If you’re searching for a reliablemedium-carbon steel for tools, mata air, or blades, Aisi 1055 keluli (also known as UNS G10550 or SAE 1055) is a top choice. Iniplain-carbon steel has a balanced mix of strength, Kemuluran, and affordability, making it popular across industries like automotive, construction, and metalworking. Dalam panduan ini, we’ll break down everything you need to know—from its chemical makeup to real-world applications.
1. What Is 1055 Keluli? An Overview
Aisi 1055 keluli is anon-alloy steel grade defined by its carbon content: Tepat 0.55% (with a range of 0.50–0.60%). Unlike alloy steels that add elements like chromium or nickel, thisplain-carbon steel relies on carbon and small amounts of other elements to deliver performance.
Key identifiers for 1055 steel include:
- SAE 1055: The Society of Automotive Engineers (SAE) designation.
- UNS G10550: The Unified Numbering System code for global recognition.
- Medium-carbon classification: Places it between low-carbon (lebih lembut, more ductile) and high-carbon (lebih sukar, less ductile) steels, striking a practical balance.
Contohnya, a knife manufacturer might choose 1055 over a high-carbon 1095 steel because it’s easier to sharpen while still holding a decent edge—ideal for everyday carry (EDC) knives.
2. Chemical Composition of 1055 Keluli
The performance of 1055 steel starts with its precise chemical mix. Below is a table of itsladle analysis (measured during production) and maximum limits, based on industry standards like ASTM A29.
| Elemen | Julat Kandungan | Role |
|---|---|---|
| Karbon (C) | 0.50–0.60% | The main hardening element; 0.55% gives 1055 its strength without excessive brittleness. |
| Mangan (Mn) | 0.60–0.90% | Improves hardenability and reduces brittleness during heat treatment. |
| Silikon (Dan) | 0.15–0.35% | Boosts strength and resistance to oxidation at high temperatures. |
| Phosphorus (P) | ≤ 0.040% | Controlled to avoid brittleness (higher P makes steel more prone to cracking). |
| Sulfur (S) | ≤ 0.050% | Limits are strict—too much S hurts ductility and weldability. |
When purchasing 1055 keluli, always ask for aheat analysis certificate to confirm these values. This ensures the material meets your project’s requirements, like a spring manufacturer needing consistent carbon levels for reliable performance.
3. Mekanikal & Physical Properties of 1055 Keluli
1055 steel’s properties make it versatile—strong enough for load-bearing parts but flexible enough for fabrication. Here’s a breakdown of its keymechanical and physical properties:
Sifat mekanikal (As Annealed)
- Kekuatan tegangan: 640–760 MPa (ability to resist pulling forces). For context, a 10mm 1055 steel bar can hold up to 47,700 kg before breaking.
- Kekuatan hasil: 350–450 MPa (stress at which the steel starts to deform permanently).
- Pemanjangan: 18–22% (how much it stretches before breaking—higher than high-carbon steels, making it easier to bend).
- Kekerasan: 179–229 HB (Brinell Hardness). This is softer than a file (which is ~60 HRC) but harder than low-carbon 1018 keluli (~131 HB).
Sifat fizikal
- Ketumpatan: 7.85 g/cm³ (same as most steels—about 7.8 times denser than water).
- Modulus of elasticity: 200 GPa (stiffness—how much it bends under stress; useful for springs).
- Poisson ratio: 0.29 (measures how much the steel shrinks sideways when stretched—standard for steels).
Contoh dunia nyata: Automotive manufacturers use 1055 steel forleaf springs because its high tensile strength and modulus of elasticity let it absorb road shocks without permanent damage.
4. Rawatan haba & Hardenability of 1055 Keluli
To unlock 1055 steel’s full potential, rawatan haba adalah kritikal. It adjusts hardness, kekuatan, and ductility for specific uses. Here are the key processes:
- Normalizing: Heat to 845 ° C. (1553 ° f), then cool in air. This refines the grain structure, making the steel more uniform for machining.
- Full annealing: Heat to 790 ° C. (1454 ° f), cool slowly in a furnace. Reduces hardness (to ~179 HB) for easy cutting or bending.
- Quench & Temper: The most common process for tools/blades:
- Austenitizing: Heat to 820 ° C. (1508 ° f) to soften the steel.
- Pelindapkejutan: Cool quickly in oil or water. This hardens the steel to ~58 HRC (hard enough for knife blades).
- Pembiakan: Reheat to 400–650 °C (752–1202 °F) to reduce brittleness. Contohnya, tempering at 500 °C gives a balance of hardness (~50 HRC) and toughness for chisels.
Hardenability: 1055 steel has moderate hardenability—meaning it hardens well up to a certain depth (seen in itsJominy curve). It’s not as hardenable as alloy steels like 4140, but it works for parts under 25mm thick.
5. Kebolehkerjaan & Fabrication Tips for 1055 Keluli
Working with 1055 steel is manageable, but its carbon content affects how easy it is to cut or weld.
Kebolehkerjaan
- Machinability rating: 55% (berbanding dengan 1018 keluli, yang 100%). This means it takes 55% more time to machine than 1018.
- Tips for machining:
- Use high-speed steel (HSS) or carbide tools.
- Ikuti cutting speed recommendations: 15–25 m/min for turning (slower than low-carbon steels).
- Use coolants to control heat and improve chip control (prevents chips from clogging tools).
Fabrikasi
- Kimpalan: Requires preheat 150–300 °C (302–572 °F) untuk mengelakkan retak. After welding, gunakan Rawatan haba pasca kimpalan (like annealing) untuk mengurangkan tekanan.
- Menunaikan: Has a forgeability rating of 75% (good for shaping into tools like hammers or swords). Heat to 1100–1200 °C (2012–2192 °F) Untuk hasil terbaik.
A metalworker making a custom sword might forge 1055 steel at 1150 ° C., then quench and temper it to 55 HRC for a sharp, durable edge.
6. Common Applications of 1055 Keluli
1055 steel’s balance of strength and ductility makes it useful in many areas. Inilah yang paling biasaaplikasi:
- Alat: Hammers, chisels, alat tangan (needs hardness from quenching).
- Bilah: Mower blades, knives, swords (balances edge retention and sharpness).
- Springs: Automotive leaf springs, industrial springs (high modulus of elasticity).
- Automotive/Railroad: Clutch plates, railroad components (tensile strength resists wear).
- Yang lain: Wire ropes (high strength and ductility to handle heavy loads).
Contohnya, a lawnmower manufacturer uses 1055 steel blades because they stay sharp longer than low-carbon blades and don’t break easily when hitting rocks.
7. Borang produk & Standards for 1055 Keluli
1055 steel is available in various forms to fit different projects. It also adheres to strict industry standards to ensure quality:
Borang produk
- Hot-rolled bar (for forging or machining).
- Cold-finished bar (smoother surface for precision parts).
- Forging billet (large pieces for shaping into tools).
- Wire rod (for making wire ropes or springs).
- Sheet/plate (for fabricating components like clutch plates).
Key Standards
- ASTM A29: Covers hot-rolled and cold-finished carbon steel bars.
- SAE J403: Defines chemical compositions for SAE carbon steels.
- AMS 5085: Aerospace Material Specification (for high-quality 1055 steel in aircraft parts).
When buying, check themill test report (MTR) dandimensional tolerances (Mis., a cold-finished bar might have a tolerance of ±0.1mm for diameter).
8. Rintangan kakisan & Protective Coatings
1055 steel is not stainless—it will rust if exposed to moisture. To protect it, use thesecoatings:
- Oil quench rust prevention: A light oil coating (common for tools stored indoors).
- Phosphate coating: Creates a porous layer that bonds with paint (used for automotive parts).
- Black oxide: Gives a dark finish that resists minor corrosion (for knives or tools).
- Paint adhesion: Paint works well with 1055 keluli (use a primer first).
Batasan: Galvanizing (zinc coating) is not ideal for 1055 steel—high carbon content can cause brittleness during the galvanizing process. For outdoor use (like railroad components), paint or phosphate coating is better.
9. 1055 Steel vs. Other Steels: A Comparison
How does 1055 steel stack up against similar grades? Inilah perbandingan pantas:
| Gred keluli | Key Difference vs. 1055 | Terbaik untuk |
|---|---|---|
| 1045 Keluli | Lower carbon (0.45%), lebih lembut (156–217 HB). | Machined parts (easier to cut than 1055). |
| 1060 Keluli | Higher carbon (0.60%), betteredge retention. | Knives/swords (sharper but more brittle). |
| 4140 Keluli aloi | Has chromium/molybdenum, betterhardenability. | Bahagian tekanan tinggi (Mis., gear, aci). |
| 420 Keluli tahan karat | Tahan karat (resists rust), but lower hardness (~50 HRC). | Food-grade blades (needs corrosion resistance). |
Kos: 1055 steel is affordable—usually $1–$3 per pound, cheaper than 4140 ($3–$5/lb) atau 420 ($4–$6/lb).
Yigu Technology’s Perspective on 1055 Keluli
Di Yigu Technology, Kami mengesyorkan 1055 steel for clients needing a cost-effective, versatile medium-carbon steel. Its balance of strength and machinability makes it ideal for custom tools, mata air, and blades—we often use it for automotive leaf spring prototypes, where its modulus of elasticity meets performance needs without the high cost of alloy steels. For outdoor applications, we pair it with phosphate coating to boost corrosion resistance. While it’s not stainless, its affordability and reliability make it a top pick for most non-corrosive environments.
FAQ About 1055 Keluli
- Adalah 1055 steel good for knives?
Yes—1055 steel balances edge retention and sharpness. It’s easier to sharpen than high-carbon 1095 and more durable than low-carbon 1018, making it great for EDC knives or mower blades. - Can 1055 steel be welded?
Ya, but it requires preheating to 150–300 °C and post-weld heat treatment to avoid cracking. Use low-hydrogen electrodes for best results. - How does 1055 steel compare to 1060 keluli?
1060 steel has more carbon (0.60% vs. 0.55%), so it holds a sharper edge but is more brittle. 1055 is tougher and easier to work with—better for tools that need to withstand impact (like hammers).
