16mm²: Handles up to 100A, ideal for light-duty MIG (Metal Inert Gas) or TIG (Tungsten Inert Gas) welders used in precision metalwork or automotive repair.

25mm²: Supports 150A, suitable for medium-duty applications such as fabrication of small steel components.

35mm²: Rated for 200A, used in medium-to-heavy-duty welding of structural parts or pipelines.

50mm²: Carries 250A, powering heavy-duty arc welders in industrial settings.

70mm²: Handles 350A, suitable for large-scale construction welding, including bridge components.

95mm²: Supports up to 500A, designed for extreme heavy-duty applications like shipbuilding or offshore structure welding.

EPDM Rubber: Provides excellent resistance to high temperatures (continuous operation up to 90°C, short-term exposure to 130°C), ozone, and weathering. It is highly flexible even at low temperatures (-40°C), making it suitable for outdoor welding in cold climates. EPDM also offers good resistance to water and mild chemicals, ensuring performance in damp or humid environments.

Chloroprene Rubber: Known for its superior flame resistance and self-extinguishing properties, critical in welding environments where sparks and molten metal splatters are common. It has a temperature range of -30°C to 80°C and offers excellent resistance to oils, greases, and abrasion—ideal for industrial workshops where contact with machinery or sharp metal edges is frequent.

Abrasion Resistance: The rubber sheath is formulated to withstand repeated contact with rough surfaces like concrete floors, metal workbenches, and machinery. Testing according to DIN EN 60811-2-1 shows that the sheath can withstand over 10,000 cycles of abrasion with minimal damage.

Flame Resistance: As required by DIN VDE 0282, the sheath is flame-retardant, self-extinguishing within 30 seconds of removing the ignition source, reducing fire risk in case of contact with sparks or open flames.

Tear Resistance: The rubber compound has high tensile strength (≥10MPa) and elongation at break (≥300%), allowing it to resist tearing when snagged on sharp edges or pulled tightly around corners.

Weather Resistance: UV stabilizers are added to the rubber formulation, enabling the cables to resist degradation from sunlight exposure, making them suitable for outdoor applications like construction site welding.

Extreme Flexibility: The fine-stranded conductor and supple rubber sheath allow the cable to be coiled, bent, and draped with minimal effort, reducing operator fatigue and improving maneuverability around workpieces. This is particularly valuable in tight spaces, such as ship hulls or machinery interiors, where Rigid Cables would be impractical.

High Current Handling: The combination of large conductor sizes and high-purity copper enables the cables to transmit the high currents required for heavy-duty welding without excessive heating, ensuring consistent arc performance.

Resistance to Welding Hazards: The rubber sheath is specifically designed to withstand sparks, molten metal splatters, and contact with hot surfaces (up to 130°C for short periods), preventing damage and maintaining insulation integrity.

Oil and Chemical Resistance: The sheath resists degradation from welding fluxes, lubricants, and cleaning solvents, ensuring longevity in industrial environments.

Industrial Manufacturing: Powering MIG, TIG, and stick welders in factories producing automotive parts, metal furniture, and machinery components. The 25mm² and 35mm² cables are commonly used here for their balance of flexibility and current capacity.

Construction and Infrastructure: Supporting on-site welding of steel structures, bridges, and pipelines. The 50mm² and 70mm² Cables are preferred for their ability to handle the high currents needed for thick material welding.

Shipbuilding and Offshore: Used in the construction and repair of ships, oil rigs, and offshore platforms, where the 95mm² cables power heavy-duty welders, and the weather-resistant sheath withstands saltwater and harsh marine conditions.

Automotive Repair and Fabrication: Ideal for body shops and custom fabrication, where the 16mm² and 25mm² cables’ flexibility allows precise welding of vehicle components.

Aerospace and Defense: Supporting precision welding of aircraft parts and military equipment, where the cables’ reliability and flexibility are critical in tight, controlled environments.

Conductivity Testing: Each batch of copper strands is tested to ensure conductivity ≥98% IACS.

Flexibility Testing: Samples are subjected to repeated bending (up to 1 million cycles) to verify they maintain flexibility and electrical continuity.

Abrasion Resistance: Tests according to DIN EN 60811-2-1 ensure the sheath can withstand industrial wear.

Flame Resistance: Cables are tested to confirm they self-extinguish within 30 seconds as required by DIN VDE 0282.

Electrical Testing: Insulation resistance (≥1000MΩ·km at 20°C) and high-voltage withstand (3kV for 5 minutes) tests ensure electrical safety.

Chemical Resistance: Samples are exposed to oils, fluxes, and solvents to verify sheath integrity.

16mm² and 25mm² cables: Wound on reels with a 300mm diameter flange.

35mm² and 50mm² cables: Use 400mm diameter reels.

70mm² and 95mm² cables: Require 500mm or 600mm diameter reels to accommodate their larger size.

Product type (H01n2-D)

Conductor size (e.g., 35mm²)

Length

Rated current

Manufacturer name and logo

Batch number and production date

Compliance marks (DIN VDE 0282, CE)

Handling instructions ("Keep Dry," "Do Not Drop")

Road Transport: The most common method for domestic shipments. Reels are loaded onto flatbed or enclosed trucks using forklifts, with straps securing them to prevent movement. For small boxes, standard courier services are used. Delivery times range from 1–5 business days for domestic routes.

Rail Transport: Suitable for large quantities or long-distance domestic shipments. Reels are loaded into railcars, with protective padding to prevent damage. Transit times are typically 3–7 days.

Sea Transport: Ideal for international shipments of large quantities. Reels are loaded into shipping containers, often secured on pallets to maximize space and stability. Transit times vary by destination (e.g., 2–4 weeks to Europe, 4–6 weeks to Asia).

Air Transport: Used for urgent orders or small quantities. Cables are shipped in boxes or small reels, with strict weight limits (typically ≤30kg per package). Delivery times are 3–5 business days globally.

Order Placement: Customers can order via phone, email, or online platforms. Orders require specifying conductor size, length, quantity, and rubber type (EPDM or chloroprene). Custom lengths (e.g., 75m) are available upon request.

Quotation and Confirmation: A quote is provided within 24 hours, including pricing, lead times, and shipping options. Once confirmed, an order acknowledgment is sent with details like delivery date and payment terms.

Production Lead Times: Standard lengths (50m, 100m) are typically in stock, with same-day or next-day dispatch. Custom lengths or large quantities may require 3–7 business days for production.

Tracking and Delivery: Customers receive a tracking number once shipped, allowing them to monitor progress via the carrier’s website. Delivery is confirmed with a signed receipt, and any damage during transit must be reported within 48 hours.

Sample Availability: Samples of 1–2 meters are available for all conductor sizes. They are provided free of charge, with customers covering only shipping costs.

Sample Specifications: Samples include the full cable structure (conductor, insulation, sheath) and are labeled with the same information as full-length cables.

Ordering Samples: Requests can be made via email or phone, with samples dispatched within 1–3 business days. International samples may take longer due to customs clearance.

Testing Support: Manufacturers can provide test reports (e.g., conductivity, flexibility, flame resistance) for samples upon request, aiding customers in qualification processes.

Warranty: 12 months from the date of delivery, covering material defects and manufacturing process issues. During the warranty period, if the cable is damaged due to product quality issues, the supplier will replace or repair it free of charge.

Installation and Usage Guide: Provide detailed installation and usage instructions to guide customers in properly laying, connecting, and maintaining cables to maximize their service life. The manual includes requirements for bending radius, terminal selection, and key points for daily inspection.

Technical Support: A professional technical team can provide technical consultations via phone, email, or video conference to resolve issues encountered by customers during use, such as cable overheating, insulation damage, etc.

Fault Handling: If customers report cable faults, the supplier will respond within 24 hours and propose a solution within 48 hours. For major quality issues, technical personnel can be dispatched to investigate and handle the problem on site.

Regular follow-up: For major clients or important projects, suppliers will conduct regular follow-up visits to understand cable usage, provide maintenance recommendations, and establish long-term cooperative relationships.