Alloy 825 (UNS N08825) pipe for chemical industry is a titanium-stabilized nickel-iron-chromium-molybdenum-copper superalloy pipe, dual-certified for both chemical processing and sour oil & gas service. It provides exceptional resistance to general corrosion, pitting, crevice corrosion and sulfide stress cracking (SSC), making it the most versatile cost-effective solution for medium-severity corrosive environments.
As the industry-standard material for mixed acid and sour service, Alloy 825 pipe is fully certified to NACE MR0175/ISO 15156, requiring no post-weld heat treatment to maintain full corrosion resistance. With over 20 years of production experience, Emily PIPE supplies precision-manufactured Alloy 825 seamless and welded pipes that meet the strictest international chemical and petroleum industry standards.
| Item | Details |
|---|---|
| Executive Standards | 1. International Material Standards: ASTM B423 (Seamless Pipe), ASTM B705 (Welded Pipe), ASME SB423, ASME SB705, DIN 17744, EN 2.4858
2. Oil & Gas Standards: NACE MR0175/ISO 15156-3, API 5LC 3. Chemical Piping Standards: ASME B31.3, ASME B31.4 4. Pressure Vessel Standards: ASME Section VIII Div.1, PED 2014/68/EU 5. Testing Standards: ASTM E8, ASTM E23, ASTM G48, ASTM E243 |
| Material Grade | 1. Main Grade: Alloy 825 (Titanium-Stabilized Ni-Fe-Cr Alloy, NACE Certified)
2. International Designations: UNS N08825, W.Nr.2.4858, Incoloy 825, NiFe30Cr21Mo3Cu 3. Equivalent Grades: NS1402 (China), Alloy 825 (USA), Nicrofer 4221 (Germany) 4. Special Grades: Seamless grade for high-pressure; ultra-low carbon grade for maximum weldability |
| Chemical Composition (Weight %) | 1. Nickel (Ni): 38.0-46.0 (base element for corrosion resistance)
2. Chromium (Cr): 19.5-23.5 (oxidizing acid resistance) 3. Molybdenum (Mo): 2.5-3.5 (reducing acid and pitting resistance) 4. Copper (Cu): 1.5-3.0 (key element for sulfuric acid resistance) 5. Titanium (Ti): 0.6-1.2 (stabilizes against intergranular corrosion) 6. Iron (Fe): Balance 7. Carbon (C): ≤0.05 8. Manganese (Mn): ≤1.00 9. Silicon (Si): ≤0.50 10. Phosphorus (P): ≤0.030 11. Sulfur (S): ≤0.030 |
| Mechanical Properties (Annealed State) | 1. Tensile Strength (RT): 585-795 MPa
2. 0.2% Yield Strength (RT): ≥240 MPa 3. Elongation (δ5): ≥30% 4. Reduction of Area: ≥40% 5. Hardness (HB): 130-200 6. Impact Toughness (-196℃): ≥100 J 7. Tensile Strength (200℃): ≥500 MPa 8. Modulus of Elasticity: 196 GPa 9. Maximum Continuous Service Temperature: 425℃ |
| Dimensional Tolerance | 1. Seamless Pipes: Ø6-50mm ±0.15mm; Ø50-150mm ±0.3mm; Ø150-300mm ±0.5mm; Wall thickness ±0.08-0.12mm
2. Welded Pipes: Ø10-200mm ±0.2mm; Wall thickness ±0.10mm 3. U-Bend Pipes: Bend radius ±0.5mm; Ovality at bend ≤3% of OD 4. Length Tolerance: ±2mm (1-12m); custom lengths up to 18m available |
| Why This Material Is Used in Chemical Industry | 1. Unmatched Sour Service Performance:
– NACE MR0175 certified for sour oil & gas environments with H₂S partial pressures up to 200 psi at 175℃ – Excellent resistance to sulfide stress cracking (SSC) and hydrogen-induced cracking (HIC) – Outperforms all stainless steels in sour gas processing applications 2. Superior Acid Resistance: – Specifically formulated for 20-40% boiling sulfuric acid, the most corrosive range for stainless steels – Corrosion rate <0.5mm/year in 40% boiling H₂SO₄, 10x better than 316L – Excellent resistance to all concentrations of phosphoric acid at elevated temperatures 3. No Post-Weld Heat Treatment Required: – Titanium stabilization eliminates carbide precipitation in weld heat-affected zones – Retains 100% corrosion resistance after welding without post-weld heat treatment – Reduces fabrication costs by 30-40% and shortens project timelines significantly 4. Broad Temperature Range Performance: – Maintains excellent toughness at cryogenic temperatures down to -196℃ – Good high-temperature strength up to 425℃ for process heating applications – Excellent thermal stability with no harmful phase precipitation during service 5. Superior Cost-Effectiveness: – 40-50% lower material cost than Hastelloy C276 while delivering comparable performance in many applications – Service life 5-10 times longer than 316L stainless steel – Lower processing costs due to excellent formability and machinability |
| Application Scenarios and Corresponding Customers | 1. Oil & Gas Production and Processing:
– Applications: Sour gas gathering lines, produced water handling, acid gas removal units, downhole tubing, subsea flowlines, heat exchanger tubes – Customers: ExxonMobil, Shell, BP, Chevron, TotalEnergies, Saudi Aramco, ADNOC 2. Sulfuric Acid and Phosphoric Acid Industry: – Applications: Acid transfer lines, heat exchanger tubes, absorption tower piping, pump and valve components, acid storage tanks – Customers: DuPont, BASF, Bayer, ExxonMobil Chemical, Shell Chemical, Sinopec 3. Metal Finishing and Electroplating Industry: – Applications: Pickling line piping, plating solution transfer lines, acid bath heating coils, wastewater treatment piping – Customers: Atotech, Coventya, MacDermid Enthone, major automotive and electronics plating facilities 4. Chemical Processing Industry: – Applications: Reactor piping, heat exchanger tubes, solvent recovery systems, acid and base handling systems – Customers: Dow Chemical, Olin Corporation, Westlake Chemical, Shin-Etsu Chemical, Solvay 5. Seawater Desalination and Marine Industry: – Applications: Seawater intake piping, heat exchanger tubes, brine processing lines, marine chemical plant piping – Customers: Siemens Energy, GE Power, DuPont Water Solutions, Veolia, SUEZ 6. Pulp and Paper Industry: – Applications: Pulp digester piping, bleaching system components, acid handling systems, wastewater treatment piping – Customers: International Paper, Kimberly-Clark, Procter & Gamble, Stora Enso, UPM-Kymmene |
| Customer Requirements in This Industry | 1. Performance Requirements:
– Sour Service Resistance: Must meet NACE MR0175 requirements for H₂S and CO₂ environments – Acid Resistance: Must resist corrosion in 20-40% boiling sulfuric acid – Chloride Corrosion Resistance: Must be immune to stress corrosion cracking in high-chloride environments – Pressure Resistance: Must withstand operating pressures up to 150 bar in high-pressure processes – Cryogenic Toughness: Must maintain excellent toughness at subzero temperatures 2. Quality and Compliance Requirements: – NACE Certification: Must provide NACE MR0175/ISO 15156 certification – Material Standard Compliance: Must meet all requirements of ASTM B423, ASTM B705 and ASME SB423 – ASME B31.3 Compliance: Must comply with process piping code for chemical plant construction – Full Traceability: Must provide 100% traceability from raw material ore to finished product – Third-Party Inspection: Must allow inspection by TÜV, SGS, BV or other authorized organizations 3. Manufacturing Requirements: – Precision Dimensional Tolerances: Must meet tight tolerances for proper fit and assembly – Surface Quality: Must have a smooth, defect-free surface to prevent corrosion initiation – Internal Quality: Must be free from inclusions, porosity and segregation (100% UT/ET verified) – Consistent Quality: Must have uniform chemical composition across all batches – Cleanliness Requirements: Must meet strict cleanliness standards for food and pharmaceutical applications 4. Supply Chain Requirements: – Reliable Delivery: Must meet tight project schedules and plant turnaround deadlines – Emergency Response: Must provide expedited production for unplanned shutdowns – Small Batch Capability: Must produce small quantities for prototype development and maintenance – Global Supply Capability: Must deliver to chemical plants worldwide with consistent quality – Inventory Management: Must offer stock holding solutions to reduce customer inventory costs 5. Cost Requirements: – Competitive Pricing: Must offer fair pricing while maintaining the highest quality standards – Low Total Cost of Ownership: Must provide long service life and reduced maintenance costs – Value-Added Services: Must offer cutting, bending, welding and end processing services |
| Common Related Products in This Industry | 1. Alloy 825 Seamless Pipes: Available in various sizes and wall thicknesses for high-pressure applications
2. Alloy 825 Welded Pipes: Cost-effective solution for large-diameter and low-to-medium pressure applications 3. Alloy 825 U-Bend Pipes: Custom bent pipes for chemical heat exchangers and condensers 4. Alloy 825 Fittings: Elbows, tees, reducers, flanges and couplings for chemical piping systems 5. Alloy 825 Forgings: Custom forgings including valve bodies, pump casings and flanges 6. Alloy 825 Fasteners: Bolts, nuts, screws, studs and washers for medium corrosion service 7. Alloy 825 Welding Materials: Electrodes, wires and filler metals for chemical industry welding 8. Alloy 825 Machined Components: Precision-machined valves, fittings and heat exchanger parts 9. Alloy 825 Sheets and Plates: Used for manufacturing tanks, vessels and heat exchangers 10. Custom Fabricated Assemblies: Pre-fabricated piping spools and heat exchanger bundles |
| Why Choose Us (Emily PIPE) | 1. 20+ Years of Chemical and Oil & Gas Alloy Expertise: We have been supplying high-performance Alloy 825 pipe products to global industries for over 20 years
2. NACE Certified Production Facility: Our production line is fully certified to NACE MR0175/ISO 15156 standards 3. Full-Process Quality Control: We implement comprehensive quality control including 100% ultrasonic, eddy current and hydrostatic testing 4. Complete International Certifications: Our products meet all major international standards and hold ASTM, ASME, PED and NACE certifications 5. Advanced Customization Capability: We can produce custom sizes, lengths, wall thicknesses and end processing according to your drawings 6. Global Supply Chain Experience: We have extensive experience supplying to major oil & gas and chemical companies worldwide 7. Professional Technical Support: Our team of metallurgical engineers and corrosion specialists provides expert guidance on material selection 8. One-Stop Solution: We provide complete solutions from raw material supply to pre-fabricated piping assemblies |
| Supplementary Industry Information | 1. Comprehensive Test Reports: Each batch comes with a full MTR including chemical analysis, mechanical properties, NDT results and NACE certification. Corrosion test reports available upon request
2. Full Material Traceability: Every pipe has a unique heat number and complete traceability documentation from raw material to finished product 3. Value-Added Processing: We offer precision cutting, CNC bending, welding, end processing and surface finishing services 4. Prototype Development Support: We support small batch prototype orders with fast turnaround times 5. Emergency Response Service: We provide 24/7 emergency service for unplanned plant shutdowns with expedited shipping 6. Market Growth: The global Alloy 825 pipe market is projected to grow at a CAGR of over 6% through 2030, driven by increasing demand from oil & gas and chemical industries 7. Sustainability Commitment: All our products are manufactured using sustainable practices and are 100% recyclable |
| Packaging | 1. Plastic Caps: All pipe ends are protected with heavy-duty polyethylene caps with internal sealing rings to prevent contamination
2. Waterproof Film: Each pipe is individually wrapped in waterproof and anti-corrosion film 3. Bundle Packing: Pipes of the same size are bundled with steel straps and wooden spacers to prevent contact damage 4. Wooden Case: Bundles are packed in sturdy fumigated wooden cases with steel reinforcement for international shipping 5. Export Standard Packing: All packaging complies with international export standards and ISPM 15 regulations 6. Marking: Each package is clearly marked with product specifications, heat number, quantity and destination |
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