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Titanium-Clad Copper Manufacturing
Titanium-Clad Copper Solutions

High-Conductivity
Titanium-Clad Copper

Engineered for maximum current transfer and absolute chemical immunity. We manufacture explosively and metallurgically bonded Ti-Cu bars, rods, plates, and custom profiles designed for electroplating, chlor-alkali cells, marine grounding, and aggressive chemical processing.

Advanced Metallurgical Bonding
OFHC Copper Core
ASTM B898 / B432
EN 10204 3.1 MTC
Request Clad Copper Specs Talk to Our Metallurgists

Your OEM Partner for Metallurgically Bonded Ti-Cu Composites

The ultimate industrial balance: copper conductivity + titanium immunity.

Hele Titanium manufactures high-performance titanium-clad copper components engineered to eliminate galvanic corrosion and prevent interface delamination under severe thermal and electrical loads.

Using advanced explosive bonding and precision hot-roll techniques, we fuse an OFHC or high-conductivity copper core with an inert titanium outer layer, creating a composite that combines massive current-carrying capacity with long-term chemical immunity.

From custom-milled busbars for chlor-alkali systems to heavy-duty rods for electroplating lines, we engineer Ti-Cu profiles that reduce power loss, extend lifecycle performance, and integrate directly into demanding OEM equipment.

Metallurgical Bond Integrity
High-Amperage Conductivity
Anti-Delamination Reliability
OEM Profile Engineering
Explore Our Ti-Cu Profiles Below | Submit Blueprints for Custom Milling
Chinese Engineer inspecting Ti-Cu

Titanium-Clad Copper Series: Maximum Conductivity, Zero Corrosion

From high-amperage busbars to bespoke electrochemical profiles, our explosive and metallurgical bonding processes are engineered to prevent interface delamination while delivering stable conductivity in severe corrosive service.

Titanium-Clad Copper Bars

Titanium-Clad Copper Bars

C11000/OFHC Core + Gr2 Ti

Best for high-amperage conductor networks

Delivers copper-level current transfer with a titanium shield that resists corrosive attack in severe electrochemical service.

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Titanium-Clad Copper Rods

Titanium-Clad Copper Rods

Ø10–100mm | 0.5–3.0mm Ti Wall

Best for PCB plating lines & chlor-alkali

Compact cylindrical conductor profiles engineered for long-life current transfer in aggressive process media.

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Titanium-Clad Copper Plates

Titanium-Clad Copper Plates

5–50mm | Single/Double Clad

Best for rectifiers & tank bases

Strict flatness and dimensional control support structural stability and corrosion-proof electrical integration.

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Titanium-Clad Copper Busbars

Titanium-Clad Copper Busbars

Up to 6m Lengths | ASTM B898

Best for severe-corrosion power dist.

Optimized Ti/Cu ratio reduces power loss while protecting the copper core from chemical attack.

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Titanium-Clad Copper Sheets

Titanium-Clad Copper Sheets

1–10mm | Mill / Brushed Finish

Best for cathode plates & linings

Precision slit-to-width sheet forms combine conductivity with a chemically inert contact surface.

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Titanium-Clad Copper Electrodes

Titanium-Clad Copper Electrodes

Pre-Drilled / Threaded | Opt. MMO

Best for electrowinning & anodizing

Ready-to-install conductor-electrode components built for stable electrochemical performance.

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Titanium-Clad Copper Strips

Titanium-Clad Copper Strips

10–300mm Width | Coiled/Straight

Best for battery tabs & connectors

Zero-burr edge conditioning and precise width control improve conductor safety and assembly quality.

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Custom Ti-Cu Fabrication

Custom Ti-Cu Fabrication

CNC Milling / Turning / Welding

Best for proprietary OEM systems

We fabricate bespoke elbows, flanges, blocks, contacts, and connection parts to your exact technical drawings.

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Choose Titanium-Clad Copper by Form & Application Demand

Quickly identify the most suitable Ti-Cu solution based on conductor geometry, current load, corrosion exposure, installation method, and end-use system.

High-Amperage Bars

Busbar / Cell Power

Best for long conductor runs, electrolyzers, and industrial current-distribution networks.

Compact Rod Profiles

Plating / Chlor-Alkali

Best for rod-type current transfer in PCB plating lines, electrochemical cells, and anode hangers.

Flat Plates & Sheets

Rectifier / Base Contact

Best for tank bases, plate contacts, flat conductor interfaces, and aggressive structural zones.

Connector & Strip Forms

Tabs / Narrow Conductors

Best for narrow-width electrical conductors, tabs, and high-current connector assemblies.

Custom OEM Geometry

Drilled / Machined

Best for proprietary assemblies requiring special hole patterns, flanges, or mounting logic.

Need help selecting the right Ti/Cu ratio, cladding thickness, geometry, or bonding route?

Ask Our Metallurgists Request a Quote

Custom Ti-Cu Composite Fabrication

Engineered to Your Exact Electrochemical Specifications

Standard off-the-shelf conductors often fail to match the spatial constraints, current-density limits, or mounting logic of proprietary electrochemical systems. We work directly with OEMs and plant engineers to produce bespoke titanium-clad copper profiles designed for long-term electrochemical reliability.

Ti-Cu Conductor Blueprint and Machining

Metallurgical Calibration

  • specify exact Ti/Cu ratio
  • C11000 or OFHC copper core options
  • Grade 1 / 2 / 7 titanium cladding

Advanced Bonding Protocols

  • explosive or hot-roll bonding
  • controlled bonding for thermal load
  • anti-delamination & low resistance

Precision CNC & Assembly

  • drilling, slotting, threading, milling
  • ready-to-install fabricated parts
  • seamless integration, core protected

Surface & Contact Tuning

  • mill, brushed, or polished finish
  • MMO / platinum coating support
  • contact tuning for lower voltage drop

Maximum Conductivity. Zero Corrosion. OEM-Ready Fabrication.

Submit Your Conductor Blueprints Request a Custom Fabrication Quote

Stringent Quality Control: Engineered for Zero-Defect Conductivity

In high-amperage electrochemical environments, interface delamination or compromised titanium shielding leads to catastrophic copper-core corrosion, unstable current flow, and severe voltage loss. We apply rigorous NDT and metallurgical QA protocols to ensure a continuous, void-free bond and stable conductor performance before shipment.

The Ti-Cu QA & Metrology Workflow

1

Interfacial Bond Integrity

Action: 100% Ultrasonic Testing (UT) per bond-quality requirements.

Goal: detect voids, unbonded areas, and interface delamination.

✓ Confirms a continuous metallurgical bond throughout the conductor profile.

2

Material Verification

Action: PMI / spectrometer verification of copper core and titanium cladding.

Goal: confirm OFHC / C11000 core purity and titanium grade identity.

✓ Prevents material mix-up and supports full heat-number traceability.

3

Cladding Shield Uniformity

Action: eddy-current or sectional thickness verification.

Goal: confirm exact titanium wall thickness from 0.5mm to 3.0mm.

✓ Ensures reliable long-term chemical immunity without exposed copper risk.

4

Electrical Performance

Action: micro-ohmmeter testing and continuity verification.

Goal: guarantee maximum current-carrying capacity and low interfacial resistance.

✓ Prevents hidden voltage drop in high-load systems.

5

Dimensional Metrology

Action: calipers, micrometers, CMM, and profile verification.

Goal: maintain flatness, width, diameter, and custom machining accuracy.

✓ Ensures seamless OEM installation and network integration.

Comprehensive QA Documentation Packet

  • EN 10204 3.1 Material Test Certificate
  • UT / NDT bond-integrity reports
  • Certificate of Conformity
  • Dimensional and cladding-thickness reports
  • ISO 9001:2015 & export packing verification support
Download Our Quality Certifications Request Sample UT & MTC Reports

Industry-Specific Ti-Cu Solutions

Titanium-clad copper is the definitive conductor solution for high-current systems operating in aggressive media. We engineer bespoke Ti-Cu components to meet the exact electrical and chemical thresholds of your application.

Electroplating & Surface Finishing

Electroplating & Surface Finishing

Profile Focus: Busbars & Anode Rods

Challenge: Acidic plating tanks destroy conventional copper conductors and increase power loss.

Solution: Metallurgically bonded Ti-Cu maintains stable current distribution while shielding the copper core from corrosion.

Service Condition: Acidic tanks, plating hangers

Explore Electroplating Ti-Cu Solutions
Power Distribution & Switchgear

Power Distribution & Switchgear

Profile Focus: Busbars w/ Hole Patterns

Challenge: Coastal and corrosive environments rapidly oxidize exposed copper systems.

Solution: Ti-Cu busbars deliver copper-grade conductivity with titanium-level oxidation and corrosion resistance.

Service Condition: Coastal substations, corrosive electrical rooms

Explore Power Distribution Solutions
Chlor-Alkali & Chemical Processing

Chlor-Alkali & Chemical Processing

Profile Focus: Plates, Rods & Conductors

Challenge: Wet chlorine, hypochlorites, and severe electrolytes attack ordinary metallic conductors.

Solution: Custom cladding thickness and bond integrity protect conductor performance in aggressive electrochemical duty.

Service Condition: Electrolyzer frames, acid circulation

Explore Chlor-Alkali Ti-Cu Solutions
Marine & Cathodic Protection

Marine & Cathodic Protection

Profile Focus: Grounding Grids & Conductors

Challenge: Permanent saltwater exposure causes fast conductor degradation and unstable grounding performance.

Solution: Ti-Cu composites preserve electrical continuity while preventing seawater-driven corrosion failure.

Service Condition: Shipboard electrical, marine grounding

Explore Marine Ti-Cu Solutions

Optimize current transfer and service life with Ti-Cu conductors engineered for corrosive industrial reality.

Consult with Our Metallurgists Request an OEM Volume Quote

The Hele Titanium Advantage: OEM Excellence

Selecting a Ti-Cu manufacturer requires more than a price quote. It requires a guarantee of metallurgical integrity, dimensional reliability, and traceable performance under real operating load.

Specialized Metallurgical Bonding

Explosive and hot-roll bonding routes are selected to deliver a dense, void-free interface and reduce delamination risk under thermal cycling.

100% In-House Fabrication

From copper-core preparation to CNC machining and final verification, we control the entire production cycle for faster lead times and tighter profile accuracy.

Engineered Customization

Every Ti-Cu rod, bar, plate, or strip can be tailored for exact Ti/Cu ratio, cladding thickness, and amperage requirement.

Certified Compliance & Traceability

Production aligns with ISO 9001:2015 and relevant material standards, with EN 10204 3.1 MTC and UT reporting support.

Zero-Delamination Focus

Our bond-integrity control is designed specifically to eliminate the most critical long-term failure mode of clad conductors.

Global Logistics Ready

Export-ready packaging and documentation support North America, Europe, Asia, and project-driven OEM delivery schedules.

Ready to optimize your high-amperage system?

Consult with Our Metallurgists Request an OEM Volume Quote

Technical FAQs: Titanium-Clad Copper (Ti-Cu)

Find quick answers about conductivity, metallurgical bonding, cladding thickness, delamination risk, fabrication, and long-term electrochemical performance.

Bonding & Performance

What is the primary engineering advantage of Ti-Cu composites over solid copper?
Solid copper offers excellent conductivity but corrodes rapidly in acidic or highly oxidative environments. Ti-Cu composites provide the conductivity of the copper core while the outer titanium layer acts as an impenetrable shield against chemical attack, ensuring long-term stable current transfer without degradation.
How is a 100% metallurgical bond achieved, and why does it matter?
We utilize explosive bonding and hot-roll bonding. These high-energy processes force the titanium and copper atoms to share electrons at the interface, creating a continuous metallurgical weld rather than a simple mechanical joint. This is critical because any air gap or unbonded area will cause severe electrical resistance and localized overheating.
Does titanium cladding significantly impact electrical conductivity?
No. Because titanium has high electrical resistance compared to copper, the current naturally flows almost entirely through the low-resistance copper core. The titanium acts structurally as a protective shell, not the primary conductor.
How do you prevent interface delamination under thermal cycling?
Delamination is prevented by strict control of the intermetallic compound (IMC) layer during bonding and verified through 100% Ultrasonic Testing (UT). A properly bonded Ti-Cu interface can withstand significant thermal expansion differences between the two metals without separating.

Applications & Fabrication

Which industries benefit most from Ti-Cu bars and rods?
The primary users are electroplating line builders, chlor-alkali and electrolyzer OEMs, hydrometallurgy plants, PCB plating equipment manufacturers, and marine grounding engineers.
What are the common fabrication limits for Ti-Cu materials?
We can produce rods from Ø10mm to 100mm, plates up to 50mm thick, and busbars up to 6 meters in length. Cladding thickness typically ranges from 0.5mm to 3.0mm, depending on the severity of the corrosive environment.
Can you machine custom holes, threads, and flanges into Ti-Cu parts?
Yes. We offer complete in-house CNC machining. However, care must be taken during design to ensure that drilling or slotting does not expose the copper core to the corrosive media, or proper sealing mechanisms must be engineered.
How do I verify the quality and longevity of Ti-Cu components?
Always request an EN 10204 3.1 Material Test Certificate, alongside Ultrasonic Testing (UT) reports confirming a continuous metallurgical bond without voids.

Inside Our Manufacturing & Quality System

See how we produce, inspect, and document titanium products as a direct manufacturing partner.

Need production photos, inspection records, or documentation support? Contact our team for direct factory assistance.

Request Documentation Talk to Our Factory Team

Engineering & Procurement Guide: Titanium-Clad Copper (Ti-Cu)

Read Time: 16 Minutes | Author: Hele Titanium Engineering Team | Last Updated: 2026

Titanium-clad copper is the definitive composite solution for high-amperage systems operating in aggressive media. This guide outlines the metallurgical bonding technologies, material-grade selections, and QA protocols required to ensure zero interface delamination and maximum electrical efficiency.

Before You RFQ Titanium-Clad Copper, Confirm These 3 Things

  • What geometry best fits your system: rod, bar, plate, busbar, strip, or custom machined profile?
  • What current load, conductivity target, and corrosion environment must the component withstand?
  • Which core grade, titanium grade, and cladding thickness are required for long-term reliability?

1. Core Engineering Advantages

Ti-Cu eliminates the fundamental conductivity-versus-corrosion trade-off. Solid copper provides excellent electrical transfer but is rapidly destroyed by acids, chlorides, and seawater. Solid titanium resists these environments flawlessly but is a poor conductor. By combining a highly conductive copper core with a chemically inert titanium shield via metallurgical bonding, engineers achieve a zero-compromise conductor for the most severe industrial applications.

2. Material Grade Selection Matrix

Material Role in Composite Key Advantage Best Use Case
C11000 (ETP Copper)Conductive CoreHigh conductivity, cost-effectiveStandard busbars, general electroplating
C10200 (OFHC Copper)Conductive CoreHighest conductivity, hydrogen embrittlement resistantHigh-end electrolyzers, extreme amperage systems
Grade 1 TiOuter CladdingHighest ductility, easy formingComplex profiles, thin cladding
Grade 2 TiOuter CladdingStandard strength + excellent corrosion resistanceMajority of industrial applications
Grade 7 Ti (Pd-alloyed)Outer CladdingImmunity to reducing acidsExtreme chemical processing environments

3. Advanced Metallurgical Bonding Technologies

A simple mechanical sleeve is insufficient for high-current applications due to air gaps that cause electrical resistance. We utilize Explosive Welding and Hot-Roll Bonding, often combined with hot extrusion and stretching for long rods. These processes create a true metallurgical weld at the atomic level, ensuring high interfacial shear strength and absolute electrical continuity.

4. Interfacial Integrity: Preventing Delamination

The #1 failure mode of poorly manufactured clad conductors is delamination—where the titanium separates from the copper due to thermal stress or poor bonding. We prevent this by strictly controlling the Intermetallic Compound (IMC) layer thickness during the thermal bonding phase, optimizing the Ti/Cu ratio, and verifying every piece with 100% Ultrasonic Testing (UT) to detect hidden voids.

5. Comparative Material Analysis

Feature Ti-Clad Copper Solid Copper Solid Titanium
ConductivityExcellent (Core)ExcellentPoor
Corrosion ResistanceExcellent (Shield)Poor in AcidsExcellent
Total Cost of OwnershipLowest (Long Life)High (Replacement)High (Power Loss)
Typical LogicUltimate synergyDry/safe zones onlyStructural/low-current

6. Available Product Geometries & Specifications

Form Typical Range Cladding Thickness Typical Use
Bars & RodsØ10mm – 100mm0.5mm – 3.0mmPlating hangers, anodes
Plates & Sheets1mm – 50mm thick1.0mm – 5.0mmTank bases, structural contacts
BusbarsUp to 6m lengths1.0mm – 2.5mmPower distribution networks
Custom ProfilesPer DrawingVariableProprietary OEM assemblies

7. Quality Control & International Compliance Standards

Production is guided by standards such as ASTM B898 (Reactive and Refractory Metal Clad Plate) and ASTM B432. The copper input aligns with relevant ASTM standards, while the titanium conforms to ASTM B265. Full traceability is maintained via EN 10204 3.1 certification, supported by rigorous dimensional and electrical continuity verification.

8. Industry-Specific Value Mapping

Whether it is preventing power loss in chlor-alkali electrolyzers, stopping acid corrosion in PCB plating lines, or ensuring lifelong continuity in marine grounding grids, Ti-Cu composites deliver measurable ROI by eliminating conductor replacement cycles and reducing energy consumption.

Optimize Your System’s Electrical Efficiency and Service Life

Hele Titanium provides end-to-end support for titanium-clad copper, from material-grade selection to finished conductor fabrication, helping OEMs and plant engineers reduce corrosion risk, current loss, and lifecycle cost.

Request a Technical Quote Download Detailed MTC & UT Samples
Titanium-Clad Copper Inquiry

Get Your Titanium-Clad Copper Solution

Tell us your required Ti-Cu form, copper core grade, titanium cladding grade, wall thickness, current load, application environment, and machining requirements. Our team will recommend the most suitable bonded composite solution for your system.

  • Advanced Metallurgical Bonding
  • High-Conductivity + Corrosion Resistance
  • UT, MTC & Full Traceability Support

Direct Contact:

sales@heletitanium.com

Room 1206, Building 1, Huaxia Yue World

Request a Quote

We typically respond within 24 hours.