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Rebar Home Depot Inventory | 12mm-20mm Deformed Steel Prime
Rebar Home Depot Inventory | 12mm-20mm Deformed Steel Prime
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Rebar Home Depot Inventory | 12mm-20mm Deformed Steel Prime Product Details
Product Specifications
| Attribute | Details |
|---|---|
| Available Diameters | 12mm, 14mm, 16mm, 18mm, 20mm (Compliant with ASTM A615, BS4449:2005, and HRB500E grades) |
| Lengths | 6m, 12m (Custom cuts up to 18m; compatible with rebar stirrups for reinforced structures) |
| Material Grades | HRB500E (High-Strength Deformed Bar), Stainless Steel (AISI 304/316) |
| Hardness (HV) | 350-450 HV (HRB500E), 300-350 HV (Stainless Steel) |
| Surface Finish | Deformed ribs (ISO-compliant for optimal concrete bonding), Plain (for welding or machining) |
| Packaging | 50-bar bundles (12-20mm), 3-tonne pallets, or custom packaging for rebar tie wire kits |
Mechanical & Physical Properties
Tensile Strength
Our rebar weight calculations align with global standards for structural integrity:
- HRB500E (Deformed Bar): Yield strength ≥ 500 MPa, Tensile strength ≥ 540 MPa. Designed for high-stress environments like bridges and seismic zones.
- Stainless Steel (AISI 304/316): Yield strength ≥ 200 MPa (304) and ≥ 500 MPa (316). Combines corrosion resistance with strength for marine or chemical-heavy projects.
Bendability
Rebars maintain structural integrity even under extreme bending. For applications requiring precise angles (e.g., rebar stirrups in columns), HRB500E bars can be cold-bent up to 180° without cracking. Use hydraulic rebar tie wire tools to secure bends and ensure alignment during concrete pouring.
Identification & Marking
Each rebar is stamped with:
- Grade (e.g., HRB500E, AISI 304/316).
- Manufacturer Code (traceability for quality assurance).
- Diameter (e.g., 20mm).
- Seismic Compliance (“E” marking for earthquake-resistant designs).
Weight Calculation Formula
Calculate rebar weight using the industry-standard formula:
Where = diameter (mm).
Example: 20mm rebar = .
For quick reference, use a rebar weight table or online calculator.
Why Stainless Steel Rebar Resists Rust?
Stainless steel’s rust resistance is due to a chromium-rich oxide layer (12-30% Cr) that self-repairs when damaged. Common rust triggers in non-stainless rebars include:
- Chloride Exposure: Coastal environments or de-icing salts accelerate oxidation in carbon steel.
- Electrochemical Corrosion: Contact with dissimilar metals (e.g., aluminum) in damp conditions creates galvanic cells.
- Thermal Stress: Extreme temperature fluctuations weaken carbon steel’s protective coatings.
Prevention Tip: Pair stainless steel rebars with rebar tie wire made of galvanized or plastic-coated steel to minimize corrosion risks.
Why Choose Our Stainless Steel Rebar?
- Unmatched Corrosion Resistance: Ideal for coastal infrastructure, wastewater plants, and rebar stirrups in humid environments.
- Long-Term Cost Efficiency: Reduced maintenance and replacement costs over 50+ years.
- Seismic Resilience: AISI 316 grades exceed 10% elongation, absorbing shock in earthquake zones.
- Sustainability: 100% recyclable with a lower carbon footprint compared to frequent carbon steel replacements.
- Certified Quality: Batch-specific test certificates ensure compliance with ASTM, ISO, and BS standards.
