If you’re tackling high-stress projects—like heavy-duty bridges or industrial machinery—you need a structural steel that delivers exceptional strength.ST 60 structural steel is designed for these exact needs, oferecendo um raro equilíbrio de durabilidade, trabalhabilidade, e custo-benefício. Este guia mostra suas principais características, aplicações do mundo real, como é feito, and how it outperforms other materials—so you can confidently choose it for your most demanding projects.
1. Material Properties of ST 60 Aço Estrutural
ST 60’s performance is rooted in its carefully engineered properties. Below is a detailed breakdown of itscomposição química, propriedades físicas, propriedades mecânicas, and other critical characteristics.
Composição Química
ST 60 adheres to EN 10025 padrões, with elements calibrated to maximize strength while maintaining workability. Here’s its typical composition:
| Elemento | Faixa de conteúdo (Peso %) | Key Function |
|---|---|---|
| Carbono (C) contente | 0.24 – 0.30 | Enhances tensile strength and hardness |
| Manganês (Mn) contente | 1.20 – 1.80 | Boosts impact toughness and weldability |
| Silício (E) contente | 0.15 – 0.55 | Improves heat resistance and structural stability |
| Enxofre (S) contente | ≤ 0.045 | Minimized to prevent brittleness in welded joints |
| Fósforo (P) contente | ≤ 0.045 | Limited to avoid cold cracking in low temperatures |
| Alloying elements (Cr, Em) | ≤ 0.30 each | Small additions enhance corrosion resistance and fatigue strength |
Propriedades Físicas
These traits determine how ST 60 behaves in different environments and manufacturing processes:
- Densidade: 7.85 g/cm³ (standard for carbon steels—simplifies weight calculations for structural designs)
- Ponto de fusão: 1,410 – 1,460°C (compatible with high-heat processes like welding and forging)
- Condutividade térmica: 46 C/(m·K) (ideal for applications needing controlled heat transfer, such as industrial furnaces)
- Specific heat capacity: 470 J/(kg·K) (helps manage temperature fluctuations in outdoor structures)
- Coefficient of thermal expansion: 12.5 × 10⁻⁶/°C (20–100ºC)—critical for bridge joints and building frames in seasonal climates
- Electrical resistivity: 0.19 × 10⁻⁶ Ω·m (low conductivity—unsuitable for electrical components)
Propriedades Mecânicas
ST 60’s mechanical strength is its defining feature, making it ideal for heavy-load applications. All values are tested at room temperature:
- Resistência à tracção: 600 – 750 MPa (handles extreme pulling forces—perfect for bridge girders and crane cables)
- Força de rendimento: ≥ 400 MPa (resists permanent deformation under heavy loads, like high-rise building columns)
- Elongation at break: ≥ 16% (stretches before failing—adds safety in dynamic load scenarios, such as wind on bridges)
- Reduction of area: ≥ 35% (shows ductility, allowing it to be formed into complex shapes like pipes)
- Dureza: 185 – 210 Brinell (ou 80 – 85 Rockwell B; 200 – 220 Vickers)—hard enough for industrial use, yet machinable with standard tools
- Resistência ao impacto: ≥ 38 J at -40°C (excels in cold climates—resists sudden shocks from heavy loads or harsh weather)
Outras propriedades
- Resistência à corrosão: Moderado (requires surface treatment like galvanizing for outdoor or wet environments, especially coastal areas)
- Weldability: Bom (works with MIG welding, TIG welding, e arc welding—pre-heating is recommended for thicknesses over 30 mm to prevent cracking)
- Usinabilidade: Justo (its higher hardness means sharp tools are needed, but standard machining equipment still works—no specialized tools required)
- Formabilidade: Moderado (can be bent, rolled, or forged into shapes like I-beams, though more force is needed than for lower-grade steels)
- Fatigue resistance: Alto (handles repeated loads well—ideal for machinery parts like gears and axles that undergo constant stress)
2. Applications of ST 60 Aço Estrutural
ST 60’s high strength makes it a top choice for projects that demand durability. Aqui estão seus usos mais comuns, com exemplos do mundo real:
- Structural frames: Super high-rises (25+ pisos). UM 2024 skyscraper in Dubai used ST 60 for its core frames—supporting 30 floors with minimal material waste.
- Pontes: Long-span bridges (150+ metros). A highway bridge in Canada (2023) used ST 60 girders—its cold-weather impact toughness (-40°C) handles harsh winters.
- Building construction: Heavy-duty columns and trusses. A stadium in Brazil (2023) used ST 60 for its roof trusses—they support the weight of 8,000+ spectators and solar panels.
- Equipamento industrial: Heavy machinery frames. A Chinese factory (2024) installed ST 60 frames for its 1,000-ton hydraulic presses—no signs of stress after 15,000+ ciclos.
- Peças automotivas: Heavy truck and trailer chassis. Um EUA. truck maker uses ST 60 for its 30-ton trucks—its yield strength (≥400 MPa) resists bending under heavy cargo.
- Construção naval: Large cargo ships (20,000+ toneladas). A South Korean shipyard (2023) used ST 60 for a cargo ship’s hull—its weldability speeded up assembly by 30%.
- Mechanical components: High-stress gears and axles. A German tractor manufacturer (2024) switched to ST 60 for gearboxes—extended part life by 50% due to high fatigue resistance.
- Piping systems: Ultra-high-pressure oil and gas pipes. A Saudi Arabian pipeline project (2023) used ST 60 pipes—they handle 20 MPa pressure without leaking.
3. Manufacturing Techniques for ST 60 Aço Estrutural
ST 60 is produced using specialized processes to ensure consistent quality and strength. Aqui está uma análise passo a passo:
- Hot rolling: The primary method. Molten steel is rolled into shapes (pratos, vigas, bares) at 1,180–1,280°C. This aligns the steel’s grains, boosting strength. A mill in Japan produces 800+ tons of ST 60 beams daily via hot rolling.
- Cold rolling: Used for thin sheets (1–4 mm thick). Cold rolling increases hardness by 25–30%—ideal for precision parts like automotive panels.
- Forjamento: For complex, peças de alta resistência (por exemplo, crane hooks, axle shafts). Um EUA. forging shop heats ST 60 to 1,050°C and hammers it into shape—parts handle 80-ton loads.
- Fundição: Rare (casting can create internal defects), but used for large, one-off parts like ship propeller shafts.
- Tratamento térmico:
- Normalizing: Heating to 920–980°C, then cooling in air. Relieves stress—critical for welded structures like bridges.
- Têmpera & têmpera: Used for ultra-high-strength parts. Têmpera (water cooling) hardens ST 60; têmpera (reheating to 600°C) reduces brittleness while maintaining strength.
- Tratamento de superfície:
- Galvanização: Dipping in zinc. Protects ST 60 from corrosion for 35+ years—used for outdoor structures like streetlight poles and bridge railings.
- Pintura: Epoxy or polyurethane paint is common for industrial use—lasts 20+ years in factories and refineries.
- Welding processes: ST 60 works with all standard methods:
- MIG welding: Fast—used for on-site construction (por exemplo, joining bridge beams).
- TIG welding: Precise—ideal for thin sheets (por exemplo, peças automotivas).
- Arc welding: Used for thick plates (por exemplo, quadros de máquinas).
4. Estudo de caso: ST 60 in a Long-Span Bridge Project
Let’s look at a real project to see ST 60’s value: the 200-meter highway bridge in Australia (completed 2024).
- Project Goal: Build a bridge that can handle heavy trucks (até 50 toneladas) and resist extreme heat (up to 45°C) and rain.
- ST 60 Usar: Main girders (1.5sou alto), support columns, and deck plates.
- Why ST 60?: Its tensile strength (600–750 MPa) met the long-span load requirements, and its heat resistance handled the Australian climate.
- Resultados:
- Construction took 18 meses (6 months faster than using alloy steel).
- Material costs were 30% lower than using 4340 liga de aço.
- Post-testing: The bridge withstood a 60-ton load test and extreme heat (48°C) without damage.
5. ST 60 contra. Outros materiais
How does ST 60 compare to other common materials? The table below shows key differences:
| Material | Resistência à tracção (MPa) | Força de rendimento (MPa) | Custo (USD/kg) | Melhor para |
|---|---|---|---|---|
| ST 60 Aço Estrutural | 600–750 | ≥400 | $1.40–$1.80 | Long-span bridges, super high-rises |
| ASTM A36 | 400–550 | ≥250 | $0.90–$1.30 | Low-to-medium load projects |
| S235 | 360–510 | ≥235 | $0.75–$1.10 | Small buildings, sheds |
| 4140 Liga de aço | 655–965 | ≥415 | $2.50–$3.00 | Ultra-high-stress machinery parts |
| 304 Aço inoxidável | 515 | ≥205 | $3.00–$3.50 | Corrosive environments (coastal) |
| 6061 Liga de alumínio | 310 | ≥276 | $2.00–$2.50 | Lightweight parts (aeronave) |
Key takeaway: ST 60 offers near-alloy steel strength at a fraction of the cost—perfect for projects that need durability without overspending.
Yigu Technology’s View on ST 60 Aço Estrutural
Na tecnologia Yigu, ST 60 structural steel is our top recommendation for high-stress, large-scale projects. Its ≥400 MPa yield strength and -40°C impact toughness meet the strictest global standards, while its weldability saves clients time and labor costs. We’ve used ST 60 em 30+ projetos (2022–2024), including long-span bridges in Canada and skyscrapers in Dubai. For clients prioritizing strength, durabilidade, e valor, ST 60 is the unmatched choice.
Perguntas frequentes
- Can ST 60 be used in coastal areas?
Sim, but it needs extra protection. Galvanizing plus a layer of anti-corrosion paint (como poliuretano) will protect ST 60 from saltwater damage for 35+ anos. Without treatment, it may rust within 1–2 years. - Is ST 60 harder to weld than lower-grade steels like ST 52?
Slightly. ST 60’s higher carbon content means pre-heating (150–200ºC) is recommended for thicknesses over 30 mm to prevent cracking. For thinner sections (sob 30 milímetros), no pre-heating is needed—standard welding methods work fine. - What’s the maximum thickness for ST 60 pratos?
ST 60 is available in thicknesses from 1 milímetros (thin sheets) até 400 milímetros (heavy plates). For thicknesses over 150 milímetros, we recommend using arc welding to ensure full penetration and strength.