This standard specifies the quantitative expression method of architectural colors and the standard values ​​of architectural color color cards (referred to as architectural color cards). This standard applies to the quantitative expression of colors in the fields of architectural design, construction, building materials, building decoration, environmental design, etc., and is also applicable to the production and selection of architectural color cards. GB/T 18922-2002 Architectural color expression method GB/T18922-2002 Standard download decompression password: www.bzxz.net
This standard specifies the quantitative expression method of architectural colors and the standard values ​​of architectural color color cards (referred to as architectural color cards). This standard applies to the quantitative expression of colors in the fields of architectural design, construction, building materials, building decoration, environmental design, etc., and is also applicable to the production and selection of architectural color cards.

ICS 17. 180. 20
National Standard of the People's Republic of China
GB/T 18922—2002
Methods of color specification for building purposes2002~12-20 Issued
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
2003-0501 Implementation
GB/T18922—2002
This standard was proposed and approved by the National Technical Committee for the Promotion of Color Standards. This standard was drafted by Shenzhen Haichuan Color Technology Co., Ltd. The main drafters of this standard are He Weiping, Tu Bing and Zhou Weijun. This standard was first issued in December 2002. 1 Scope
Methods for expressing architectural colors
GB/F 18922---2002
This standard specifies the quantitative expression method of architectural colors and the standard values ​​of architectural color color cards (called architectural colors in Portuguese). This standard is applicable to the quantitative expression of colors in the fields of architectural design, construction, building materials, building decoration, environmental design, etc., and is also applicable to the preparation and selection of architectural color cards.
2 Normative references
The clauses of the following documents become the clauses of this standard through reference in this standard. For dated referenced documents, all subsequent amendments (excluding errata) or revisions are not applicable to this standard. However, the parties who reach an agreement based on this standard are encouraged to use the latest versions of these documents. For documents without the latest date, the latest version shall apply to this standard. GB/T3979 Object color measurement method
GB/T7921 Uniform color space and color difference formula GB/T15608 Chinese color system
3 Method of expressing architectural color
3.1 Method of expression
Architectural color is expressed by national color system number and architectural color code. 3.2 Color number
According to GB/TT5608, architectural color is expressed by hue, lightness and chroma. It is marked in the form of "hue/color". 3.3 Color coding of building colors
3.3.1 Coding rules of building colors
Arrange the commonly used building colors on the plane according to their hue, brightness, chroma and usage rules. And define the coding according to the order of rows and columns. 3.3.2 Arrangement of building colors
Select 996 commonly used building colors and arrange them into a table. There are 166 rows in total, 6 characters in each row, as shown in Table 1. 3.3.3 Coding of building colors
Building color codes are coded in Arabic numerals according to the values ​​of rows and columns. The first 3 characters are row codes and the last 1 character is column code. For example, the code of the first row and the first column is 0011, the code of the 18th row and the fifth column is 0185, the code of the 132nd row and the sixth column is 1326, and so on. 4 Architectural color card
4.1 Architectural color card standard sample
Used architectural colors or color card standard samples are provided for reference. 4.2 Selection of color card standard samples
The colors of architectural color cards are generally selected from Table 1. The number of color standard samples can be determined according to the needs, and the arrangement method can be determined according to the commonly used architectural color coding values, usage locations and users. 4.3 Value of color card standard sample
Each color sample of the architectural color card should have an accurate color value. B/13979 is used to determine the three stimulus values ​​and color quality standards of the architectural color samples.
GB/T18922—2002
Color difference of color card standard sample
Use CIE19761.4B uniform color space and color formula specified in GB/T7921 to calculate the color difference between the actual color and the standard value E. And use E to evaluate the production accuracy of the building color card. The color difference between the building color card sample and its standard value is △E3. 4.5 Identification of color card standard sample
Use the Chinese color system number and the building color code to identify. In the exchange of color information, the actual sample of the building color card, the Chinese color system number, and the building color card code have the same effect.丧1
Common architectural color arrangement list
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5.4Y 8/6.4
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5.6Y#/5.2
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GB/T 18922—2002
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GB/T 18922—2002
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1. 9PB 5. 5/5. 2
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7. 5B 6. 5/7. 6
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7. 5BG 5. 6/5. 2
7. 51G 4. E/3. 6
5BG 3/3.6
9. 4G 7/6.8
9. 4 5. 5/5. 2
GB/T 18922-~2002
1. 9PB 5. 5/S. 8
3. 1PB 7. 5/5. 6
5. 6PB 5/7. 6
2.5PB 5/4.8
3. 1PB 3. 5/3. 2
2. 5B 7. 5/3. 6
5B7.5/3.6
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5. 6B 6/5. 6
6. SB 5/4. 4
7.5B4/2.8
6. 98 5/3.6
7. 3BG 7. 5/3. 6
8. 1BG 6. 5/5. 2
17. 5EG 5/4
8. 8BG 4/2. 4
7. 5G 7. 5/5. 6
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3. IPB 7. 5/5. 2
3. 1PB 8. 5/3. 2
12. 4PR 7. 5/5. 6
1. 3PB 6, 6/4. 8
2. 5PB 5. 5/3. 5
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3. 8B 7. 3/3.
6. 5B 6. 5/4. 4
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3. 1BG 8. 5/1. 8
7. 5BG 7. 5/3. 6
7. 5BG G. 5/4
8. 1EG 5. 5/2. 4
16. 25G 8. 5/2. 4
:9. 4 8/3. F
GB/T 18922—2002
7. 50 7. 5/3. 4
5. 4G 6. 5/1
1. 53 8.5/1. 2
1. 3G 7. 5/1. 2
1. 9G 6. 5/1. 4
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5. GCY 8. 5/1.2
6. BGY 7, 6/1. 4
8.1GY7/1.4
8. 1GY 8. 5/1
3. IGY 8. 5/1. 6
5. 6GY 7. 5/1. 4
4. 4GY 5. 5/1. 6
1. 3GY 8. 5/1. 8
8. &C 7/2. 4
9. 4G 6. 5/2. 8
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1.967 R/2.8
1.3G 7/2.4
1.9G 6.5/2.8
8. 1G 7. 5/1
6. 3GY 9/E. 4
7. 5GY 6/2. 4
8.1GY 7/2.8
8.1GY 6. 5/2.8
7. 5GY 7. 5/1
3. 8GY 9/1. 4
4. 4GY 8. 5/2.8
3. 8GY 7/2. 8
3. 8GY 6. 5/2. 8
1. 9GY 8. 5/3. 2
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16. 3RP 7. $/1.2
4. 4YR 7.5/1
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1. 96Y 7, 5/1
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1.2Y 3/1.4
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8. 8R 5. 5/1. 6
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2. GRP 3. 5/1
8. 1R 5. 5/1
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3. 3. E/1. 2
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10.GGY 5/3.6
18. 8Y 3. 6/1.8
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6.TYR 4. 5/1.H
18. IR 4. 5/1. 4
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3. 1RG 4/:
2. 6Y 4. 3/1, 6
10Yk 3. 5/1. 8
3.[Y 4/3.6
3. 1G 3. 5/2. 8
7. 5GY 3/1. 4
3. (Y 4. 5/1
GB/T18922
10.6GY 3. 5/3. 6
[0Y 4/2
3.1Y 4. 5/ 1.2
7.5YR 5/1.
1.SR1' 5/1.8||1.URP 5/1| |tt||11. 9YR 4.5/1||3. E/1
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1G 3. 5/3. 6
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1. 3GY 6/2, 8
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5. 3R 6. 5/2
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9. IP 6/:
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16. 98 6/1
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3.8Y 6.5/2
2. 5Y 5. 5/3. 2
6.9YR 1/3.6
3. 1G 3/2. 4
2. 5GY 3/1. 1
3.HY 3.5/
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1. 9RP 3. 5/1. 4
10YR 3. 5/1 8
7. E5R 6
9. 6.3YR
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1.4Y 8/9||tt 8.
1. 6||tt 7. 5/6.
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1.4||6.R 1.5/5. ||14.4Y 7. 5/8.8
8.1Y 7.5/8||1. 9CY 7. 8
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2. 5/8. 4
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7.5R 3/4.8
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2.5G 415 tt||8GG/|tt||7. 5BG
8. BB 6||tt| |5PB 3. 5/7. 5
6. 3PB 3. 5/7. G
3. RR 3/5. 6
7.5R 9. 5/6. 6
8. 8R :/11. G
0. 6Y 8/9.2
9.4Y 6.5/7. 0
6, 1Y 6/6. 4
G. 6GY 6/5. 6
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6.3B 3/4.8
0.6PB3/5.2
3. 8PB 3/5. 5
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9.4YR 7/8. 5
4. 4Y 6.5/7. 6
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0. 6GY 5. 5/5. 6
4.4GY 5/5. 6
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3. IG 4/5. 2
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7. 5BC 3, 5/3, 6
5. 6B 3. 3/5. 6
8, 8B 3, 5/5. 6
5PB 3/7. 6
5. 6PR 3. 5/6. 4
6. 3PB 3. 5/7. 6
5.6P2.5/1
10R 2. 5/1.2
0. 6R 4/5. 5
.16k1-5/8g 4
8. 1R 6/31. 6
8. 8YR 5.5/7. 5
EY 7. 5/10. 4
8. 1Y7.5/9. 6
1. 3GY 6. 5/7. 0
3. 1GY 6/7.6
3. 607 5. 5/7, 6
2.5C5.5/7.6
8. 1r 6. 5/7. 6
6, SBG 5/6. 4
6. 38 5/6. 6
3. 8P3 4/5. 6
6. 3PB 3. 5/7. 6
：1226
7. 5PB 5. 5/9. 6
1. 9P 7/7. 6
.3. 1RP 6/9. 2
：1271
9. 4YR 9/1.2
0.6YR 9/1
7.SGY R/1
1. 3GY G/1
17.5PH9/1
f9. 4R 9/1
..............
. AY 9/I. G
9. 4RP 9/1
........
8. 5PB 6/9. 6
1. 9P 5. 5/5. 6
.............
2. 5YR 9/1
S.SYR 9/F
2. 5GY 9/1
6.9GY8.5/1
4. 4R 8. 5/1
o.6Y 9/1.2
7.5R 9/1.8
8.8PB479.6
1. 3P 3. 5/7. 6
8. KYR 9/1
1.9GY 8.5/1
2. 5FB 7.5/1
2.5Y 9/1.6
8.1Y 9/2. 4
6.3RP R/4.8
9. 4PB 2. 5/5. 6
G. 3P 4. 5/8. 4
:7. 5YR 9/1
2.5Y 9/1.2
8.8&GY 9/1
1.9GY 6/1
18. 8BG 8.5/1
GB/T 18922—2002
8. 8PR 3. 5/7. 6 1
1.3P3/5.5
1. 9P 4. 5/9. 6
6. 9YR 8.5/1
15.9CY8/1
-9.4B 8. 5/1
[6. 3PR 6. 5/1. 8
12. 5Y 9/3. 6
:6. 6RP 8/4. 4
3. 8F 6. 5/1
0.6Y 8/2, 4
5.6Y 9/3.2
4. 4RP 8/5. 2
[1-455
8. IPB 4. 5/9. h
I. 9P 4, 5/9. 6
1. 9P 4/6. 8
......
5, 6R 8. 5/1
：1296
[6.9Y 5/1
6. 3PR 9/1
7. 5GY 8. 5/1
5F 7.5/1.4
4.R 7. 5/1
3.8Y 8.53. 6
7. 5RI* 7. 5/4. 8
GB/T 18922—2002
7. 5R 8. 5/1. 8
0.6YR 9/1
6.3YR 9/1.G
9.4RP $/1
2. 6Y 9/1.6
8.8YR 9/1
8. 8Y 9/1. 4
8. 1Y 9/3. 2
..........
4. 4GY 9/1
6. 9GY 9/2. 4
6. 9G 9/1. 4
3. IBG 8. 5/1. 8
7.5月9/1
.........
1. 9BG 9/1
7. 5RP 8. 5/3. 2
1.9YR S/1.8
5YR 9/1. 8
T.3YRB.577
9.1YR 9/2. 4
3.1Y 9/1. G
l1.3R 9/1
1.9Y 9/1. 6
3. 8Y 9/2.4
2.5GY9/2.4
3.1GY 9/2.4
9. 4GY 0/1. 2
8. 8GY 8. 5/3. 6
1.36 8. 5/2
4.4BG 8.5/.8
2. 5B 8.5/1.6
6. 9KG 8.5/1. R
t. 3B 9/1
7. 5RP. 573. 6
7. 5RP 8. 6/3. 6
0. 6YR 8. 3/2. 4
...................
T.9YR B.57S. 6
7. 5K 8. 6/3. 6
1.3Y 8.6/2.8
1YR 8/1.2
J. 9Y 4/2.4
3.1Y9/3.2
1. 9GY 9/2. 8
3. 6GY 9/2.8
0. 6G 9/1. G
0. 6G 8. 5/2. 4
3. 1G 8. 5/2. 8
12. 5BG B. 5/1. 8
5. 613 8/1. 8
6. RG 8. 5/1.8
10RP8/4.4
8.1R8/3.6
T. 3TR 871
4.4YR 3.5/3.5
F.9Y 8. 5/2. 41
1. YR S/1
0.6Y0/3.6
2. 4Y 9/3. 5
H.8GY 9/3. 2
6.GY 9/3. 2
8.IGY 9/1, 5
1. 3G 6. 5/3. 6
3.8 8. 5/2.8
7. 5G 8. 5/2. 8
10R(:R/2.8
3.8B 8/2.4
ICRP 8/5. 2
ICRP 7. 5/4. 8||tt| |0.GYR E/4
tt||4.4YR8/3.
1. UY 8. 5/3||SYR 7.5/ 1
10YR 8.5/|tt||1. 3GY 9/3.||17.5GY0/2.||4 5/2||12. 6/8||7.5/3||14. 8/3 5BG 3. 5/1. 50 8/2 10RP 7. 5/5.||G.YR 7.5/
3.||SYR 8/A
|tt||3.YR 7.5/|tt||5.4YR 8
2.EGY 3/3||tt ||18. 5/2.||1. 5/8.|| 6. 5/5. 3.6||1. 8||18. 5/38YR 9/1
8. 8Y 9/1. 4
8. 1Y 9/3. 2
..........
4. 4GY 9/1
6. 9GY 9/2. 4
6. 9G 9/1. 4
3. IBG 8. 5/1. 8
7.5月9/1
.........
1. 9BG 9/1
7. 5RP 8. 5/3. 2
1.9YR S/1.8
5YR 9/1. 8
T.3YRB.577
9.1YR 9/2. 4
3.1Y 9/1. G
l1.3R 9/1
1.9Y 9/1. 6
3. 8Y 9/2.4
2.5GY9/2.4
3.1GY 9/2.4
9. 4GY 0/1. 2
8. 8GY 8. 5/3. 6
1.36 8. 5/2
4.4BG 8.5/.8
2. 5B 8.5/1.6
6. 9KG 8.5/1. R
t. 3B 9/1
7. 5RP. 573. 6
7. 5RP 8. 6/3. 6
0. 6YR 8. 3/2. 4
...................
T.9YR B.57S. 6
7. 5K 8. 6/3. 6
1.3Y 8.6/2.8
1YR 8/1.2
J. 9Y 4/2.4
3.1Y9/3.2
1. 9GY 9/2. 8
3. 6GY 9/2.8
0. 6G 9/1. G
0. 6G 8. 5/2. 4
3. 1G 8. 5/2. 8
12. 5BG B. 5/1. 8
5. 613 8/1. 8
6. RG 8. 5/1.8
10RP8/4.4
8.1R8/3.6
T. 3TR 871
4.4YR 3.5/3.5
F.9Y 8. 5/2. 41
1. YR S/1
0.6Y0/3.6
2. 4Y 9/3. 5
H.8GY 9/3. 2
6.GY 9/3. 2
8.IGY 9/1, 5
1. 3G 6. 5/3. 6
3.8 8. 5/2.8
7. 5G 8. 5/2. 8
10R(:R/2.8
3.8B 8/2.4
ICRP 8/5. 2
ICRP 7. 5/4. 8||tt| |0.GYR E/4
tt||4.4YR8/3.
1. UY 8. 5/3||SYR 7.5/ 1
10YR 8.5/|tt||1. 3GY 9/3.||17.5GY0/2.||4 5/2||12. 6/8||7. 5/3||14. 8/3 5BG 3. 5/1. 50 8/2 10RP 7. 5/5.||G.YR 7.5/
3.||SYR 8/A
|tt||3.YR 7.5/|tt||5.4YR 8
2.EGY 3/3||tt ||18. 5/2.||1. 5/8.|| 6. 5. 5/ 3.6||1. 8||18. 5/38YR 9/1
8. 8Y 9/1. 4
8. 1Y 9/3. 2
..........
4. 4GY 9/1
6. 9GY 9/2. 4
6. 9G 9/1. 4
3. IBG 8. 5/1. 8
7.5月9/1
.........
1. 9BG 9/1
7. 5RP 8. 5/3. 2
1.9YR S/1.8
5YR 9/1. 8
T.3YRB.577
9.1YR 9/2. 4
3.1Y 9/1. G
l1.3R 9/1
1.9Y 9/1. 6
3. 8Y 9/2.4
2.5GY9/2.4
3.1GY 9/2.4
9. 4GY 0/1. 2
8. 8GY 8. 5/3. 6
1.36 8. 5/2
4.4BG 8.5/.8
2. 5B 8.5/1.6
6. 9KG 8.5/1. R
t. 3B 9/1
7. 5RP. 573. 6
7. 5RP 8. 6/3. 6
0. 6YR 8. 3/2. 4
...................
T.9YR B.57S. 6
7. 5K 8. 6/3. 6
1.3Y 8.6/2.8
1YR 8/1.2
J. 9Y 4/2.4
3.1Y9/3.2
1. 9GY 9/2. 8
3. 6GY 9/2.8
0. 6G 9/1. G
0. 6G 8. 5/2. 4
3. 1G 8. 5/2. 8
12. 5BG B. 5/1. 8
5. 613 8/1. 8
6. RG 8. 5/1.8
10RP8/4.4
8.1R8/3.6
T. 3TR 871
4.4YR 3.5/3.5
F.9Y 8. 5/2. 41
1. YR S/1
0.6Y0/3.6
2. 4Y 9/3. 5
H.8GY 9/3. 2
6.GY 9/3. 2
8.IGY 9/1, 5
1. 3G 6. 5/3. 6
3.8 8. 5/2.8
7. 5G 8. 5/2. 8
10R(:R/2.8
3.8B 8/2.4
ICRP 8/5. 2
ICRP 7. 5/4. 8||tt| |0.GYR E/4
tt||4.4YR8/3.
1. UY 8. 5/3||SYR 7.5/ 1
10YR 8.5/|tt||1. 3GY 9/3.||17.5GY0/2.||4 5/2||12. 6/8||7. 5/3||14. 8/3 5BG 3. 5/1. 50 8/2 10RP 7. 5/5.||G.YR 7.5/|tt||3.||SYR 8/A
1 |tt||3.YR 7.5
5.4YR 8
2.EGY 3/3||14.4Y0||tt ||18. 5/2.||1. 5/8.|| 6. 5. 5/ 3.6||1. 8||18. 5/35/1
10YR 8.5/3.6
3.1Y9/3.6
1. 3GY 9/3. 6
17.5GY0/2.8
4. 4GY 8. 5/2
12. 5G 8. 6/8. 7
7. 5G 8.5/3.6
14. 4B 8/3. 2
5BG 3. 5/1. B
7. 50 8/2. 8
2.5B7.5/2.8
IURP 7. 5/4. 4
10RP 7. 5/5. 2
G.GYR 7.5/
3. 8R 773 6
SYR 8/A
1. 3Y A/2.
3.JYR 7.5/E
5. 4YR 8. 5/4. 8
2.EGY 3/3. 6
14.4Y0/3.6
18. 80Y 8. 5/2. 4
1. 90 8. 5/8. 3
6. 30 8. 5/2.8
2. 5 5/3.6
1. 6B 8/2. 8
18. 8B 7. 5/3. 65/1
10YR 8.5/3.6
3.1Y9/3.6
1. 3GY 9/3. 6
17.5GY0/2.8
4. 4GY 8. 5/2
12. 5G 8. 6/8. 7
7. 5G 8.5/3.6
14. 4B 8/3. 2
5BG 3. 5/1. B
7. 50 8/2. 8
2.5B7.5/2.8
IURP 7. 5/4. 4
10RP 7. 5/5. 2
G.GYR 7.5/
3. 8R 773 6
SYR 8/A
1. 3Y A/2.
3.JYR 7.5/E
5. 4YR 8. 5/4. 8
2.EGY 3/3. 6
14.4Y0/3.6
18. 80Y 8. 5/2. 4
1. 90 8. 5/8. 3
6. 30 8. 5/2.8
2. 5 5/3.6
1. 6B 8/2. 8
18. 8B 7. 5/3. 6
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