31 1100 15500 7000 Pass 6 13 30 0.13 0.09 180 0.39 1450 12800 5800 Pass 7 14 12 0.15 0.04 108 0.28 1210 14900 6800 Pass 8 12 12 0.12 0.04 170 0.38 1380 13000 5500 Pass 9 40 10 0.2 0.03 180 0.30 1650 1890 2300 Pass 10 10 20 0.09 0.02 150 0.42 1750 1860 2100 Pass

[0067] From the comparison in Table 1, it can be seen that the glove prepared in Example 1 to Example 8 of the present disclosure have the functions of moisture absorption, breathability and shielding isolation, it is also wear-resistant and has low bacterial penetration rate and good protection effect. In Example 9, the foam ratio of the moisture wicking layer is too high, In Example 10, the effect is not good because the coating is too thin. It shows that the technical solution of this disclosure has a good effect.

[0068] The above is only a specific implementation of the present disclosure, but the scope of protection of the present disclosure is not limited thereto, and any changes or replacements that do not come to mind through creative work shall be covered within the scope of protection of the present disclosure. Therefore, the protection scope of the present disclosure should be determined by the protection scope defined in the claims.