GB/T 8484-2020 English PDF

US$409.00 · In stock
Delivery: <= 4 days. True-PDF full-copy in English will be manually translated and delivered via email.
GB/T 8484-2020: Test method for thermal insulating performance for building exterior doors and windows
Status: Valid

GB/T 8484: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 8484-2020	409	Add to Cart	4 days	Test method for thermal insulating performance for building exterior doors and windows	Valid
GB/T 8484-2008	999	Add to Cart	5 days	Graduation and test method for thermal insulating properties of doors and windows	Obsolete
GB/T 8484-2002	479	Add to Cart	4 days	Graduation and test method for thermal insulating properties of windows	Obsolete
GB/T 8484-1987	319	Add to Cart	3 days	Graduation and test method for thermal insulating properties of windows	Obsolete

Similar standards

GB/T 8478   GB/T 15227   GB/T 31433   GB/T 8485   

Basic data

Standard ID: GB/T 8484-2020 (GB/T8484-2020)
Description (Translated English): Test method for thermal insulating performance for building exterior doors and windows
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: P32
Classification of International Standard: 91.060.50
Word Count Estimation: 22,296
Date of Issue: 2020-04-28
Date of Implementation: 2021-03-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 8484-2020: Test method for thermal insulating performance for building exterior doors and windows

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Test method for thermal insulating performance for building exterior doors and insulating windows ICS 91.060.50 P32 National Standards of People's Republic of China Replace GB/T 8484-2008 Testing method for thermal insulation performance of building exterior doors and windows 2020-04-28 released 2021-03-01 implementation State Administration for Market Regulation Issued by the National Standardization Management Committee

Table of contents

Preface Ⅲ 1 Scope 1 2 Normative references 1 3 Terms and definitions 1 4 Detection principle 1 5 Detection device 2 6 Specimen and installation requirements 3 7 Detection 4 8 Test report 5 Appendix A (Normative Appendix) Heat Flow Coefficient Calibration 6 Appendix B (Normative Appendix) Calculation of Weighted Average Temperature 7 Appendix C (Normative Appendix) The edge line heat transfer coefficient value is 8 Appendix D (informative appendix) Anti-condensation factor test method 10 Appendix E (informative appendix) Test method for glass heat transfer coefficient 13 Appendix F (informative appendix) Test method for heat transfer coefficient of door and window frame 15

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard replaces GB/T 8484-2008 "Classification and Testing Method for Thermal Insulation Performance of Exterior Doors and Windows of Buildings", and is consistent with GB/T 8484-2008 The main technical changes are as follows. --- Added the term "door and window insulation performance" (see 3.1); --- Deleted the terms "total hemispherical emissivity" and "glass door" (see 3.4 and 3.6 in the.2008 edition); ---Deleted the insulation performance classification (see Chapter 4 of the.2008 edition); ---Modified the detection principle, the calculation of the heat transfer coefficient K value takes into account the heat loss of the test piece and the edge of the filling plate (see Chapter 4, 5.1 in the.2008 edition); ---Modified the detection device, and added a deflector for the hot box (see Chapter 5, 5.2 of the.2008 edition); ---Modified the data processing, and added the edge line heat transfer in the calculation formula (see 7.4, 5.10 of the.2008 edition); ---Added the normative appendix "The value of edge line heat transfer coefficient" (see appendix C); ---The anti-condensation factor test method is adjusted to an informative appendix [see Appendix D, 5.1.2, 5.7.7, 5.8.2, 5.9.2,.2008 edition 5.10.2, Chapter 6 e)2)]. This standard was proposed by the Ministry of Housing and Urban-Rural Development of the People's Republic of China. This standard is under the jurisdiction of the National Standardization Technical Committee for Building Curtain Walls, Doors and Windows (SAC/TC448). Drafting organizations of this standard. China Academy of Building Research Co., Ltd., Guangdong Academy of Building Research Group Co., Ltd., Xinjiang Building Research Institute (Limited Liability Company), Zhejiang Building Science Design and Research Institute Co., Ltd., South China University of Technology, Guangdong Jianlang Hardware Products Co., Ltd., Hebei Aorun Shunda Window Industry Co., Ltd., Guangdong Jianmei Aluminum Profile Factory (Group) Co., Ltd., Zhuhai Industrial Energy Conservation Division Technology Co., Ltd., Shandong Zhiying Door and Window System Co., Ltd., Beijing Gangyuan Curtain Wall Co., Ltd., Henan Longwang Tempered Vacuum Glass Co., Ltd., He North China Glass New Materials Co., Ltd., Liaoning Yuhong Doors and Windows Co., Ltd., Beijing Aobotai Technology Co., Ltd., Suzhou Winspar New Building Materials Co., Ltd. Company, Jinzhu Taiyang Decoration Co., Ltd., Shantou Bomaki Material Co., Ltd., Shenyang Ziwei Electromechanical Equipment Co., Ltd., Jiangsu Saidi Music Festival Energy Technology Co., Ltd., Shandong Academy of Building Research Co., Ltd., Shanghai Jianke Inspection Co., Ltd., Xinjiang University, Xi'an Gaoke Building Materials Division Technology Co., Ltd., Guangdong Weiye Aluminum Factory Group Co., Ltd., ASSA ABLOY Guoqiang (Shandong) Hardware Technology Co., Ltd., Beijing Jiayu Door and Window Curtain Wall Company limited by shares. The main drafters of this standard. Wang Hongtao, Wan Chenglong, Liu Yueli, Liu Huitao, Mai Yuebang, Chen Xiangdong, Yan Xin, Meng Qinglin, Han Kun, Jiao Changlong, Yu Zhilong, Luo Duo, Meng Fei, Leng Yanping, Li Hongyan, Yao Yongkai, Chang Wensheng, Zhang Zhemin, Zhong Tiezhu, Wang Peng, Jia Bo, Zhang Xu, Xiao Min, Pan Zhen, Yang Huaqiu, Shan Bo, Zhang Suli, Liu Huihua, Wang Junyang, Wang Zhaojun, Yuan Tao, Li Di, Yue Peng, Wang Wanjiang, Guo Peng, Ren Fengying, Sun Jichao, Zhang Guofeng. The previous versions of the standard replaced by this standard are as follows. ---GB/T 8484-1987, GB/T 8484-2002, GB/T 8484-2008; ---GB/T 16729-1997. Testing method for thermal insulation performance of building exterior doors and windows

1 Scope

This standard specifies the testing principles, testing devices, test pieces and installation requirements, testing and testing reports for the thermal insulation performance of exterior doors and windows of buildings. This standard applies to the thermal insulation performance testing of exterior doors and windows in vertical buildings.

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. GB/T 4132 Thermal insulation materials and related terms GB/T 5823 Terminology for building doors and windows GB/T 10294 Determination of steady-state thermal resistance and related characteristics of thermal insulation materials. Protective hot plate method GB/T 13475 Determination of adiabatic steady-state heat transfer properties, calibration and protective hot box method

3 Terms and definitions

The following terms and definitions defined in GB/T 4132 and GB/T 5823 apply to this document. 3.1 Insulation performance of doors and windows The ability of building exterior doors and windows to prevent heat transfer from indoor to outdoor is characterized by heat transfer coefficient. 3.2 Heat transfer coefficient of doors and windows Under steady-state heat transfer conditions, when the air temperature difference between the two sides of the door and window is 1K, the heat transfer per unit area within a unit time. Note. Rewrite GB/T 4132-2015, definition 2.8.15. 3.3 Thermal conductivity Under steady-state heat transfer conditions, the ratio of the heat transfer per unit area of a filled plate with a certain thickness to the temperature difference between the two surfaces of the plate. 3.4 Heat flow coefficient Under steady-state heat transfer conditions, calibrate the heat transfer when the temperature difference between the two surfaces of the box wall or the test frame in the hot box is 1K.

4 Detection principle

Based on the principle of steady-state heat transfer, the calibrated hot box method is used to detect the heat transfer coefficient of exterior doors and windows of buildings. One side of the specimen is a hot box, which simulates the winter heating of the building. Seasonal indoor air temperature conditions; the other side is a cold box, which simulates the outdoor air temperature and air velocity in winter. After sealing the gap of the test piece, the two test pieces Under the conditions of maintaining stable air temperature, air velocity and heat radiation on each side, measure the heat generation per unit time of the heating device in the hot box to reduce To go through the heat loss of the hot box wall, the test piece frame, the filling plate, the test piece and the edge of the filling plate, divide by the product of the area of the test piece and the air temperature difference on both sides, namely The heat transfer coefficient K value of the test piece can be obtained. In the plane of 150mm~300mm, it should be larger than the size of the tested piece. 5.3.4 At least 9 air temperature measuring points should be evenly arranged between the deflector and the test piece in the cold box, and the heat radiation should be shielded. 5.3.5 In the cold box, a deflector and a fan should be used for forced convection to form a uniform and stable airflow from top to bottom along the surface of the test piece; The distance from the cold side surface meets the requirements of GB/T 13475.The average wind speed in the plane should be 3.0m/s±0.2m/s. 5.4 Specimen frame 5.4.1 The outer edge size of the test piece frame shall not be less than the inner edge size of the opening of the hot box. 5.4.2 The thermal resistance of the test frame shall not be less than 7.0m2·K/W, and the surface shall be made of non-hygroscopic and corrosion-resistant materials. 5.4.3 At least 6 temperature measuring points should be evenly arranged on each surface of the hot and cold sides of the test frame. 5.5 Filler plate 5.5.1 The filler plate should be made of homogeneous materials with a thermal conductivity of less than 0.040W/(m·K), and the thermal conductivity should be measured in accordance with GB/T 10294. 5.5.2 At least 9 temperature measurement points should be evenly arranged on the hot side and cold side of the filling plate, and the hemispheric emissivity of the temperature sensor paste material should be similar to the measured surface. 5.6 Environmental space 5.6.1 The detection device should be placed in a laboratory equipped with air-conditioning equipment, and the air temperature fluctuation of the ambient space should not be greater than 0.5K. The average surface temperature difference should be less than 1.0K. 5.6.2 The laboratory enclosure structure should have good thermal insulation performance and thermal stability. The inner surface of the wall and ceiling should be Light should not enter the room directly through the window. 5.6.3 The distance between the outer surface of the hot box wall and the surrounding wall surface shall not be less than 500mm.

6 Specimen and installation requirements

6.1 Test piece The tested piece is one piece, the area should not be less than 0.8m2, the structure should meet the product design and assembly requirements, and no extra accessories should be added Or adopt a special assembly process. 6.2 Installation requirements The hot side surface of the test piece shall be flush with the hot side surface of the filler plate. The width of the filler plate between the test piece and the test piece frame shall not be less than.200mm, and the thickness The degree should not be less than 100mm and should not be less than the thickness of the frame of the test piece, see Figure 2.The opening seam of the test piece shall be sealed on both sides. 7.4 Data processing The calculation steps of the heat transfer coefficient of the test piece are as follows. a) Each parameter is the average of six measurements. b) The heat transfer coefficient K value of the test piece shall be calculated according to formula (1); c) The heat transfer coefficient K value of the test piece shall be two significant figures. d) Refer to Appendix D for the anti-condensation factor of the test specimen, and refer to Appendix E and Appendix F for the heat transfer coefficient of the test glass and window frame.

8 Test report

The test report should include at least the following content. a) Commissioning and production units; b) The standards based on; c) Sample description. test piece name, number, specification, quantity, opening method; glass structure, glass spacer; profile specification; window frame area Ratio to window area; sealing material; d) Test items, test basis, test equipment, test time and report date; e) Test conditions. hot box air temperature, cold box air temperature and average wind speed; f) Test results. the heat transfer coefficient K value of the test piece, the surface temperature of the hot side of the test piece, condensation and frost; g) Signature of tester, reviewer and person in charge; h) Testing unit.

Appendix A

(Normative appendix) Heat flow coefficient calibration A.1 Calibration content The heat flow coefficient M1 of the hot box wall and the heat flow coefficient M2 of the test frame. A.2 Standard board A.2.1 The standard board should be made of materials with uniform material, no internal air layer, and stable thermal performance. It should be made of materials with a thickness of The 50mm±2mm polystyrene foam plastic board has a density of 20kg/m3~22kg/m3.The size of the standard board should be the same as the hole of the test piece. A.2.2 The thermal conductivity Λ value of the standard plate shall be measured by the protective hot plate method under the temperature difference conditions close to the calibration test temperature. A.3 Calibration conditions A.3.1 The calibration test should be performed under the same conditions of cold and hot box air temperature and wind speed as the heat preservation performance test, changing the ambient temperature, and carrying out the test in two different working conditions. A.3.2 The absolute value of the weighted average temperature difference Δθ1 and Δθ1' of the inner and outer surface areas of the two test hot box walls shall not be less than 4.5K, and |Δθ1- Δθ1'| should be greater than 9.0K, and the weighted average temperature difference Δθ2 and Δθ2' of the surface area of the hot and cold sides of the two test specimen frames should be the same or similar. A.4 Calibration method A.4.1 When the standard board is installed, the hot side surface should be flush with the hot side surface of the test frame, and the periphery should be sealed. The two surfaces of the standard board should be evenly distributed Set at least 9 temperature sensors. A.4.2 When the heat transfer process reaches a stable state, measure the relevant parameters every 30 minutes for a total of six measurements, and take the average of the measured parameters Value, according to formula (A.1) and formula (A.2) to solve the heat flow coefficients M1 and M2. ......

Image     

Tips & Frequently Asked Questions:

Question 1: How long will the true-PDF of GB/T 8484-2020_English be delivered?

Answer: Upon your order, we will start to translate GB/T 8484-2020_English as soon as possible, and keep you informed of the progress. The lead time is typically 2 ~ 4 working days. The lengthier the document the longer the lead time.

Question 2: Can I share the purchased PDF of GB/T 8484-2020_English with my colleagues?

Answer: Yes. The purchased PDF of GB/T 8484-2020_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.

Question 3: Does the price include tax/VAT?

Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countries

Question 4: Do you accept my currency other than USD?

Answer: Yes. If you need your currency to be printed on the invoice, please write an email to Sales@ChineseStandard.net. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay.

Question 5: Should I purchase the latest version GB/T 8484-2020?

Answer: Yes. Unless special scenarios such as technical constraints or academic study, you should always prioritize to purchase the latest version GB/T 8484-2020 even if the enforcement date is in future. Complying with the latest version means that, by default, it also complies with all the earlier versions, technically.