GOST 13617-97
GOST 13617−97 extruded bulbous angle section of aluminium, aluminium and magnesium alloys. Assortment
GOST 13617−97
Group В52
INTERSTATE STANDARD
THE BULBOUS EXTRUDED ANGLE SECTION OF ALUMINIUM, ALUMINIUM AND MAGNESIUM ALLOYS
Assortment
Extruded bulb-shaped angle-section shapes of aluminium, aluminium and magnesium alloys. Dimensions
ISS 77.140.90*
OKP 18 1140___________
* According to the official website of Rosstandart
OKS 77.150.10, here and hereafter. -
Note the manufacturer’s database.
Date of introduction 1999−01−01
Preface
1 DEVELOPED by the Interstate technical Committee MTC 297 «Materials and semi-finished products from light and special alloys», JSC «Russian Institute of light alloys» (JSC VILS)
INTRODUCED by Gosstandart of Russia
2 ADOPTED by the Interstate Council for standardization, Metrology and certification (Protocol No. 12−97, dated 21 November 1997)
The adoption voted:
| The name of the state |
The name of the national authority for standardization |
| The Republic Of Azerbaijan | Azgosstandart |
| The Republic Of Armenia | Armastajad |
| The Republic Of Belarus | Gosstandart Of Belarus |
| The Republic Of Kazakhstan | Gosstandart Of The Republic Of Kazakhstan |
| Kyrgyz Republic | Kyrgyzstandart |
| Russian Federation | Gosstandart Of Russia |
| The Republic Of Tajikistan | Tajikistandart |
| Turkmenistan | The main state inspection of Turkmenistan |
| The Republic Of Uzbekistan | Standards |
| Ukraine | Gosstandart Of Ukraine |
3 Resolution of the State Committee of the Russian Federation for standardization, Metrology and certification dated April 22, 1998 N 136 inter-state standard GOST 13617−97 introduced directly as state standard of the Russian Federation from January 1, 1999
4 REPLACE GOST 13617−82
1 SCOPE
This standard establishes the range of compressed bulbous profile angle section of aluminium, aluminium and magnesium alloys manufactured by hot pressing.
2 NORMATIVE REFERENCES
The present standard features references to the following standards:
GOST 8617−81 extruded from aluminum and aluminum alloys. Specifications
GOST 19657−84 extruded magnesium alloys. Specifications
3 BASIC PARAMETERS
3.1 profile Numbers and sizes shall be as given in figure 1 and in table 1.
Figure 1
Table 1 — Norm of profiles, sizes and theoretical mass
Dimensions, mm |
Theoretical weight of 1 m of alloy, kg | ||||||||||
| Profile number | The cross-sectional area, cm |
The diameter of the OPI sleigh of circumference, mm | aluminium Navaho |
MAG- nie- | |||||||
| 710002 | 13,0 | 12,0 | 1,0 | 3,0 | 1,5 | 0,5 | 1,5 | 0,292 | 18 | 0,083 | 0,053 |
| 710003 | 15,0 | 18,0 | 1,0 | 3,0 | 1,5 | 1,0 | 1,0 | 0,371 | 24 |
0,106 | 0,067 |
| 710004 | 15,0 | 18,0 | 1,5 | 4,0 | 2,0 | 1,5 | 1,5 | 0,544 | 24 |
0,155 | 0,098 |
| 710005 | 15,0 | 30,0 | 1,5 | 5,0 | 2,0 | 0,7 | 2,5 | AZN 0.806 | 34 | 0,230 | 0,145 |
| 710006 | 16,0 | 15,0 | 1,0 | 3,0 | 1,5 | 0,5 | 1,5 | 0,352 | 20 |
0,100 | 0,063 |
| 710007 | 17,5 | 17,0 | 1,6 | 4,0 | 1,8 | 0,5 | 1,8 | 0,597 | 24 | 0,170 |
0,107 |
| 710053 | 18,0 | 22,0 | 1,0 | 3,2 | 2,0 | - |
1,5 | 0,442 | 29 | 0,126 | 0,080 |
| 710010 | 20,0 | 13,0 | 1,0 | 3,0 | 1,5 | 0,5 | 1,5 | 0,372 | 22 | 0,106 | 0,067 |
| 710011 | 20,0 | 15,0 | 1,2 | 4,0 | 2,0 | 0,6 | 2,0 | 0,505 | 24 | 0,144 | 0,091 |
| 710012 | 20,0 | 15,0 | 1,5 | 5,0 | 2,0 | 0,75 | 2,5 | 0,651 | 24 | 0,186 | 0,117 |
| 710013 | 20,0 | 15,0 | 2,0 | 5,0 | 2,0 | 0,75 | 2,5 | 0,812 | 24 | 0,231 | Of 0.146 |
| 710017 | 20,0 | 20,0 | 1,5 | 3,5 | 1,5 | 0,75 | 1,75 | 0,634 | 28 | Of 0, 181 | 0,114 |
| 710020 | 23,0 | 13,0 | 1,2 | 4,0 | 2,0 | 0,6 | 2,0 | 0,517 | 26 | 0,147 | 0,093 |
| 710022 | 25,0 | 18,0 | 1,5 | 5,0 | 2,0 | 0,75 | 2,5 | 0,771 | 29 | 0,220 | 0,139 |
| 710023 | 25,0 | 18,0 | 1,8 | 5,0 | 2,0 | 0,9 | 2,5 | 0,876 | 29 | 0,250 | 0,158 |
| 710025 | 25,0 | 20,0 | 2,0 | 6,0 | 2,0 | 1,0 | 3,0 | 1,061 | 30 | 0,302 | 0,191 |
| 710027 | 25,0 | 25,0 | 2,5 | 6,5 | 2,5 | 1,25 | 3,0 | 1,348 | 33 | 0,384 | 0,243 |
| 710031 | 29,0 | 28,0 | 2,0 | 6,0 | 3,0 | - | 3,0 | 1,303 | 39 | 0,371 | 0,235 |
| 710054 | 30,0 | 16,0 | 2,0 | 6,0 | 2,0 | - | 3,0 | 1,091 | 33 | 0,311 | 0,196 |
| 710033 | 30,0 | 20,0 | 1,5 | 5,0 | 2,0 | 0,75 | 2,5 | 0,876 | 35 | 0,250 | 0,158 |
| 710034 | 30,0 | 20,0 | 2,0 | 6,0 | 2,0 | 1,0 | 3,0 | 1,161 | 35 | 0,331 | 0,209 |
| 710036 | 32,0 | 25,0 | 2,5 | 6,5 | 2,0 | 1,25 | 3,0 | 1,520 | 40 | 0,433 | 0,274 |
| 710037 | 35,0 | 20,0 | 2,0 | 6,0 | 2,0 | 1,0 | 3,0 | 1,261 | 40 | 0,359 | 0,227 |
| 710039 | 40,0 | 25,0 | 2,5 | 7,0 | 2,5 | 1,25 | 3,5 | 1,825 | 45 | 0,520 | 0,329 |
| 710041 | 48,5 | 30,0 | 2,5 | 10,0 | 2,5 | 1,25 | 2,5 | 2,450 | 57 | 0,698 | 0,441 |
| 710042 | 50,0 | 25,0 | 3,0 | 10,0 | 3,0 | 1,5 | 9,0 | 2,784 | 55 | 0,793 | 0,501 |
| 710043 | 50,0 | 30,0 | 4,0 | 10,0 | 4,0 | 2,0 | 5,0 | 3,533 | 57 | 1,007 | 0,636 |
| 710045 | 60,0 | 28,0 | 3,5 | 12,0 | 3,5 | 1,75 | 11,0 | 3,875 | 64 | 1,104 | 0,698 |
| 710046 | 65,0 | 40,0 | 5,0 | 12,0 | 5,0 | 2,5 | 6,0 | 5,687 | 76 | 1,621 | 1,024 |
| 710047 | 75,0 | 30,0 | 4,0 | 14,0 | 4,0 | 2,0 | 13,0 | 5,302 | 79 | 1,511 | 0,954 |
| 710048 | 75,0 | 40,0 | 6,0 | 15,0 | 6,0 | 3,0 | 7,5 | 7,650 | 85 | 2,180 | 1,377 |
| 710049 | 90,0 | 35,0 | 4,5 | 16,0 | 4,5 | 2,25 | 15,0 | 7,093 | 93 | 2,021 | 1,277 |
Note — the values of the radius | |||||||||||
3.2 Theoretical weight of 1 m of the profile of the aluminum alloys is calculated based on nominal sizes at a density of 2.85 g/cm, which corresponds to the density of the aluminum alloy V95 brand.
Theoretical weight of 1 m of the profile from magnesium alloys is calculated based on nominal sizes at a density of 1.80 g/cm, which corresponds to the density of the magnesium alloy MA14 brand.
3.3 Conversion factors for calculating the approximate theoretical weight of 1 m of profile aluminium and aluminium alloys is given in table A. 1 of Annex A.
Conversion factors to calculate the approximate theoretical weight of 1 m of profile of magnesium alloys are presented in table B. 1 of Annex B.
3.4 numbers corresponding profiles previously existing designations are given in table B. 1 of Annex B.
Annex a (informative). CONVERSION FACTORS TO CALCULATE THE APPROXIMATE THEORETICAL WEIGHT OF 1 M OF PROFILE ALUMINIUM AND ALUMINIUM ALLOYS
APPENDIX A
(reference)
Conversion factor for profile of aluminum of all grades 0,950.
Table A. 1 — Conversion factors for calculating the approximate theoretical weight of 1 m of aluminium alloy sections of
| Grade | The conversion factor |
| AMC | 0,958 |
| AMCs | 0,958 |
| Amg2 | 0,940 |
| Amg3 | 0,937 |
| AMg5 | 0,930 |
| AMg6 | 0,926 |
| 1561 | 0,930 |
| D1 | 0,982 |
| D16 | 0,976 |
| D16ch | 0,976 |
| D19ch | 0,968 |
| D20 | 0,996 |
| AV | 0,947 |
| ВАД1 | 0,968 |
| K48−2 | 0,972 |
| K48−2пч | 0,972 |
| AD31 | 0,950 |
| AD33 | 0,951 |
| AD35 | 0,954 |
| 1161 | 0,972 |
| 1163 | 0,975 |
| 1915 | 0,972 |
| 1920 | 0,954 |
| 1925 | 0,972 |
| 1935 | 0,977 |
| 1985ч | 0,948 |
| 1973 | 1,000 |
| 1980 | 0,968 |
| VD1 | 0,982 |
| AVD1−1 | 0,982 |
| AKM | 0,970 |
| M40 | Of 0.965 |
| AK4 | 0,970 |
| AK6 | 0,962 |
| AD31E | 0,950 |
| AK4−1 | 0,982 |
| AK4−1ch | 0,982 |
| ВД17 | Of 0.965 |
| 1420 | 0,867 |
ANNEX B (reference). CONVERSION FACTORS TO CALCULATE THE APPROXIMATE THEORETICAL WEIGHT OF 1 M OF THE PROFILE FROM MAGNESIUM ALLOYS
APPENDIX B
(reference)
Table B. 1
| Grade | The conversion factor |
| MA1 |
0,978 |
| MA2 |
0,989 |
| MA2−1 |
0,990 |
| MA2−1pch |
0,990 |
| МА8 |
0,989 |
| MA12 |
0,989 |
ANNEX b (informative). NUMBERS CORRESPONDING PROFILES PREVIOUSLY EXISTING SYMBOLS
THE APP
(reference)
Table B. 1
| Profile number |
Designation of the profile in the catalog 1966 |
Designation of the profile according to the drawings of the manufacturer |
| 710002 | P 6500−4 | PR 102−1 |
| 710003 | P 6500−6 | PC 111−6, PP 26−10 |
| 710004 | P 6500−8 | 1798 PW, PP 26−9, 506, PC 111−5 |
| 710005 | P 6500−10 | PP 26−8, PC 111−4 |
| 710006 | P 6500−12 | PR 102−30, 26−2 PP, PS 13−4 |
| 710007 | P 6500−14 | NP 1231−1, 470 |
| 710010 | P 6500−20 | PR 102−2 |
| 710011 | P 6500−22 | PR 102−35 |
| 710012 | P 6500−24 | PR 102−3, NP-223−1 |
| 710013 | P 6500−26 | PS 13−8, 1385 |
| 710017 | P 6500−30 | PR 102−31 |
| 710020 | P 6500−36 | PR 102−4 |
| 710022 | P 6500−38 | PR 102−5 |
| 710023 | P 6500−40 | PR 102−6 |
| 710025 | P 6500−42 | 102−7 PR, PR 102−7A |
| 710027 | P 6500−44 | PR 102−32 |
| 710031 | - | PC 17600 |
| 710033 | P 6500−54 | 102−8 PR, PR 102−8A |
| 710034 | P 6500−56 | PR 102−9 |
| 710036 | P 6500−60 | PP 26−6, 102−34 PR, PR 102−34A, PS 13−7 |
| 710037 | P 6500−62 | 102−10 PR, PR 102−10A |
| 710039 | P 6500−66 | PR 102−11 |
| 710041 | P 6500−68 | PR 102−19 |
| 710042 | P 6500−70 | PR 102−20 |
| 710043 | P 6500−72 | PR 102−12 |
| 710045 | P 6500−74 | PR 102−21 |
| 710046 | P 6500−76 | PC 0621, PR 102−13 |
| 710047 | P 6500−78 | PR 102−22 |
| 710048 | P 6500−80 | PR 102−14 |
| 710049 | P 6500−82 | PR 102−23 |
| 710053 | - | SINCE 1914, PC OF 18,351 |
