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Offshore Platform ICCP System
ICCP ANODE MANUFACTURER

MMO Titanium ICCP Anodes for Long-Life Cathodic Protection

Factory-direct impressed current anodes engineered for pipelines, offshore platforms, ship hulls, storage tanks, and reinforced concrete systems.

MMO Titanium Ir-Ta / Ru-Ir Coatings Tubular / Ribbon / Canister XRF & ALT Tested Custom ICCP Designs
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ENGINEERING REALITY

Reliable ICCP Performance Starts with the Right Anode

Impressed Current Cathodic Protection systems depend on anodes that can deliver stable current output for years in harsh and often inaccessible environments. The wrong anode material, coating, form factor, or cable connection can lead to uneven protection, premature failure, and higher lifecycle cost.

Hele Titanium manufactures custom MMO titanium ICCP anodes designed around your environment, current demand, service life, installation method, and system integration requirements.

Controlled Current Output

ICCP systems require anodes that maintain predictable current discharge under defined operating conditions.

Environment-Specific Coating

Ir-Ta and Ru-Ir MMO coatings must be matched to soil, freshwater, seawater, brackish water, or concrete conditions.

Design Life & Current Density

Coating load, surface area, and operating current density directly affect anode service life and system reliability.

Installation-Ready Integration

Cable type, sealing method, connectors, backfill, and mounting design affect long-term field performance.

ICCP ANODE SERIES

ICCP Anode Product Range

Hele Titanium manufactures a complete range of MMO-based ICCP anodes designed for pipelines, marine structures, storage tanks, reinforced concrete, ship hulls, and groundbed systems. Each form is engineered for stable current output, long service life, and cost-effective corrosion protection.

MMO Linear Anodes

MMO Linear Anodes

Continuous ICCP anodes designed for long-distance pipelines, tank bottoms, and distributed current protection.

Key Benefits:
  • Uniform current distribution
  • Flexible installation
  • Suitable for linear protection
Applications: Pipelines, tank bottoms, horizontal groundbeds
Material: MMO-coated titanium linear anode
View Details
MMO Wire Anodes

MMO Wire Anodes

Flexible MMO wire anodes for continuous groundbeds, pipeline retrofits, and distributed ICCP systems.

Key Benefits:
  • Low consumption rate
  • Multiple diameters available
  • Custom cable configurations
Applications: Buried pipelines, retrofit ICCP systems, cathodic loops
Material: Titanium wire with Ir-Ta or Ru-Ir MMO coating
View Details
MMO Ribbon Anodes

MMO Ribbon Anodes

Ribbon-style MMO anodes for reinforced concrete, tank structures, and wide-area current distribution.

Key Benefits:
  • Wide coverage
  • Stable performance
  • Easy layout for concrete and tank systems
Applications: Concrete structures, tank bottoms, bridge decks, marine
Material: Titanium ribbon with MMO coating
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MMO Tubular Anodes

MMO Tubular Anodes

High-output tubular ICCP anodes for offshore, underground, seawater, and deep groundbed applications.

Key Benefits:
  • High current output
  • Durable coating
  • Long-term stability
Applications: Deep groundbeds, offshore platforms, pipelines, marine
Material: Titanium tube with MMO coating
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MMO Canister Anodes

MMO Canister Anodes

Prepackaged ICCP anodes with carbonaceous backfill for easy installation in soil or deep-well environments.

Key Benefits:
  • Ready-to-install design
  • Reduced resistance to earth
  • Lower field labor
Applications: Deep wells, soil groundbeds, pipelines, storage tanks
Material: MMO titanium packaged with carbon backfill
View Details
MMO Disc Anodes

MMO Disc Anodes

Low-profile disc anodes for ship hull ICCP systems, tanks, condenser boxes, and confined surface-mounted applications.

Key Benefits:
  • Compact geometry
  • Even current distribution
  • Suitable for hull-mounted systems
Applications: Ship hulls, water boxes, tank internals, process vessels
Material: MMO-coated titanium disc
View Details
MMO Mesh Ribbon Anodes

MMO Mesh Ribbon Anodes

Mesh and ribbon configurations for concrete rehabilitation and structural restoration applications.

Key Benefits:
  • Uniform current over large areas
  • Strong concrete compatibility
  • Long service life
Applications: Bridges, piers, parking decks, marine concrete structures
Material: Titanium mesh/ribbon with Ir-Ta MMO coating
View Details
Custom ICCP Anode Assemblies

Custom ICCP Assemblies

Custom rods, plates, sleds, strings, probes, and integrated ICCP assemblies manufactured to project drawings.

Key Benefits:
  • Drawing-based manufacturing
  • Custom cables and sealing
  • Application-specific geometry
Applications: OEM systems, EPC projects, marine equipment
Material: MMO titanium, Pt/Ti, or custom coating
View Details
QUICK SELECTION

How to Select the Right ICCP Anode

ICCP anode selection depends on the protected structure, electrolyte environment, current demand, required service life, installation method, and available space. Use this quick guide as a starting point before requesting a detailed engineering review.

Buyer Note: For accurate selection, provide the environment, current output, target service life, preferred form factor, cable requirements, and any available drawings.

Request ICCP Anode Selection Support
Application / Environment Recommended Form Recommended Coating
Long-Distance Pipelines MMO wire, linear, tubular, canister Ir-Ta or Ru-Ir based on electrolyte
Offshore Platforms & Marine Tubular, rod, disc, custom Ru-Ir or Ir-Ta depending on salinity
Ship Hulls & Vessels Disc, elliptical, rod, custom hull MMO or Pt/Ti
Storage Tank Bottoms Ribbon, mesh, wire, canister Ir-Ta MMO
Reinforced Concrete Mesh, ribbon, discrete rod Ir-Ta MMO
Deep-Well Groundbeds Canister, tubular, string assembly Ir-Ta MMO or custom
Water Tanks & Process Vessels Rod, disc, tubular MMO or Pt/Ti
OEM Electrochemical Systems Rod, plate, disc, custom assembly MMO, Pt/Ti, or custom
CUSTOM ICCP ENGINEERING

Custom ICCP Anodes Built for Your Exact Protection System

Standard ICCP anodes do not always meet the demands of critical corrosion protection systems. Hele Titanium designs and manufactures impressed current anodes tailored to your operating environment, structure geometry, current output, installation method, and design life target.

Send Your ICCP Anode Requirements

Application-Specific MMO Coatings

Ir-Ta coatings are optimized for oxygen evolution (soil, freshwater, concrete). Ru-Ir coatings are engineered for chlorine evolution (seawater). Custom MMO blends available.

Custom Geometry & Form Factor

Tubular, rod, wire, ribbon, mesh, plate, disc, canister, sled, string, and custom shapes can be manufactured for efficient current distribution across your structure.

Controlled Coating Load & Thickness

Precious metal loading and coating thickness can be calibrated according to the required design life, operating current density, and service environment.

Current Density Optimization

Each anode can be engineered to operate efficiently at your system’s specified current output, helping prevent under-protection, overloading, or premature coating failure.

Cable, Seal & Connector Integration

Cable type, length, sealing method, connector design, mounting fixtures, and terminal assemblies can be customized for robust installation and long-term reliability.

Drawing-Based OEM Support

We support OEMs, EPCs, system integrators, and asset owners with custom drawings, prototypes, batch production, replacement anodes, and project-specific documentation.

QUALITY ASSURANCE

ICCP Anode Quality — Engineered for Reliability, Validated for Performance

Effective ICCP systems rely on anodes that deliver consistent current output in harsh and often inaccessible environments. Hele Titanium controls material selection, MMO coating, dimensional accuracy, cable sealing, and performance validation to support dependable long-term corrosion protection.

Premium Material Selection

Certified titanium substrates, typically ASTM B265 or ASTM B348 Grade 1 / Grade 2, are selected for corrosion resistance, mechanical strength, and compatibility with MMO or platinum coatings.

Controlled MMO Coating Process

Coating procedures are controlled to support uniform catalyst loading, strong adhesion, stable surface morphology, and predictable service life.

Performance Validation

Batch testing can include adhesion checks, XRF coating load analysis, accelerated life testing, electrochemical performance checks, dimensional inspection, and cable seal verification.

Test Item Typical Test Conditions Qualification Standard / Acceptance Purpose
Coating Adhesion ASTM D3359 cross-cut tape test or bend test No coating detachment from substrate Verifies robust bond between MMO coating and titanium substrate
Coating Load / Thickness XRF spectrometry Within specified coating load range for design life Confirms precious metal loading for target service life
Coating Uniformity Multi-point XRF measurement Typical variation within ±10% to ±15%, customizable by project Supports even current distribution and reduces localized failure risk
Accelerated Life Test High current density in Na₂SO₄ or NaCl electrolyte at elevated temp Minimum test hours based on project design life Predicts coating durability under operational stress
Electrochemical Performance Operating voltage measurement at specified current density Stable voltage within expected range for coating and electrolyte Confirms catalytic activity and efficient operation
Visual Inspection Magnified surface review No cracks, peeling, nodules, or significant surface defects Identifies coating or manufacturing inconsistencies
Dimensional Verification Calipers, micrometers, drawing-based measurement Conforms to approved dimensions and tolerances Ensures correct installation fit and system integration
Cable & Seal Integrity Pull test, IR Test, or hydrostatic pressure test Meets tensile, electrical, and sealing requirements Ensures durable and watertight cable connection

Quality Records for Engineering Approval

For qualified ICCP projects, Hele Titanium can provide drawings, material certificates, coating inspection records, XRF reports, dimensional reports, cable sealing verification, and export documentation to support OEM, EPC, and procurement review.

Request ICCP Quality Documentation
APPLICATIONS

Core Applications of ICCP Anodes

ICCP anodes provide controlled, long-term corrosion protection for large, complex, or critical assets where adjustable current output and extended service life are required.

Pipelines

Pipelines

Protect buried, submerged, or internal pipelines from corrosion, leakage, and regulatory risk.

Recommended Forms: MMO tubular, wire, linear, ribbon, canister

Offshore Platforms

Offshore Platforms

Protect steel jackets, risers, subsea equipment, piles, and coastal structures in aggressive seawater.

Recommended Forms: Tubular, rod, disc, custom MMO assemblies

Ships & Vessels

Ships & Vessels

Protect hulls, ballast tanks, rudders, propellers, sea chests, and submerged appendages.

Recommended Forms: Disc, elliptical, rod, custom hull-mounted anodes

Storage Tanks

Storage Tanks

Protect aboveground and underground tank bottoms, shells, internals, and associated piping.

Recommended Forms: Ribbon, mesh, flexible linear, canister, rod

Reinforced Concrete

Reinforced Concrete

Mitigate chloride-induced rebar corrosion in bridges, decks, parking structures, and marine concrete.

Recommended Forms: MMO mesh, MMO ribbon, discrete rod anodes

Water Facilities

Water Facilities

Protect internal piping, basins, tanks, and metallic components exposed to corrosive water chemistries.

Recommended Forms: Tubular, rod, disc, ribbon segment

Power Generation

Power Generation

Protect cooling systems, condensers, intake structures, and water boxes from corrosion.

Recommended Forms: Disc, rod, elliptical, tubular

OEM Equipment

OEM Equipment

Integrate compact ICCP anodes into water heaters, lab systems, or specialized electrochemical devices.

Recommended Forms: Rod, disc, plate, custom assembly

Request ICCP Application Support
WHY CHOOSE HELE TITANIUM

A Factory-Direct ICCP Anode Partner for Critical Corrosion Protection

Hele Titanium manufactures high-performance impressed current anodes engineered for long service life, stable current distribution, and reliable system protection in demanding environments.

Specialized ICCP Expertise

Focused experience in manufacturing MMO titanium anodes for pipelines, marine structures, tanks, concrete, water systems, and OEM equipment.

Material & Coating Control

Certified titanium substrates and controlled MMO coating processes support adhesion, uniform current output, and predictable long-term performance.

Custom Engineered Solutions

ICCP anodes can be customized by coating type, form factor, coating load, current output, cable length, sealing method, connector, and mounting design.

Verified Quality & Reliability

Quality protocols can include XRF coating analysis, adhesion testing, accelerated life testing, electrochemical validation, dimensional inspection, and cable seal checks.

Flexible Project Support

We support prototype development, replacement anodes, OEM integration, EPC projects, and batch production for different project sizes.

Technical Specification Support

Our team helps buyers review environment, current demand, anode form, coating choice, design life, and RFQ requirements before production.

Factory-Direct Value

Direct manufacturing in China helps buyers access premium-grade ICCP anodes with competitive long-term project value.

Global Delivery Coordination

Production, packing, documentation, and logistics can be coordinated for international infrastructure, marine, and industrial projects.

Request a Factory-Direct ICCP Quote
FAQ

ICCP Anode FAQs

Practical answers for engineers, EPC contractors, OEM buyers, system integrators, and procurement teams sourcing impressed current anodes.

What is an ICCP anode?
An ICCP anode is a component in an Impressed Current Cathodic Protection system. It delivers protective electrical current from an external DC power source to a metal structure, helping prevent corrosion.
How does an ICCP system prevent corrosion?
An ICCP system applies controlled DC current to the protected structure, making it act as the cathode in an electrochemical cell. This suppresses the natural corrosion reaction.
What is the difference between ICCP and sacrificial anode systems?
ICCP systems use an external power source and durable anodes such as MMO titanium anodes. Sacrificial systems use active metals such as zinc, magnesium, or aluminum that corrode in place of the protected structure.
What are the main advantages of ICCP anodes?
ICCP anodes offer adjustable current output, long service life, high protection capacity, and better suitability for large, complex, or high-resistivity structures.
What materials are commonly used for ICCP anodes?
Common ICCP anode materials include MMO-coated titanium, platinized titanium or niobium, high-silicon cast iron, and graphite. MMO titanium is widely used for modern long-life ICCP systems.
Which MMO coating should I choose, Ir-Ta or Ru-Ir?
Ir-Ta coatings are typically used in oxygen evolution environments such as soil, freshwater, and concrete. Ru-Ir coatings are often used in chlorine evolution environments such as seawater or brackish water.
What ICCP anode forms are available?
Common forms include tubular, rod, wire, ribbon, mesh, disc, plate, canister, linear, string, and custom assemblies.
How do I choose the right ICCP anode shape?
The shape depends on structure geometry and current distribution needs. Tubular and rod anodes are general-purpose. Ribbon, wire, and mesh suit distributed systems. Disc or elliptical anodes fit ship hulls and confined surfaces. Canister anodes are used in soil or deep-well groundbeds.
What affects ICCP anode lifespan?
Lifespan depends on coating type, coating load, operating current density, electrolyte chemistry, temperature, installation quality, and system operation.
Can ICCP anodes be used in high-resistivity soil?
Yes, but special design may be required. Conductive backfill, canisterized anodes, proper groundbed design, and suitable operating voltage help improve system performance.
Do ICCP systems require an external power source?
Yes. ICCP systems require an external DC power source, typically a transformer rectifier, to deliver protective current.
What standards or documentation can support ICCP anode procurement?
Relevant references may include ASTM material standards, ISO quality systems, NACE / AMPP or ISO cathodic protection design standards, inspection reports, XRF records, drawings, and material certificates.
Can you manufacture custom ICCP anodes from drawings?
Yes. Hele Titanium can manufacture ICCP anodes according to drawings, dimensions, coating requirements, current output targets, cable specifications, sealing methods, and mounting details.
What information should I provide for a quotation?
Please provide the operating environment, protected structure, target service life, required current output, preferred anode form, coating type if known, cable details, drawings, quantity, and delivery requirements.
Ask Our ICCP Specialists

Inside Our Manufacturing & Quality System

Every ICCP anode is produced through controlled titanium substrate preparation, MMO coating, dimensional inspection, electrical validation, cable sealing, and documentation review — helping buyers reduce technical risk and improve long-term field reliability.

From titanium substrate preparation and MMO coating to cable connection, sealing, machining, and assembly, each ICCP anode production step is controlled according to project specifications.

Titanium substrate preparation

Titanium substrate preparation before MMO coating

MMO coating process

Controlled MMO coating process for ICCP performance

Thermal treatment

Thermal treatment for coating adhesion and stability

Machining

Drawing-based machining for custom anode forms

Cable sealing

Cable sealing for long-term field reliability

Canister assembly

Canister anode assembly for soil and deep-well installation

Our workshop supports multiple ICCP anode formats, including tubular, wire, ribbon, mesh, disc, rod, plate, canister, and custom assemblies.

Workshop

Workshop support for MMO titanium ICCP anodes

Tubular manufacturing

Production capability for tubular and rod anodes

Ribbon preparation

Ribbon and mesh anode preparation for distributed protection

Disc machining

Custom disc and plate anode machining

Cable assembly

Cable assembly and sealing preparation

Packing

Export-ready packing for global ICCP projects

Quality checks focus on coating load, coating uniformity, adhesion, dimensional accuracy, electrochemical performance, cable seal reliability, and traceability documentation.

XRF Test

XRF testing for MMO precious metal loading

Adhesion Test

Adhesion testing for coating reliability

ALT Test

Accelerated life testing for design life validation

Electrochemical Test

Electrochemical performance testing

For qualified projects, Hele Titanium can provide material certificates, coating records, inspection reports, drawings, traceability documents, and export documentation.

Material Cert

Titanium material documentation

Coating Report

MMO coating test reports

XRF Record

XRF records for coating load

Dim Report

Dimensional reports

Product Drawing

Product drawings for project alignment

Export Doc

Export documentation support

Need production details, coating records, inspection reports, or project-specific documentation for your ICCP anodes?

Request Manufacturing & QC Details
BUYER’S GUIDE

ICCP Anode Selection Guide for Industrial Corrosion Control

Reading Time: 8–10 min Buyer Type: Engineers / EPCs / OEMs / System Integrators Product Scope: MMO Titanium ICCP Anodes

When protecting critical infrastructure such as pipelines, offshore platforms, ship hulls, storage tanks, or reinforced concrete, selecting the right ICCP anode is essential. An underperforming anode can cause uneven current distribution, accelerated corrosion

Table of Contents

1. What Is an ICCP Anode?

A fundamental overview of the core component driving Impressed Current Cathodic Protection systems.

An ICCP anode is the active current-discharging component in an Impressed Current Cathodic Protection system. It works with an external DC power source to deliver protective current to a metal structure, helping prevent corrosion in seawater, soil, freshwater, concrete, or process environments.

Buyer Note: Unlike sacrificial anodes, ICCP anodes are designed to be durable current-discharge components rather than consumed protection metals.

2. How ICCP Anodes Work

Understanding the electrochemical mechanism of controlled DC current discharge for corrosion suppression.

The ICCP power supply delivers controlled DC current to the anode. The anode discharges this current into the surrounding electrolyte, and the current flows toward the protected metal structure. This makes the structure cathodic and suppresses the corrosion reaction.

Simple Workflow: Power Supply → ICCP Anode → Electrolyte → Protected Structure → Corrosion Suppression

Warning: If the anode is undersized, incorrectly coated, poorly sealed, or installed in the wrong position, the system may suffer from under-protection, over-protection, stray current risk, or premature anode failure.

3. Benefits of ICCP Systems

Key advantages of adopting impressed current solutions for large-scale and high-demand infrastructure.

ICCP systems are often selected when the protected structure is large, the environment is aggressive, the design life is long, or the system requires controlled protection output.

  • Adjustable current output
  • Long design life
  • Suitable for large or complex assets
  • Effective in high-resistivity environments
  • Lower anode replacement frequency
  • Better current control than sacrificial systems
  • Strong lifecycle value for large projects

4. ICCP vs Sacrificial Systems

A comparative analysis to help you choose the right cathodic protection strategy for your asset.

Factor ICCP System Sacrificial Anode System
Power SourceExternal DC rectifierSelf-powered
Output ControlAdjustableFixed
Current CapacityHighLimited
Best ForLarge, complex, high-demand assetsSmall, isolated, or simple assets
Anode LifeLong, slow consumptionConsumed over time
Initial CostHigherLower
MaintenanceRequires monitoringMainly replacement checks
Long-Term ValueStrong for large projectsStrong for simple systems
Procurement Note: Use ICCP when your project requires precise control, long life, high current output, or protection of large infrastructure. Use sacrificial anodes when simplicity, low initial cost, or lack of power supply is the main priority.

5. ICCP Anode Materials

An evaluation of standard and advanced coating chemistries tailored for specific operating environments.

MMO-Coated Titanium Anodes

MMO-coated titanium anodes are the primary choice for modern ICCP systems. They offer stable current output, long life, low consumption, and strong performance across seawater, soil, freshwater, and concrete environments.

Platinized Titanium Anodes

Platinum-coated titanium or niobium anodes are used where high conductivity, compact geometry, or specialized electrochemical performance is required.

High-Silicon Cast Iron Anodes

High-silicon cast iron anodes are traditional ICCP anodes used in soil, freshwater, and groundbed systems where cost-effective current output is required.

Material Best Use Notes
MMO TitaniumModern ICCP systemsLong life, lightweight, low consumption
Pt/Ti or Pt/NbSpecialized high-value systemsHigh conductivity, higher cost
HSCISoil and freshwater groundbedsProven and cost-effective
GraphiteLegacy systemsEconomical but brittle

6. ICCP Anode Form Factors

An overview of physical geometries designed to optimize current distribution and simplify installation.

The physical shape of the ICCP anode affects current distribution, installation efficiency, resistance, and maintenance.

Form Best Application Buyer Note
TubularGroundbeds, offshore, seawaterGeneral-purpose high output
Wire / LinearPipelines, retrofits, distributed systemsFlexible and uniform
RibbonTank bottoms, concrete, large surfacesWide coverage
MeshConcrete and surface coverageHigh surface area
Disc / EllipticalShip hulls, tanks, water boxesLow-profile mounting
CanisterSoil and deep wellsReady-to-install with backfill
RodTanks, OEM systems, water heatersCompact and simple
Custom AssemblySpecial equipmentDrawing-based manufacturing

7. Key Application Areas

Common industrial and infrastructure scenarios where ICCP anodes provide critical corrosion defense.

Application Common Anode Forms Notes
PipelinesWire, linear, tubular, canisterLong-distance current distribution
Offshore platformsTubular, rod, custom assembliesHarsh seawater exposure
Ship hullsDisc, elliptical, rodLow-profile geometry important
Storage tanksRibbon, mesh, flexible linear, canister, rodTank bottom protection
Reinforced concreteMesh, ribbon, discrete rodRebar corrosion control
Water treatmentRod, disc, tubularChemistry compatibility required
Power plantsDisc, rod, tubularCooling water corrosion protection
OEM equipmentRod, plate, disc, customIntegration and drawings matter

8. Selection Factors

Essential engineering parameters to evaluate when specifying an anode for your specific project.

  • Operating environment: seawater, soil, freshwater, concrete, process water
  • Coating chemistry: Ir-Ta, Ru-Ir, Pt, or custom MMO
  • Required current output
  • Operating current density
  • Target service life
  • Anode form factor
  • Installation method
  • Cable type and sealing method
  • Backfill or canister requirements
  • Drawings and tolerance requirements
  • QA documentation requirements
Warning: Do not select ICCP anodes only by shape or price. Coating type, coating load, current density, and environment determine whether the anode will meet design life.

9. Technical Specifications

A breakdown of the critical performance metrics and material properties required for reliable operation.

Parameter Typical Option / Value Why It Matters
Substrate MaterialTitanium ASTM Grade 1 / Grade 2Corrosion resistance and mechanical base
Coating TypeIr-Ta MMO, Ru-Ir MMO, Pt coatingEnvironment-specific current discharge
Available FormsTube, rod, plate, mesh, wire, canister, discInstallation and current distribution
Coating LoadEngineered for design lifeAffects service life and current capacity
Current DensityEnvironment-specificPrevents premature coating failure
Operating EnvironmentSeawater, soil, freshwater, concreteDetermines coating and form
Operating TemperatureApplication-specificAffects coating stability
Fluoride RiskMust be evaluatedFluoride can attack titanium substrate
Design Service Life10–25+ years or customBased on coating load and operation

10. QA & Testing Requirements

Essential quality control protocols and documentation needed to verify anode performance and lifespan.

A reliable ICCP anode supplier should provide inspection and validation that supports your project requirements.

  • Material certificate
  • Coating load verification
  • XRF analysis
  • Coating adhesion check
  • Coating uniformity check
  • Accelerated life testing if required
  • Electrochemical performance validation
  • Visual and dimensional inspection
  • Cable and seal verification
  • Final inspection report

11. Common Specification Mistakes

Frequent pitfalls in anode procurement and engineering, along with best practices to avoid them.

Mistake Risk Better Practice
Using wrong coating chemistryPremature failure or poor outputMatch coating to electrolyte
Ignoring current densityReduced design lifeCalculate based on system demand
Choosing wrong form factorPoor current distributionMatch shape to structure geometry
Weak cable sealingWater ingress and current lossSpecify sealing and test method
No QA documentationProcurement and approval delaysRequest inspection records early
Selecting by lowest price onlyHigher lifecycle costEvaluate TCO and design life

12. RFQ Checklist

A comprehensive guide to the technical details needed to secure an accurate and timely quotation.

To receive a faster and more accurate quotation, provide as much technical detail as possible.

  • Protected structure type
  • Operating environment
  • Electrolyte details if known
  • Required current output
  • Target service life
  • Preferred anode form
  • Coating type if specified
  • Cable type, size, and length
  • Connector and sealing requirements
  • Drawings or dimensions
  • Quantity
  • Testing and documentation needs
  • Destination country or port
  • Expected delivery schedule

Need Help Specifying the Right ICCP Anode?

Send your operating environment, structure type, current output, design life target, and drawing requirements to Hele Titanium. Our technical team will help you review the best-fit ICCP anode form and coating solution.

Request ICCP Anode Selection Support
ICCP Anode Installation
ICCP ANODE INQUIRY

Find Your Optimal ICCP Anode Now

Tell us your environment, structure type, current output, design life, or drawing requirements, and our team will recommend the right MMO titanium ICCP anode solution.

  • Factory-Direct MMO Anode Manufacturing
  • Custom Coating & Form Factor Support
  • Testing Documentation Available

Prefer email? sales@heletitanium.com

We typically respond within 24 hours.