TOKO E71T-9CJ Low Hydrogen Flux-Cored Wire

AWS A5.20 · All-Position · CO₂ Shielded · Ultra-Low Temp Toughness (-60°C)

Engineered for the most demanding environments: arctic structures, offshore platforms, and cryogenic storage. Low hydrogen design with exceptional impact toughness, high deposition rates, and consistent arc performance.

❄️ -60°C Impact Toughness 🛡️ AWS A5.20 Certified 💧 Low Hydrogen (<4 ml/100g) ⚡ All-Position (3G/4G) 📦 Diameters 0.9–1.6mm
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TOKO E71T-9CJ Low Hydrogen Flux-Cored Welding Wire

Premium low hydrogen, CO₂ gas-shielded wire delivering exceptional ultra-low temperature toughness (-60°C) and mechanical properties for critical mild steel and HSLA fabrication. Trusted for arctic offshore, cryogenic storage, and seismic-resistant structures worldwide.

TOKO E71T-9CJ low hydrogen flux-cored wire spools for arctic and offshore welding

Key Advantages

  • AWS A5.20 / A5.36 compliant — full traceability and certified mechanicals, including the stringent "J" designation for enhanced low-temperature toughness.
  • Optimized for 100% CO₂ (20–25 L/min) — excellent arc stability, deep penetration, and cost-effective shielding.
  • Ultra-low hydrogen design — diffusible hydrogen ≤4 ml/100g, minimizing risk of hydrogen-induced cracking in restrained joints and thick sections.
  • Exceptional low-temperature toughness — guaranteed Charpy V-notch impact values ≥40J at -60°C, ideal for arctic and cryogenic service.
  • All-position capability — flat, horizontal, vertical-up, and overhead with smooth bead profile.
  • High deposition rates & low spatter — boosts productivity and reduces post-weld cleaning.
  • Available diameters: 0.9mm (0.035"), 1.2mm (0.045"), 1.6mm (1/16").

Performance Benefits for Critical Low-Temperature Applications

  • Arc Stability: Smooth, consistent arc with minimal fumes, even at low amperages.
  • Weld Appearance: Fine ripple, excellent wetting, minimal undercut.
  • Slag Release: Self-peeling or light chipping for easy cleaning.
  • Toughness: Superior CVN at -60°C meets the most demanding specifications (e.g., offshore, arctic).
  • Hydrogen Control: Low hydrogen formulation meets critical fabrication requirements.

E71T-9CJ vs. E71T-5C vs. E71T-1C: Which One Fits Your Project?

All exceed AWS requirements, but E71T-9CJ offers the highest toughness for extreme environments.

❄️ E71T-9CJ (Low Hydrogen / High Toughness)

  • Slag: Basic (fluoride), ultra-low hydrogen
  • Transfer: Spray/globular, deep penetration
  • Key Feature: Exceptional toughness @ -60°C (≥40J)
  • Best for: Arctic offshore, cryogenic, seismic, critical HSLA
  • Hydrogen: ≤4 ml/100g

🔸 E71T-5C (Basic / General Purpose)

  • Slag: Basic (fluoride), good toughness
  • Transfer: Spray/globular, deeper penetration
  • Key Feature: Good low-temp toughness @ -20°C (≥47J)
  • Best for: Offshore, structural, general low-temp
  • Hydrogen: Low, but not as critical as 9CJ

🔹 E71T-1C (Rutile / General Fab)

  • Slag: Rutile-based, fast freezing
  • Transfer: Fine spray, very low spatter
  • Key Feature: Excellent operator appeal, general fab
  • Best for: Structural steel, shipbuilding, bridges
  • Impact: 27J @ -20°C (standard)

Primary Industrial Applications

Proven in the harshest environments: from Arctic pipelines to North Sea platforms.

❄️

Arctic & Subarctic Construction

Structures, pipelines, and facilities in extreme cold climates where -60°C toughness is mandatory.

Offshore & Marine

Jack-up rigs, FPSOs, modules — preferred for low-temperature toughness and hydrogen control.

🧊

Cryogenic Storage

LNG tanks, pressure vessels, and piping requiring exceptional notch toughness at sub-zero temperatures.

🏗️

Seismic-Resistant Structures

High-rises, bridges, and critical infrastructure where ductility and toughness are paramount.

Additional Applications & Industries

  • High-strength low-alloy (HSLA) steel fabrication (A572, A588, A709)
  • Shipbuilding (ice-class vessels, Arctic class)
  • Pressure vessel and boiler fabrication
  • Wind turbine towers in cold climates
  • Heavy equipment for mining in cold regions
  • Pipeline girth welds requiring low-temperature toughness
  • Penstocks and hydroelectric infrastructure

Technical Specifications (Typical)

Chemical Composition (%, single values are max)

CMnSiSPNiCrMoAl
≤0.081.00–1.800.40–0.80≤0.010≤0.0150.40–1.00≤0.15≤0.250.80–1.40

Mechanical Properties (as-welded, 100% CO₂)

PropertyValue
Tensile Strength (MPa)550–650
Yield Strength (MPa)≥430
Elongation (%)≥24
Charpy V-notch @ -40°C (J)≥60
Charpy V-notch @ -60°C (J)≥40 (typical 50-70)
Diffusible Hydrogen (ml/100g)≤4

Recommended Welding Parameters (1.2mm / 0.045")

PositionCurrent (A)Voltage (V)Stick-out (mm)Gas Flow (L/min)
Flat/Horizontal200–28026–3015–2020–25
Vertical Up150–20023–2612–1820–25
Overhead140–18022–2510–1520–25

Storage & Re-drying (Critical for Low Hydrogen)

ConditionRequirement
Unopened packagingStore in dry place (<40% RH recommended)
Opened spoolsUse within 2-4 hours or store in holding oven at 120-150°C
Re-drying (if exposed)250-300°C for 1 hour

Important: Maintain low hydrogen practice. Handle with clean gloves. Discard if contaminated.

Certifications & Technical Docs

Download batch-specific material certificates, SDS, and welding procedure guidelines.

📥 E71T-9CJ MTC (PDF) ⚠️ Safety Data Sheet (PDF)

All certifications are third-party verified and comply with AWS A5.20 / A5.36.