GOST 13619-97
GOST 13619−97 the extruded rectangular shaped Profiles Zeta-section of aluminum, aluminum and magnesium alloys. Assortment
GOST 13619−97
Group В52
INTERSTATE STANDARD
EXTRUDED RECTANGULAR SHAPED
ZETA-SECTION OF ALUMINUM, ALUMINUM
AND MAGNESIUM ALLOYS
Assortment
Extruded rectangular Z-section shapes of aluminium,
aluminium and magnesium alloys. Dimensions
GST 18 1140
ISS 77.140.90
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 |
| Georgia | Gosstandart |
| The Republic Of Kazakhstan | Gosstandart Of The Republic Of Kazakhstan |
| Kyrgyz Republic | Kyrgyzstandart |
| The Republic Of Moldova | Moldovastandart |
| 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 13619−97 introduced directly as state standard of the Russian Federation from January 1, 1999
4 REPLACE GOST 13619−81
1 SCOPE
This standard specifies the gauge extruded rectangular shaped profiles Zeta-section of aluminum, aluminum 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 table 1.
Fig. 1
Fig. 1
Table 1 — Numbers of profiles, sizes and theoretical mass
| Dimensions, mm | Theoretical weight of 1 m of alloy, kg | ||||||||||
| Profile number | The cross-sectional area, cm |
Diameter of circumscribed circle, mm | aluminum — Navaho | the magnesium model | |||||||
| 450361 | 16 | 13 | 1,0 | 0,8 | 2,0 | 1,2 | 1,2 | 0,427 | 30 | 0,122 |
0,077 |
| 450362 | 16 | 13 | 1,3 | 0,8 | 2,0 | 1,2 | 1,2 | 0,534 | 30 | Of 0.152 | 0,096 |
| 450363 | 20 | 15 | 1,5 | 2,5 | 6,0 | 2,0 | 2,0 | 0,952 | 35 | 0,271 | 0,174 |
| 450364 | 25 | 20 | 1,5 | 2,5 | 7,0 | 2,0 | 2,0 | 1,227 | 46 | 0,350 | 0,221 |
| 450365 | 25 | 20 | 1,6 | 2,5 | 7,0 | 2,5 | 1,2 | 1,264 | 46 | 0,360 | 0,228 |
| 450366 | 25 | 20 | 1,8 | 3,0 | 7,0 | 2,0 | 2,0 | 1,432 | 46 | 0,408 | 0,258 |
| 450367 | 25 | 20 | 2,0 | 3,0 | 7,0 | 2,5 | 2,5 | 1,554 | 46 | 0,443 | 0,280 |
| 450368 | 29 | 21 | 1,5 | 1,6 | 5,0 | 2,4 | 2,4 | 1,176 | 50 | 0,335 | Of 0.212 |
| 450369 | 30 | 25 | 2,0 | 3,0 | 7,0 | 2,5 | 2,5 | 1,854 | 57 | 0,528 which | 0,334 |
| 450370 | 32 | 22 | 1,8 | 1,8 | 5,0 | 2,4 | 2,4 | 1,461 | 53 | 0,416 | Of 0.263 |
| 450371 | 35 | 30 | 2,0 | 3,0 | 8,0 | 2,5 | 2,5 | 2,214 | 68 | 0,631 | 0,400 |
| 450382 | 40 | 35 | 4,0 | 2,5 | 10,0 | 4,0 | 4,0 | 4,000 | 80 | 1,140 | 0,720 |
| 450372 | 60 | 23 | 1,8 | 1,8 | 9,0 | 2,0 | 2,0 | 2,137 | 75 | 0,609 | 0,385 |
| 450373 | 60 | 23 | 1,8 | 1,8 | 10,0 | 3,0 | 3,0 | 2,216 | 75 | 0,631 | 0,400 |
| 450374 | 70 | 20 | 1,5 | 1,5 | 8,0 | 5,0 | 5,0 | 1,652 | 80 | 0,471 | 0,297 |
| 450375 | 140 | 60 | 6,0 | 14,0 | 20,0 | 2,0 | 2,0 | 18,800 | 181 | 5,358 | 3,384 |
| |||||||||||
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 the Conversion factors for calculating approximations to the theoretical mass of 1 m of profile of aluminium and magnesium alloys is given in appendices A and B.
3.4 profile Numbers corresponding to the previous designations are given in Appendix B.
Annex a (informative). CONVERSION FACTORS TO CALCULATE THE APPROXIMATE THEORETICAL WEIGHT OF 1 M OF PROFILE ALUMINIUM AND ALUMINIUM ALLOYS
APPENDIX A
(reference)
| For aluminum of all grades | — 0,950 | |
| For alloy grade | AMC | — 0,958 |
| The same | AMCs | — 0,958 |
| » | Amg2 | — 0,940 |
| " | Amgs | — 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 |
| " | To 48−2 | — 0,972 |
| " | 48 2пч | — 0,972 |
| " | AD31 | — 0,950 |
| " | AD33 | — 0,951 |
| " | AD35 | — 0,954 |
| " | 1915 | — 0,972 |
| " | 1920 | — 0,954 |
| " | 1925 | — 0,972 |
| " | 1935 | — 0,977 |
| " | 1985пч | — 0,948 |
| " | 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 |
| " | 1161 | — 0,972 |
| " | 1163 | — 0,975 |
| " | 1973 | — 1,000 |
| " | 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)
| For alloy grade | MA1 | — 0,978 |
| The same | 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 DESIGNATIONS
THE APP
(reference)
Profile number |
Designation of the profile in the catalog 1966 |
Designation of the profile according to the drawings |
| 450361 | П510−2 | ПР104−10 |
| 450362 | П510−4 | ПР104−6 |
| 450363 | П510−6 | ПР104−1 |
| 450364 | П510−8 | ПР104−2 |
| 450365 | П510−10 | ПП51−1, ПС157 |
| 450366 | П510−12 | ПР104−3 |
| 450367 | П510−14 | ПР104−4 |
| 450368 | П510−16 | PC-210−1, ПП51−5 |
| 450369 | П510−18 | ПР104−5 |
| 450370 | П510−20 | ПК210−2, ПП51−6, ПС157−2 |
| 450371 | П510−22 | ПР104−11 |
| 450372 | П510−23 | ПС885−396, ПК210−3 |
| 450373 | П510−24 | С54А |
| 450374 | П512 | ПК210−4 |
| 450375 | - |
ПК17512 |
| 450382 | - |
ПК18459 |
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