1. Panimula
17-4 hindi kinakalawang na asero mga bes 316 hindi kinakalawang na asero represent two fundamentally different categories within the hindi kinakalawang na asero Pamilya, each engineered for distinct performance requirements.
17-4, a precipitation-hardening (PH) martensitic stainless steel, is renowned for its exceptional strength, tigas na tigas, and heat treatability, making it well-suited for high-load, precision structural components.
Sa kabilang banda, 316, an austenitic stainless steel, is highly valued for its outstanding corrosion resistance, especially in chloride-rich and marine environments, due to the presence of molybdenum, a feature that supports its widespread use in medical, pagproseso ng pagkain, at industriya ng dagat.
Though both alloys share a common baseline of corrosion resistance thanks to chromium content ≥10.5%, their differing microstructures and alloying chemistries yield significant variations in mechanical strength, thermal katatagan, fabrication behavior, and environmental compatibility.
2. Composition Comparison of 17-4 Stainless Steel vs 316
Chemical composition is one of the fundamental differences between 17-4 at 316 hindi kinakalawang na asero, directly influencing their mechanical behavior, paglaban sa kaagnasan, and response to heat treatment.
| Elemento | 17-4 PH hindi kinakalawang na asero | 316 Hindi kinakalawang na asero | Epekto / Layunin |
| Chromium (Cr) | 15.0–17.5% | 16.0–18.0% | Provides corrosion resistance; forms passive oxide layer |
| Nikel (Ni) | 3.0–5.0% | 10.0–14.0% | Nagpapatatag ng austenite; improves corrosion resistance and toughness |
| Molibdenum (Mo) | — | 2.0–3.0% | Enhances resistance to chlorides and pitting (only in 316) |
| Tanso (Cu) | 3.0–5.0% | — | Enhances precipitation hardening and strength (sa 17-4) |
| Carbon (C) | ≤ 0.07% | ≤ 0.08% | Affects hardness and strength; kept low to improve weldability |
| Mga mangganeso (Mn) | ≤ 1.0% | ≤ 2.0% | Deoxidizer; improves hot-working characteristics |
| Silicon (Si Si) | ≤ 1.0% | ≤ 1.0% | Increases oxidation resistance and fluidity in casting |
| Posporus (P) | ≤ 0.04% | ≤ 0.045% | Impurity; kept low to prevent brittleness |
| Sulfur (S) | ≤ 0.03% | ≤ 0.03% | Improves machinability in small amounts |
| Niobium + Tantalum (Nb + Ta) | Opsyonal na | — | Acts as a stabilizer in some 17-4 variants |
| Bakal na Bakal (Fe) | Balanse | Balanse | Batayang elemento |
3. Microstructure
17-4 Hindi kinakalawang na asero:
- Annealed State: Austenitic (Mukha na nakasentro sa kubiko, FCC) with small niobium carbides, soft and ductile (200–250 HB).
- Heat-Treated State: Martensitiko (body-centered tetragonal, BCT) matrix with nanoscale Cu-rich precipitates (after aging), hard and strong (30–45 HRC).
316 Hindi kinakalawang na asero:
- All States: Austenitic (FCC) with no phase transformation, remaining non-magnetic and ductile across all conditions (180–200 HB annealed; hanggang sa 300 HB work-hardened).
4. Mekanikal na Katangian ng 17-4 Stainless Steel vs 316
The mechanical properties of stainless steel play a critical role in material selection for load-bearing, wear-critical, or fatigue-sensitive applications.
17-4 at 316 stainless steel represent two ends of the performance spectrum—17-4 PH excels in strength and hardness, while SS316 prioritizes ductility and corrosion resistance.
Mechanical Properties Comparison
| Pag-aari | 17-4 Hindi kinakalawang na asero (H900) | 316 Hindi kinakalawang na asero (Annealed na ang mga) | Remarks |
| Lakas ng Paghatak | 1310 MPa (190 ksi) | 515 MPa (75 ksi) | 17-4 offers 2.5× higher strength in hardened condition |
| Yield Lakas | 1170 MPa (170 ksi) | 205 MPa (30 ksi) | 17-4 far exceeds 316 in yield, suitable for structural loading |
| Pagpapahaba | 10–12% | ≥40% | 316 has superior ductility, better for forming/stretching |
| Ang katigasan ng ulo (Rockwell C) | HRC 38–44 | HRC 15–20 | 17-4 achieves much greater hardness after aging |
| Lakas ng Pagkapagod | ~ 550 MPa | ~ 240 MPa | 17-4 offers greater fatigue life under cyclic loads |
| Modulus ng Pagkalastiko | ~ 200 GPa | ~ 193 GPa | Slightly higher stiffness in 17-4 |
| Epekto ng tigas (Charpy) | Katamtaman (condition-dependent) | Napakahusay | 316 better for cryogenic or dynamic shock environments |
5. Physical Properties of 17-4 Stainless Steel vs 316
| Pag-aari | 17-4 Hindi kinakalawang na asero | 316 Hindi kinakalawang na asero | Key Implications |
| Densidad ng katawan | 7.75 g/cm³ | 7.98 g/cm³ | 316 is slightly denser; relevant for weight-sensitive applications |
| Thermal kondaktibiti | ~18 W/m·K (at 100°C) | ~16.2 W/m·K (at 100°C) | 17-4 offers slightly better heat conduction |
| Tiyak na Kapasidad ng Init | 0.46 J/g·K | 0.50 J/g·K | 316 absorbs slightly more heat per gram; important for thermal management |
| Electrical Resistivity | ~0.80 μΩ·m | ~0.74 μΩ·m | 316 conducts electricity slightly better |
| Koepisyent ng Thermal Expansion | ~10.8 µm/m·K (20-100 ° C) | ~16.0 µm/m·K (20-100 ° C) | 316 expands more with temperature; critical for tight tolerance assemblies |
| Magnetic Permeability | Magnetic (after aging) | Hindi magnetic (in annealed condition) | 17-4 becomes magnetic post-heat treatment; 316 remains non-magnetic unless cold worked |
| Natutunaw na Saklaw | 1400–1440°C | 1370-1400 ° C | Both suitable for high-temperature service, pero 17-4 has a slightly higher melting point |
6. Corrosion Resistance of 17-4 PH Stainless Steel vs 316
316 Hindi kinakalawang na asero:
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- Pitting Resistance Katumbas na Numero (PREN): ~ 30 (Cr + 3.3×Mo + 16×N), enabling excellent resistance to chlorides (hal., tubig dagat, road salt).
- Pagganap: Resists pitting in seawater (corrosion rate <0.01 mm / taon) and tolerates dilute acids (hal., 5% Sulpuriko acid) better than most stainless steels.
- Stress kaagnasan pagbasag (SCC): Resistant to SCC in chloride environments up to 120°C.
17-4 PH hindi kinakalawang na asero:
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- PREN: ~20, making it susceptible to pitting in chloride-rich environments.
- Pagganap: Good general corrosion resistance in dry air or freshwater (rate <0.01 mm / taon) but corrodes rapidly in seawater (rate >0.1 mm / taon) and acidic chlorides.
- SCC: Prone to SCC in hot (>60°C) Mga solusyon sa klorido (hal., pool water, industrial cleaners).
7. Heat Treatment and Hardenability
17-4 PH hindi kinakalawang na asero
17-4 Hindi kinakalawang na asero is a precipitation-hardening (PH) grade that can be heat-treated to achieve a wide range of mechanical properties.
The process begins with solution annealing at approximately 1040°C for one hour, followed by water quenching to form a hard martensitic structure.
This is then aged at various temperatures to tailor strength and toughness:
- H900 (480°C): Yields maximum tensile strength (~1310 MPa), but lower impact toughness.
- H1025 (595°C) at H1150 (620°C): Offer improved ductility and toughness (hanggang sa 100 J), with slightly reduced strength (~1100 MPa).
316 Hindi kinakalawang na asero
316 Hindi kinakalawang na asero, sa kabaligtaran, is an austenitic alloy that Hindi maaaring tumigas sa pamamagitan ng paggamot sa init. Its strength can only be increased through cold working methods such as rolling or drawing.
Cold working can elevate tensile strength from ~ 515 MPa (annealed na nga ba) sa ~860 MPa, but at the cost of reduced ductility—elongation may drop from ~40% to 10%.
Annealing at 1050-1150 ° C, Sinundan ng mabilis na paglamig (typically water quenching), restores ductility in cold-worked 316 but does not alter its fundamentally non-hardenable structure.
Key Distinction:
Hindi kinakalawang na asero 17-4 allows post-fabrication mechanical tuning via heat treatment, giving it a major advantage in design flexibility.
SS316’s properties, gayunpaman, are essentially fixed after fabrication unless altered by mechanical deformation.
8. Fabrication and Machinability
Machinability:
- 17-4 Hindi kinakalawang na asero:
-
- In annealed condition (28–32 HRC), machinability is about 70% relative to free-cutting brass (100%).
- When hardened (40–45 HRC), machining requires carbide tools and slower cutting speeds (50–75 m/min) to minimize tool wear.
- 316 Hindi kinakalawang na asero:
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- Annealed na ang mga 316 (sa paligid 200 HB) has a machinability rating near 60%, limited by significant work hardening during cutting.
- Carbide tooling is recommended with cutting speeds of 100–150 m/min.
Welding:
- 316 Hindi kinakalawang na asero:
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- Exhibits excellent weldability with matching SS316 filler metals.
- Requires no preheating or post-weld heat treatment.
- Welded joints retain approximately 90% of the base metal’s corrosion resistance.
- 17-4 Hindi kinakalawang na asero:
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- Weldable using 308L filler metal.
- Post-weld aging at 480°C is essential to restore mechanical strength; without it, weld zones lose 30–40% of strength.
Formability:
- 316 Hindi kinakalawang na asero:
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- Highly formable, with a minimum bend radius as low as 0.5× thickness.
- Excellent elongation (~ 40%) supports deep drawing, making it suitable for complex shapes like medical device housings.
- 17-4 Hindi kinakalawang na asero:
-
- Annealed na ang mga 17-4 stainless steel offers good bendability with a minimum radius around 1× thickness.
- Hardened 17-4 stainless steel becomes brittle, restricting forming to simpler geometries.
9. Cost Comparison of 17-4 PH Stainless Steel vs 316
- Hilaw na materyal:
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- 17-4 hindi kinakalawang na asero: ~10–15% more expensive than 316 in annealed form due to copper and niobium.
- 316 hindi kinakalawang na asero: ~30% more expensive than SS304 but ~10% cheaper than annealed 17-4 hindi kinakalawang na asero.
- Pagproseso:
-
- 17-4 hindi kinakalawang na asero: Heat treatment adds $0.5–$1.0/kg, increasing total cost by 10–15%.
- 316 hindi kinakalawang na asero: No heat treatment costs, but cold working adds ~5% to process costs.
- Gastos sa Lifecycle:
-
- SS316 is cheaper long-term in corrosive environments (hal., marine) due to lower maintenance/replacement needs.
- 17-4 stainless steel is cost-effective in high-strength, low-corrosion applications (hal., aerospace) where its strength reduces part weight/count.
10. Applications Comparison of 17-4 Stainless Steel vs 316
17-4 Stainless Steel Applications:
- Aerospace at Pagtatanggol: Used for structural components, aircraft fittings requiring high strength and moderate corrosion resistance.
- Langis at Gas: Mga Valve, pump shafts, and compressor parts where strength and wear resistance are critical.
- Mga Kagamitan sa Industriya: Mga shaft, mga gears, and fasteners that benefit from heat-treatable, mga materyales na may mataas na lakas.
- Mga Medikal na Kagamitan: Surgical instruments and implant components that need a balance of strength and corrosion resistance.
- Automotive: High-performance parts such as turbocharger components and valve bodies.
316 Stainless Steel Applications:
- Marine at Offshore: Boat fittings, seawater pumps, and chemical processing equipment due to excellent corrosion resistance in chloride-rich environments.
- Pagkain at Inumin: Email Address *, Email Address *, and equipment where hygiene and resistance to acidic cleaning agents are essential.
- Medikal at Parmasyutiko: Mga instrumento sa kirurhiko, mga implants, and hospital equipment requiring superior corrosion resistance and biocompatibility.
- Arkitektura: Exterior building panels and fixtures exposed to harsh weather and pollutants.
- Chemical Industry: Mga heat exchanger, mga reaktor, and valves operating in aggressive environments with acids and chlorides.
11. Summary of Key Differences of 17-4 Stainless Steel vs 316
| Pag-aari | 17-4 Hindi kinakalawang na asero (UNS S17400) | 316 Hindi kinakalawang na asero (UNS S31600) |
| Uri ng | Precipitation-hardening stainless steel | Austenitic stainless steel |
| Komposisyon | Contains chromium, nikel, at tanso; alloyed for precipitation hardening | Contains chromium, nikel, at molibdenum |
| Paglaban sa kaagnasan | Mabuti na lang, but generally less than 316, lalo na sa mga kapaligiran ng klorido | Napakahusay, especially in chloride and marine environments |
| Lakas ng loob | Mataas na lakas at katigasan (can be heat-treated) | Lower strength than 17-4; not heat-treatable |
| Ang katigasan ng ulo | Can be hardened to ~30-40 HRC after heat treatment | Softer and not typically hardened |
| Formability | Less formable due to higher strength | Highly formable |
| Weldability | Mabuti na lang, but may require post-weld heat treatment | Napakahusay; no post-weld treatment needed |
| Machinability | Mabuti na lang (especially in semi-hard condition) | Katamtaman |
| Mga Karaniwang Aplikasyon | Aerospace, mga shaft, Mga balbula, mga amag, high-strength corrosion-resistant parts | Pagproseso ng kemikal, mga kapaligiran sa dagat, mga medikal na aparato |
| Mga Katangian ng Magnetic | Magnetic (due to martensitic or precipitated structure) | Generally non-magnetic (but can become slightly magnetic after cold working) |
12. Equivalent Grades of 17-4 Stainless Steel vs SS316
| Pamantayan | 17-4 Hindi kinakalawang na asero | 316 Hindi kinakalawang na asero |
| UNS | S17400 | S31600 |
| AISI / SAE | 630 | 316 |
| ISO | X5CrNiCuNb16-4 | X5CrNiMo17-12-2 |
| DIN / EN | 1.4542 | 1.4401 |
| Hapon (Hapon) | SUS630 / SUS17-4PH | SUS316 |
| GB (Tsina) | 05Cr17Ni4Cu4Nb | 06Cr17Ni12Mo2 |
| FR (Pransya) | Z6CNU17.04 | Z7CND17.12 |
13. Pangwakas na Salita
17-4 at 316 stainless steels serve distinct niches: hindi kinakalawang na asero 17-4 delivers customizable high strength for structural applications in mild environments, while SS316 offers unmatched corrosion resistance for harsh, chloride-rich conditions.
Their divergent alloying, microstructures, and properties make them irreplaceable in their respective domains, emphasizing the importance of matching material to application requirements.
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Mga FAQ
Which is stronger: 17-4 o 316 hindi kinakalawang na asero?
Hindi kinakalawang na asero 17-4 in H900 temper (1,310 MPa tensile strength) is significantly stronger than SS316 (Max 860 MPa work-hardened).
Is SS316 better than 17-4 stainless steel for seawater?
Oo nga. 316’s molybdenum content resists pitting in seawater (corrosion rate <0.01 mm / taon), habang ang 17-4 corrodes at 0.1+ mm / taon.
Can 17-4 stainless steel be used in medical applications?
Rarely. Its poor corrosion resistance in bodily fluids (rich in chlorides) makes 316 the standard for implants and instruments.
Is 17-4 stainless steel magnetic?
Oo nga, in heat-treated (martensitic) form na; 316 remains non-magnetic.
Is 17-4 PH stainless steel rust-proof?
Hindi. While corrosion-resistant, it is less suitable for chloride-rich or marine environments without coatings.
