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GB/T 33609-2017 English PDF

GB/T 33609-2017_English: PDF (GB/T33609-2017)
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GB/T 33609-2017English115 Add to Cart 0--9 seconds. Auto-delivery Flexible cellular polymeric materials -- Determination of hysteresis loss Valid GB/T 33609-2017


BASIC DATA
Standard ID GB/T 33609-2017 (GB/T33609-2017)
Description (Translated English) Flexible cellular polymeric materials -- Determination of hysteresis loss
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard G32
Classification of International Standard 83.100
Word Count Estimation 7,726
Date of Issue 2017-05-12
Date of Implementation 2017-12-01
Quoted Standard GB/T 2918-1998; GB/T 6342-1996
Drafting Organization Jiangsu Province, the Institute of Chemical Industry Co., Ltd., Zhejiang Shengnuo Union Gujia Sponge Co., Ltd., Hangzhou Chuangli Polyurethane Co., Ltd., Jiangsu Lvyuan New Materials Co., Ltd., Beijing Industrial and Commercial University, Jiangsu Province, Polyurethane Product Quality Supervision and Inspection Station, Jiangsu Jianghua Polyurethane product quality Detection Co., Ltd., Nanjing Poly Detection Technology Co., Ltd.
Administrative Organization National Standardization Technical Committee for Plastics (SAC/TC 48)
Proposing organization China Light Industry Federation
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, China National Standardization Administration Committee
Summary This standard specifies two test methods for determining the hysteresis loss performance of soft foam polymeric materials. - Method A: Determination of hysteresis loss by compression method; Method B: Determination of hysteresis loss by compression method. This standard is applicable to the determination of hysteresis loss of soft foam polymeric materials. The method A and method B in this standard are applicable to standard size specimens taken from bulk materials or molded specimens having a variety of shapes, and method B is also applicable to molded articles having a variety of shapes.


GB/T 33609-2017 GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 83.100 G 32 Flexible cellular polymeric materials - Determination of hysteresis loss ISSUED ON: MAY 12, 2017 IMPLEMENTED ON: DECEMBER 01, 2017 Issued by: General Administration of Quality Supervision, Inspection and Quarantine of PRC; National Standardization Administration. Table of Contents Foreword ... 3 1 Scope ... 4 2 Normative references ... 4 3 Terms and definitions ... 4 4 Principle ... 5 5 Instruments ... 5 6 Specimens ... 6 7 Conditioning ... 7 8 Test steps ... 7 9 Repeated test ... 9 10 Calculation and expression of results ... 9 11 Test report ... 9 Flexible cellular polymeric materials - Determination of hysteresis loss 1 Scope This standard specifies two test methods for determining the hysteresis loss properties of flexible cellular polymeric materials. - Method A: Determination of hysteresis loss by compression method; - Method B: Determination of hysteresis loss by depression method. This standard applies to the determination of hysteresis loss of flexible cellular polymeric materials. Method A and method B in this standard are applicable to standard size specimens, which are cut from block materials or molded specimens with various shapes; method B is also applicable to molded products with various shapes. 2 Normative references The following documents are essential to the application of this document. For the dated documents, only the versions with the dates indicated are applicable to this document; for the undated documents, only the latest version (including all the amendments) is applicable to this standard. GB/T 2918-1998 Plastics - Standard atmospheres for conditioning and testing GB/T 6342-1996 Cellular plastics and rubbers - Determination of linear dimensions 3 Terms and definitions The following terms and definitions apply to this document. 3.1 Hysteresis loss After the specimen is deformed by the compression method (the indenter area is larger than the specimen area) or the depression method (the indenter area is smaller than the specimen area), the specimen is immediately allowed to recover and the ratio of the lost work to the loaded work in this process is measured. between the support plate (see 5.2) and the indenter (see 5.3). The indenter can move perpendicular to the support plate at a constant speed required by this test: (50 ± 5) mm/min, (100 ± 20) mm/min, (250 ± 25) mm/min. The testing machine shall have the ability to measure the force to produce the specified deformation with an accuracy of ±1%, and the ability to measure the specimen thickness at an accuracy of ±0.2 mm under load. The testing machine shall be equipped with a device for automatically drawing the test load-displacement curve. 5.2 Support plate The support plate is made of rigid material. The surface shall be smooth, flat, horizontal and larger than the specimen. The support plate shall be provided with multiple holes with a diameter of 6 mm and a hole spacing of 20 mm, to facilitate the discharge of gas generated during the test. 5.3 Indenter Method A (compression method): The indenter can be of any suitable size and shape (round or square is recommended), with a smooth but unpolished surface and shall be parallel to the support plate; the specimen shall be overlapped from all directions. Method B (depression method): The indenter surface is smooth but not polished; it is assembled using a ball-type connector to prevent vertical movement OR it may use other appropriate methods. The diameter of the indenter is mm; the radius of the bottom edge is mm; it shall be parallel to the support plate. 5.4 Measuring tools The measuring tools for measuring the size of the specimen shall comply with the provisions of GB/T 6342-1996. 6 Specimens 6.1 Shape and size Method A (compression method): The side length of the specimen is (50 ± 2) mm and the thickness is (25 ± 2) mm. The final product can also be tested according to the agreement between the supplier and the buyer. Method B (depression method): The side length of the specimen is mm and the Measure the specimen dimensions in accordance with GB/T 6342-1996. 8.2 Method A (compression method) Place the specimen on the support plate, so that the center of the specimen or the position agreed upon by the supplier and the buyer is located below the indenter. The indenter pre-compresses the specimen twice at a speed of (250 ± 25) mm/min to 75% ~ 80% of the initial thickness of the specimen. After reaching this deflection, unload the pressure at the same speed. After each pre-compression, keep the indenter in contact with the specimen surface. After two pre-compressions, let the specimen recover for (6 ± 1) min. After the specimen recovers, slowly lower the indenter and apply a force of about 140 Pa (not exceeding 200 Pa) on the specimen surface. Measure the specimen thickness. This value is the compression zero point. Immediately compress the specimen at a speed of (50 ± 5) mm/min to (75 ± 5)% of the specimen thickness. Immediately unload at the same speed, until it is basically fully recovered. The load-displacement curve must be fully recorded during the test. Calculate the hysteresis loss according to formula (1). 8.3 Method B (depression method) Place the specimen on the support plate, so that the center of the specimen or the position agreed upon by the supplier and the buyer is below the indenter. Slowly lower the indenter and apply a force of N on the specimen surface. Measure the specimen thickness. This value is the depression zero point. The indenter pre-presses the specimen at a speed of (100 ± 20) mm/min to (75 ± 2.5)% of the specimen thickness. After reaching this deflection, the pressure is immediately unloaded at the same speed; then the specimen is allowed to recover for (4 ± 1) min. After the specimen recovers, the specimen is immediately depressed at a speed of (100 ± 20) mm/min to (75 ± 2.5)% of the specimen thickness. After reaching this deflection, it is immediately unloaded at the same speed until it is basically fully recovered. The time interval between the end of loading and the beginning of unloading shall not exceed 2 s. The load-displacement curve must be fully recorded during the test. The hysteresis loss is calculated according to formula (1). ......

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