Specifications of Galvanized I beam
1. Invoicing on theoretical weight or actual weight as customer request
2. Length: 6m, 12m as following table
3. Connection of steel structure method: Welding, Bolted
Surface treatment: Painting, Galvanized
Roof &Wall System Sheet: colored steel tiles or colored steel sandwich panel per request
Doors: Roller or Common, as request
4. Quality standard
Certification: ISO9001:2000, SGS Standard
Code for design of steel structure: GB 50017-2003
Technical code of cold-formed thin-wall steel structure: GB50018-2002
Load code for the design of building structures. GB 50009-2006
Construction quality acceptance of steel: GB50205-2001
Code for design, construction and acceptance of high strength for steel structure, JGJ82-91
Technical specification for welding of steel structure building: JGJ 81-2002
Technical specification for steel Structures of tall buildings: (JGJ99-98)
Specifications for processing of steel structure: DBJ 08-216-1995
Specifications for design and construction of steel panel: YBJ 216-88
5.Size of MS Galvanized Steel I Beam
Style | Size | Theoretical Weight(kg/m) | Style | Size | Theoretical Weight(kg/m) |
10 | 100*68*4.5 | 11.261 | 32b | 32*132*11.5 | 57.741 |
12 | 120*74*5 | 13.987 | 32c | 320*134*13.5 | 62.765 |
14 | 140*80*5.5 | 16.890 | 36a | 360*136*10 | 60.037 |
16 | 160*88*6 | 20.513 | 36b | 360*138*12 | 65.689 |
18 | 180*94*6.5 | 24.143 | 36c | 360*140*14 | 71.341 |
20a | 200*100*7 | 27.929 | 40a | 400*142*10.5 | 67.598 |
20b | 200*102*9 | 31.069 | 40b | 400*144*12.5 | 73.878 |
22a | 220*110*7.5 | 33.070 | 40c | 400*146*14.5 | 80.158 |
22b | 220*112*9.5 | 36.524 | 45a | 450*150*11.5 | 80.420 |
25a | 250*116*8 | 38.105 | 45b | 450*152*13.5 | 87.485 |
25b | 250*118*10 | 42.030 | 45c | 450*154*15.5 | 94.55 |
28a | 280*122*8.5 | 43.492 | 56a | 560*166*12.5 | 106.316 |
28b | 280*124*10.5 | 47.888 | 56b | 560*168*14.5 | 115.108 |
30a | 300*126*9 | 48.084 | 56c | 560*170*16.5 | 123.900 |
30b | 300*128*11 | 52.794 | 63a | 630*176*13 | 121.407 |
30c | 300*130*13 | 57.504 | 63b | 630*178*15 | 131.298 |
32a | 320*130*9.5 | 52.717 | 63c | 630*180*17 | 141.189 |
Usage & Applications of Galvanized I beam
(1).used for the plant, high-rise building construction
(2).used for the bridge, shipment building
(3).used for lifting and transportation machinery, equipment manufacturing base building
(4).used for the support, foundation pile manufacturing
Packaging & Delivery of Galvanized I beam
1. Packing: it is nude packed in bundles by steel wire rod
2. Bundle weight: not more than 3.5MT for bulk vessel; less than 3 MT for container load
3. Marks:
Color marking: There will be color marking on both end of the bundle for the cargo delivered by bulk vessel. That makes it easily to distinguish at the destination port.
Tag mark: there will be tag mark tied up on the bundles. The information usually including supplier logo and name, product name, made in
If loading by container the marking is not needed, but we will prepare it as customer request.
4. Transportation: the goods are delivered by truck from mill to loading port, the maximum quantity can be loaded is around 40MTs by each truck. If the order quantity cannot reach the full truck loaded, the transportation cost per ton will be little higher than full load.
5. Delivered by container or bulk vessel
Production flow of Galvanized I beam
Further performance and design information for galvanizing can be found in BS EN ISO 14713-1 AND BS EN ISO 14713-2. The durability performance of a galvanized coating depends solely on the corrosion rate of the environment in which it is placed. Corrosion rates for different environments can be found in BS EN ISO 14713-1 where typical corrosion rates are given with a description of the environment in which the steel would be used.
The process of hot-dip galvanizing results in a metallurgical bond between zinc and steel with a series of distinct iron-zinc alloys. The resulting coated steel can be used in much the same way as uncoated.
A typical hot-dip galvanizing line operates as follows:
Steel is cleaned using a caustic solution. This removes oil/grease, dirt, and paint.
The caustic cleaning solution is rinsed off.
The steel is pickled in an acidic solution to remove mill scale.
The pickling solution is rinsed off.
