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GB/T 11982.1-2015 PDF English

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GB/T 11982.1-2015: Polyvinyl chloride floor coverings - Part 1: Heterogeneous polyvinyl chloride floor coverings
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GB/T 11982.1: Historical versions

Standard IDUSDBUY PDFDeliveryStandard Title (Description)Status
GB/T 11982.1-2015270 Add to Cart Auto, 9 seconds. Polyvinyl chloride floor coverings - Part 1: Heterogeneous polyvinyl chloride floor coverings Valid
GB/T 11982.1-2005359 Add to Cart 3 days Polyvinyl chloride floor sheets -- Part 1: Polyvinyl chloride floor sheets with backing Obsolete
GB/T 11982.1-1989359 Add to Cart 3 days PVC floor sheets--PVC floor sheets with backing Obsolete

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GB/T 11982.1-2015: Polyvinyl chloride floor coverings - Part 1: Heterogeneous polyvinyl chloride floor coverings


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NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 83.140 Q 22 Replacing GB/T 11982.1-2005 Polyvinyl chloride floor coverings - Part 1: Heterogeneous polyvinyl chloride floor coverings 聚氯乙烯卷材地板 ISSUED ON: SEPTEMBER 11, 2015 IMPLEMENTED ON: AUGUST 01, 2016 Issued by: General Administration of Quality Supervision, Inspection and Quarantine of the PRC; Standardization Administration of the PRC.

Table of Contents

Foreword ... 3 1 Scope ... 5 2 Normative references ... 5 3 Terms and definitions ... 5 4 Classification, grade, and designation ... 6 5 Requirements ... 7 6 Test methods ... 10 7 Inspection rules ... 25 8 Marking, transportation, and storage ... 26 Appendix A (Normative) Classification table of use grades ... 28 Appendix B (Normative) Chair caster test method ... 30 Appendix C (Normative) Pollution resistance test method ... 34 Polyvinyl chloride floor coverings - Part 1: Heterogeneous polyvinyl chloride floor coverings

1 Scope

This Part of GB/T 11982 specifies the terms and definitions, classification, grade and designation, requirements, test methods, inspection rules, marking, transportation, and storage of heterogeneous polyvinyl chloride floor coverings (hereinafter referred to as floor coverings). This Part applies to floor coverings with polyvinyl chloride resin as the main raw material laid on the floor of the building.

2 Normative references

The following documents are indispensable for the application of this document. For the dated references, only the editions with the dates indicated are applicable to this document. For the undated references, the latest edition (including all the amendments) are applicable to this document. GB/T 1033.1-2008 Plastics - Methods for determining the density of non- cellular plastics - Part 1: Immersion method, liquid pycnometer method and titration method GB/T 4100-2006 Ceramic tiles GB/T 8427-2008 Textiles - Tests for color fastness - Color fastness to artificial light: Xenon arc fading lamp test GB 8624 Classification for burning behavior of building materials and products GB 18586 Indoor decorating and refurbishing materials - Limit of harmful substances of polyvinyl chloride floor coverings

3 Terms and definitions

The following terms and definitions apply to this document. 3.1 Heterogeneous polyvinyl chloride floor coverings 5.3.4.2 Pollution resistance REPORT test results. 5.3.4.3 Welding strength USE grade 32 and above floor covering to conduct welding strength test as agreed by the supplier and the purchaser. The average welding strength is ≥240 N/50 mm; the minimum is ≥180 N/50 mm. 5.3.4.4 Skid resistance REPORT test results.

6 Test methods

6.1 Standard test conditions The test piece, before the test, shall be left for at least 24 h under standard conditions of temperature (23±2)°C and relative humidity (50±5)%. The test shall be performed under these conditions. 6.2 Appearance Under the scattered sunlight or fluorescent lamp, at 1 m from the test piece, obliquely visually check the appearance. RECORD whether there are various defects listed in Table 2. 6.3 Dimensional tolerances 6.3.1 Length PUT the wear layer of the entire floor covering under test upwards. Without tensile stress, lay it on a hard plane; USE a steel tape with a division value of 1 mm to measure the length at two positions parallel to the longitudinal direction at about 200 mm from both sides. TAKE the arithmetic mean of the two length measurement results to indicate the length of the floor covering, accurate to 10 mm. 6.3.2 Width According to the method of 6.3.1, use a steel tape with a division value of 1 mm to measure the width at the middle and both ends perpendicular to the longitudinal direction. TAKE the smallest width to indicate the width of the floor covering, accurate to 1 mm. PLACE the test piece with the section facing up on a microscope test bench; READ the thickness of the wear layer. If there are concave and convex patterns, measure the thickness of the protruding part. 3 measurements are performed on each test piece. RECORD the single thickness measured value of wear layer, accurate to 0.01 mm. 6.3.3.2.4 Test result Calculate the deviation of the arithmetic mean of all wear layer thickness measurements from the stated wear layer thickness value, accurate to 1%; and the deviation of a single wear layer thickness measurement from the arithmetic mean of all wear layer thickness measurements, accurate to 0.01 mm. 6.4 Surface mass deviation 6.4.1 Instrument 6.4.1.1 Vernier caliper The division value is not greater than 0.1 mm. 6.4.1.2 Balance The sensitivity is not more than 0.01 g. 6.4.2 Sampling TAKE 5 square test pieces with a size of 100 mm×100 mm from the floor covering. Any side of the test piece shall be at least 100 mm from the edge of the floor covering. 6.4.3 Test procedure MEASURE the side length of the middle of each test piece, accurate to 0.1 mm. WEIGH and record the mass m0 of each test piece, accurate to 0.01 g. 6.4.4 Test result The surface mass is calculated according to formula (1). The deviation between the arithmetic mean of the surface masses of the 5 test pieces and the explicit surface mass value is calculated as a percentage and accurate to 1%. Where: A - Surface mass, in grams per square meter (g/m2); m0 - The mass of test piece, in grams (g); l - The length of test piece, in millimeters (mm); b - The width of test piece, in millimeters (mm). 6.5 Variation rate of heating sizes 6.5.1 Instrument 6.5.1.1 Constant-temperature blast oven Thermostat sensitivity is ±1 °C. 6.5.1.2 Vernier caliper The division value is 0.02 mm. 6.5.2 Sampling Before taking the test piece, the floor covering shall be laid as flat as possible. TAKE 3 square test pieces with a size of 240 mm×240 mm from the floor covering. Any side of the test piece shall be at least 100 mm from the edge of the floor covering. Each side of each test piece shall be parallel or perpendicular to the length or width direction of the product. 6.5.3 Test procedure MARK the longitudinal and transverse directions on the test piece. As shown in Figure 1, along the longitudinal and transverse distances of the test piece, at 20 mm from the edge of the test piece, draw two parallel lines with a distance of 200 mm and mark 4 intersections. USE a Vernier caliper to measure the distance L0 between each pair of marked lines in the longitudinal and transverse directions, accurate to 0.02 mm. Then put the wear layer of the test piece upward and lay it flat on a smooth glass plate or stainless steel plate sprinkled with talcum powder. The distance between the test pieces shall be more than 50 mm; they shall be placed together in a constant-temperature blast oven with a temperature of (80±2)°C. The distance between the flat plate and the inner wall of the oven shall not be less than 50 mm. The vertical distance between the flat plates and between the flat plate and the oven shall not be less than 100 mm. TAKE out after holding for 6 h; LEAVE them for 24 h under standard test conditions. A 180 mm×180 mm×13 mm steel flat plate is pressed on the test pieces. Then, measure the distance L between each pair of marked lines of each test piece, accurate to 0.02 mm. 6.6.1.1 Constant-temperature blast oven Thermostat sensitivity is ±1 °C. 6.6.1.2 Height Vernier caliper The division value is 0.02 mm. 6.6.2 Sampling Before taking the test piece, the floor covering shall be laid as flat as possible. TAKE 3 square test pieces with a size of 240 mm×240 mm from the floor covering. Any side of the test piece shall be at least 100 mm from the edge of the floor covering. Each side of each test piece shall be parallel or perpendicular to the length or width direction of the product. 6.6.3 Test procedure PUT the wear layer of each test piece upward. If the middle of the test piece is arched, place the wear layer of the test piece downward and lay it flat on a smooth glass plate or stainless steel plate sprinkled with talcum powder. The distance between the test pieces is more than 50 mm. USE the height Vernier caliper to measure the maximum distance d0 from the upper surface of each side of the floor covering to the flat plate, accurate to 0.02 mm. PLACE the plate with the test piece in a blast oven at a temperature of (80±2)°C. The distance between the flat plate and the inner wall of the oven shall not be less than 50 mm. The vertical distance between the flat plates and between the flat plate and the oven shall not be less than 100 mm. After holding for 6 h, take the plate with the test piece out; do not move the test piece. PLACE it under standard test conditions for 24 h. USE a height Vernier caliper to measure the maximum distance d1 between the upper surface of each side of the test piece and the flat plate, accurate to 0.02 mm. 6.6.4 Test result The heating warpage is calculated according to formula (3). It is expressed by the arithmetic mean of the heating warpage of 3 test pieces, accurate to 1 mm. Where: D - Heating warpage, in millimeters (mm); d1 - The maximum distance from the upper surface of each side of the test piece to the flat plate after heating, in millimeters (mm); d0 - The maximum distance from the upper surface of each side of the test piece to the flat plate before heating, in millimeters (mm). 6.7 Wear resistance 6.7.1 Instruments and abrasives 6.7.1.1 Falling sand wear tester The falling sand wear tester consists of the following components (see Figure 2): a) Horizontal rotating test bench (see Figure 3). The diameter is greater than 105 mm. The upper surface is horizontal; and, the test piece can be placed. The test bench can rotate around the central axis. The rotation speed is (60±2)r/min. b) Two cylindrical grinding wheels with leather sheet. The grinding wheels are made of metal or hard plastic, with a diameter of 42 mm and a width of 12.7 mm. They can rotate freely around a fixed axis. The leather sheet wrapped on the grinding wheel is about 13 mm wide and 4 mm~5 mm thick. A steel ball with a diameter of 10 mm is placed on the leather; a load of (10±0.1)N is loaded. After 30 s, the leather sheet shall have a residual depression of 0.3 mm~0.5 mm. Before the first use, the grinding wheel wrapped with the leather sheet shall be sanded with P240 sandpaper for 500 revolutions. The two grinding wheels can form a circular track on the surface of the test piece with an area of about 3000 mm2. When the diameter of the grinding wheel wrapped with the leather sheet is less than 44.4 mm, the grinding wheel shall be replaced. c) Rotation counter. After reaching the set number of revolutions, it can make the test platform automatically stop rotation. d) Container, which is open at the upper end and contains at least 200 g of abrasive. The bottom of the container is provided with a height-adjustable falling sand tube. The bottom of the falling sand tube is (10±3)mm from the surface of the test piece; and, it can be quickly closed. e) Vacuum cleaner, capable of removing the abrasive and the particles being ground. test pieces among them, cut out 3 pieces of 30 mm×30 mm wear layer test pieces for density determination. 6.7.3 Test procedure Proceed as follows: a) Under standard test conditions, adjust the state of the test piece to constant weight. The mass change within 24 h is less than 0.002 g, that is to say that it reaches constant weight. b) Wear layer density test. USE the 30 mm×30 mm wear layer test piece prepared in 6.7.2 to determine the density according to the provisions of the immersion method in GB/T 1033.1-2008. The density of the test piece is expressed by the arithmetic mean of the density of the 3 wear layer test pieces, accurate to 0.001 g/cm3. c) WEIGH the other 3 test pieces separately and record as the initial mass m0 of the test piece, accurate to 0.1 mg. d) FIX the test piece on the test bench; then, place the two grinding wheels on the test piece; apply a (9.8±0.1)N load; place the vacuum cleaner on the test piece. FILL the container with abrasive; OPEN the falling sand tube. The abrasive falling speed is (21±3)g/min. In the test, abrasives shall be added in time to ensure that the test runs normally. e) The test piece is subjected to wear test at 5000 revolutions. If the wear layer of the first test piece is not worn through before 5000 revolutions, directly weigh the mass of the test piece and test the other two test pieces. If the wear layer of the first test piece is worn through before 5000 revolutions, discard it and test the other two test pieces. PAUSE the test every 200 revolutions; REMOVE the test piece; USE a dry and soft cloth to gently wipe the particles on the surface of the test piece; WEIGH the test piece, accurate to 0.1 mg. CONTINUE grinding until 2000 revolutions or the wear layer is worn through and the test stopped. 6.7.4 Test result According to formula (4), calculate the volume loss FV of the test piece after 100 revolutions of each test piece. The result is expressed by the arithmetic mean of all the test pieces, accurate to 0.1 mm3. At least 100 mm away from the edge of the floor covering, take 3 test pieces in the transverse and longitudinal directions respectively. The size of each test piece is 250 mm×50 mm. Each side of each test piece shall be parallel or perpendicular to the length or width direction of the product. 6.11.3 Test procedure USE hand to bend the wear layer of the test piece 180° outward at a uniform speed within 3 s~5 s around a round shaft with a diameter of 40 mm. During the test, good contact between the test piece and the round shaft shall be maintained. The surface of the test piece shall be observed, to determine whether there is crack in the bending position. 6.11.4 Test result RECORD whether the test piece is cracked under the bending of 40 mm cylinder. 6.12 Chair caster test PROCEED according to Appendix B. 6.13 Limit of harmful substances PROCEED according to GB 18586. 6.14 Special performance 6.14.1 Burning behavior PROCEED according to GB 8624. 6.14.2 Pollution resistance PROCEED according to Appendix C. 6.14.3 Welding strength 6.14.3.1 Sampling WELD two floor coverings with a minimum width of 300 mm according to the manufacturer's requirements to make a sample. On the sample, at the same spacing, cut 5 test pieces with a minimum length of 150 mm and a width of (50±0.5)mm. The weld is located in the center of the test piece (see Figure 6). Calculate the arithmetic mean of the welding strength of 5 test pieces, accurate to 10 N/50 mm. At the same time, record the minimum of 5 test pieces. 6.14.4 Skid resistance PROCEED according to GB/T 4100-2006 Appendix M.

7 Inspection rules

7.1 Inspection classification 7.1.1 Exit-factory inspection The exit-factory inspection items are 5.1, 5.2, and 5.3 surface mass, variation rate of heating sizes, and residual depression. Of which 5.1 and 5.2 are inspected lot by lot. 5.3 surface mass, variation rate of heating sizes, and residual depression are inspected every 4 lots; but the 4 lots must be 4 continuous lots with the same formula, the same process, and the same specification. 7.1.2 Type inspection Type inspection items are all inspection items listed in Clause 5 (excluding special performance). In one of the following cases, it shall carry out the type inspection: a) Pattern evaluation for plant transfer production of new products or old products; b) After the formal production, when there are major changes in the raw materials, processes, and production equipment of the product, which may affect the product performance; c) Once a year during normal production; d) When the exit-factory inspection result is significantly different from the previous type inspection; e) When the production resumes after the product is discontinued more than half a year. 7.2 Lot grouping and sampling 7.2.1 Lot grouping The inspection is based on lots, with the floor coverings with the same formula, B.1.1.4 Driving mechanism The platform and casters are linked and equipped with a steering device. The rotation speed of the platform is (19±1)r/min. The rotation speed of the casters is (50±1)r/min. The number of rotations of the platform is set by the counter. After rotating (180±10)s, the platform stops and remains stationary (5±2)s and then run in reverse. REPEAT this process until the set number of revolutions is reached; and, stop the test. B.1.1.5 Dust suction device The dust suction device is installed above the test area of the test piece. It can remove the particles that have been ground. B.1.2 Lighting device The lamp tube with a color temperature of 5500 K~6500 K is installed above the observation desk and irradiates the test piece vertically, which can provide (1500±100)lx illumination. During the test, the surrounding environment shall be kept dark, so as not to affect the test observation results. B.1.3 Rotating observation desk It can be rotated in order to observe the test piece in all directions under the lighting conditions specified by the standard. B.2 Sampling CUT the test piece from the floor covering. The diameter of the test piece is at least 750 mm. During the test, the caster shall pass at least one splicing line. B.3 Test piece installation USE double-sided tape or binder, or according to the instructions of the floor covering manufacturer, mount the test piece on the test piece support platform as shown in Figure B.3.

Appendix C

(Normative) Pollution resistance test method C.1 Principle Different liquid or pasty pollutants are coated on the surface of the test piece. After a certain contact time, remove the pollutants. After cleaning the test piece, under the specified lighting conditions, observe and evaluate the surface change of the test piece. C.2 Test equipment and materials C.2.1 Test equipment Test equipment includes: a) A dropper; b) A watch glass with a diameter of 40 mm; c) A scraper. C.2.2 Liquid or pasty pollutants This method does not specify which pollutants are used in the pollution resistance test. The pollutants to be used can be agreed between the supplier and the purchaser; but detailed information on the pollutants shall be stated in the test report. C.2.3 Cleaning and decontamination materials Cleaning and decontamination materials include: a) Dry white cotton cloth; b) Water; c) Neutral detergents or detergents recommended by the manufacturer of floor covering; d) Decontamination powder. C.2.4 Lighting device ......
Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al.
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