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  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
  • High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection
High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection

High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection

  • >= 10 Pieces
    $85
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High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Cathodic Protection: High silicon cast iron tubular anodes provide durable ICCP (Impressed Current Cathodic Protection) for corrosion prevention in marine, industrial, and infrastructure applications.
  • Electrochemical Efficiency: Optimized composition ensures stable current distribution and long service life in harsh environments, suitable for coating and casting processes.

Key features

  • 1. Advanced Material Technology

    • With high-silicon cast iron composition, ensure卓越的 corrosion resistance and stable electrochemical performance in harsh environments. The silicon content enhances durability compared to standard cast iron anodes*, making it ideal for long-term cathodic protection in marine or industrial settings.

  • 2. Optimized Tubular Design

    • With a tubular structure, facilitate easy integration into existing systems and adapt to various installation configurations. The design reduces material waste while maintaining structural integrity, offering a cost-effective solution compared to solid anodes*.

  • 3. Enhanced Electrochemical Performance

    • With a precisely engineered electrochemistry composition, deliver consistent current output for prolonged ICCP (Impressed Current Cathodic Protection) operation. This ensures efficient corrosion inhibition, outperforming conventional anodes in output stability*.

  • 4. Versatile Scenario Solutions

    • Designed for coating and casting applications, provide reliable corrosion protection in marine, offshore, or industrial settings. The tubular anodes are tailored for environments requiring continuous operation, such as pipelines or storage tanks*.

  • 5. Compliance with Industry Standards

    • Manufactured to meet cathodic protection system standards, ensuring safety and reliability for critical infrastructure. The material composition adheres to electrochemical performance benchmarks for corrosion-resistant anodes*.

Product details

High Quality High Silicon Cast Iron Tubular Anodes With Good Electrochemistry Composition for ICCP Cathodic Protection

High Quality High Silicon Cast Iron Tubular Anodes are engineered for optimal performance in ICCP (Impressed Current Cathodic Protection) systems. Designed with a robust high-silicon cast iron composition, these anodes deliver exceptional durability, corrosion resistance, and stable electrochemical performance. Their tubular structure ensures uniform current distribution, making them ideal for protecting marine, offshore, and industrial infrastructure from corrosion.

Technical specifications

FeatureSpecificationBenefit
MaterialHigh silicon cast iron (15-22% Si)Enhanced corrosion resistance and longevity
ElectrochemistryOptimized for ICCP applicationsStable current output in harsh environments
DesignTubular configurationEven current distribution and scalability
Operating Temperature-20°C to 60°CReliable performance in diverse climates
Application ScenariosCoating protection, marine structures, oil/gas pipelinesPrevents corrosion in critical infrastructure

Customization guide

Adjustable parameters include tube length, diameter, and surface treatment (e.g., coatings or corrosion-resistant finishes) to meet specific current density requirements or environmental conditions.

Get inspired

With these tubular anodes, you can extend the lifespan of marine structures, pipelines, and industrial equipment by up to 40% compared to traditional sacrificial anodes. Their modular design allows seamless integration into existing systems, ensuring efficient cathodic protection in corrosive environments.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Silicon Content (%)15%18%22%
Current Density (mA/cm²)5812
Service Life (Years)5810
Operating Temp. Range-20°C to 60°C-30°C to 70°C-40°C to 80°C

Supplier's note

  1. Key Technical Breakthroughs:

    • High Silicon Content (22% in Pro Model): Triple the industry standard corrosion resistance for extreme marine environments.
    • Tubular Design: Reduces hotspots by 30% compared to solid anodes, ensuring uniform current distribution.
    • Optimized Electrochemistry: Achieves 20% higher energy efficiency than conventional cast iron anodes.

  2. Version Selection Guidance:

    • Base Model: Ideal for standard marine or industrial applications where moderate current density (5 mA/cm²) and ambient temperatures (-20°C to 60°C) are sufficient.
    • Advanced Model: Suitable for moderate salinity environments (e.g., offshore platforms) requiring higher current output (8 mA/cm²) and extended service life (8 years).
    • Pro Model: Designed for harsh, high-salinity conditions (e.g., deep-sea pipelines) with extreme temperature ranges (-40°C to 80°C) and peak current demands (12 mA/cm²).

With the Pro Model’s silicon-rich composition and expanded temperature tolerance, you can safely deploy systems in Arctic or tropical regions while maintaining 40% longer service life than industry benchmarks. Pair its high current density with corrosion-resistant coatings to protect critical infrastructure against even the most aggressive environments.

Frequently asked questions

  • Which tubular anode model is best for marine cathodic protection systems?

  • High silicon cast iron vs mixed metal oxide anodes: Which is better for harsh environments?

  • Are these anodes suitable for offshore pipeline cathodic protection?

  • How to clean high silicon cast iron anodes after deployment?

  • Can the tubular anodes be customized for unique ICCP system configurations?

  • Are the anodes NACE certified for cathodic protection applications?

  • Do these anodes require special installation for coating applications?

  • How do high silicon cast iron anodes handle high-salinity environments?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material CompositionMarine/offshore structures, pipelinesSilicon Content: 16-18% (▲1 vs Industry 10-12%) (ASTM A977) (Reduces anode consumption by 30%)Enhanced chloride resistance for corrosive marine environmentsRequires specialized casting processes (20% higher upfront cost)
Electrochemical PerformanceLarge-scale cathodic protection systemsCurrent Output: 8 A/m² (▲1 vs Industry 5 A/m²) (ASTM G82) (Equivalent to 16 AA batteries/m²)Covers 60% more surface area per anode, reducing anode countRequires higher-voltage power supplies
Corrosion ResistanceChemical plants, offshore platformsNeutral Salt Spray: 200h (▲1 vs Industry 100h) (ASTM B117) (Survives twice as long in corrosive environments)Halves replacement frequency in aggressive chemical environmentsHigher material costs due to alloying additives
Mechanical StrengthDynamic marine environments (wave action)Tensile Strength: 300 MPa (▲1 vs Industry 250 MPa) (ISO 6892-1) (Withstands 30-ton pressure/m²)Maintains structural integrity under cyclic loadingHeavier weight complicates installation logistics
Installation FlexibilityRetrofitting existing structuresModular Design (▲1 vs Industry's custom brackets) (ISO 9001) (Reduces engineering time by 40%)Adapts to 90% of standard structures without customizationLimited to pre-defined geometric configurations
Cost EfficiencyBudget-sensitive infrastructure projectsLifecycle Cost: $60/m² (▲1 in performance vs $50/m² Industry) (Saves $12k over 10 years for 1,000m²)15% lower total cost of ownership over 10 yearsHigher upfront cost requires capital investment

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