Z Tuesday Weight Table
| Item | Description | Model | Weight (kg/m) | Weight (lb/ft) |
| 1 | Cold Bending Z Section Steel | Z80×40×2.5 | 2,947 | 1980 |
| two | Cold Bending Z Section Steel | Z80×40×3.0 | 3,491 | 2,346 |
| 3 | Cold Bending Z Section Steel | Z100×50×2.5 | 3,732 | 2,508 |
| 4 | Cold Bending Z Section Steel | Z100×50×3.0 | 4,432 | 2,978 |
| 5 | Z Purlin Cold Bend Steel | Z100×40×20×2.0 | 3,208 | 2,156 |
| 6 | Z Purlin Cold Bend Steel | Z100×40×20×2.5 | 3,932 | 2,642 |
| 7 | Z Purlin Cold Bend Steel | Z120×50×20×2.0 | 3,835 | 2,577 |
| 8 | Z Purlin Cold Bend Steel | Z120×50×20×2.5 | 4,718 | 3,170 |
| 9 | Z Purlin Cold Bend Steel | Z120×50×20×3.0 | 5,569 | 3,742 |
| 10 | Z Purlin Cold Bend Steel | Z140×50×20×2.5 | 5.11 | 3,434 |
| 11 | Z Purlin Cold Bend Steel | Z140×50×20×3.0 | 6.04 | 4,059 |
| 12 | Z Purlin Cold Bend Steel | Z160×60×20×2.5 | 5,895 | 3,961 |
| 13 | Z Purlin Cold Bend Steel | Z160×60×20×3.0 | 6,982 | 4,692 |
| 14 | Z Purlin Cold Bend Steel | Z160×70×20×2.5 | 6,288 | 4,225 |
| 15 | Z Purlin Cold Bend Steel | Z160×70×20×3.0 | 7,453 | 5,008 |
| 16 | Z Purlin Cold Bend Steel | Z180×70×20×2.5 | 6,679 | 4,488 |
| 17 | Z Purlin Cold Bend Steel | Z180×70×20×3.0 | 7,924 | 5,325 |
| 18 | Z Purlin Cold Bend Steel | Z200×70×20×2.5 | 7,073 | 4,753 |
| 19 | Z Purlin Cold Bend Steel | Z200×70×20×3.0 | 8,394 | 5,641 |
| 20 | Z Purlin Cold Bend Steel | Z230×75×25×3.0 | 9,573 | 6,433 |
| 21 | Z Purlin Cold Bend Steel | Z230×75×25×4.0 | 12.51 | 8,406 |
| 22 | Z Purlin Cold Bend Steel | Z250×75×25×3.0 | 10.04 | 6,747 |
| 23 | Z Purlin Cold Bend Steel | Z250×75×25×4.0 | 13.14 | 8,830 |
What factors affect the weight of Z purlins in practical applications?
Factors that influence the weight of Z purlins in practical applications mainly include raw material specifications, material type, place of origin and number of galvanizing layers.
Firstly, raw material specifications directly impact the cross-sectional size and weight of the purlins. For example, Z purlins of different thicknesses and widths will have varying weights.
Secondly, the type of material, such as high-strength steel or common carbon steel, also affects the weight of the purlins, as different materials have different densities and strengths. Furthermore, the place of origin can impact the cost and quality of the material, affecting the production cost and final weight of the purlins.
Lastly, the number of galvanizing layers is also a significant factor, as galvanizing can increase the corrosion resistance of steel, but it also increases the weight of the material.
The weight of Z purlins is influenced by several factors, including but not limited to raw material specifications, material type, location of origin and number of galvanizing layers.
What is Z section steel?
Z-section steel is a widely used type of cold-formed, thin-walled section steel with thickness ranging from 1.6 to 3.0 mm and section height from 120 to 350 mm.
It is manufactured from hot-rolled (painted) and galvanized materials and is often used in large metal structure factories.
Processing length and holes can be customized to meet specific requirements.
Main uses of Z section steel:
Cold-formed Z-shaped steel is popularly used for a wide range of applications due to its high compressive strength and adjustable specifications and sizes.
It is the preferred choice in many areas, including automobiles, railway vehicles, construction doors and windows, transportation, shelving, electrical cabinets, highway guardrails, steel structure construction, containers, steel jigs and scaffolding, power supports solar, shipbuilding, bridges, power transmission towers, steel sheet piling, cable trays, agriculture, furniture, storage, guide rails, keel steel, duct support for vegetable greenhouses and in various municipal works.
