YGGR optimized for in high temperature foundry furnaces steel mill rolling lines and petrochemical plants

High-temperature industrial environments (foundry furnaces, steel mill rolling lines, oil refinery high-temperature pipelines) often cause traditional cables to age rapidly, crack, or short-circuit, leading to costly production downtime and potential safety hazards. YGGR high-temperature flexible silicone rubber cables effectively solve these pain points through advanced materials engineering and structural design. This cable utilizes high-purity ultra-fine stranded copper conductors, reinforced cross-linked polyethylene (XLPE) insulation, and a high-performance silicone rubber outer sheath. It maintains stable electrical performance during continuous operation at 200°C (short-term peak temperature up to 240°C), is resistant to industrial oils, coolants, and weak acid/alkali corrosion, and can withstand extreme temperature fluctuations. Suitable for environments such as -65°C Arctic industrial workshops, 200°C foundry environments, and 60°C desert refineries, it has passed EU (CE/RoHS 3.0), North American (UL/cUL), Australian (SAA), and Middle East & North Africa (SASO) certifications, making it the preferred high-temperature power solution for global industrial manufacturers.

YGGR is a high-performance, low-voltage (0.6/1kV) high-temperature flexible power cable, specifically developed for power transmission and control in extreme high-temperature industrial environments with critical requirements for heat resistance, flexibility, and chemical stability. Its optimized layered structure ensures comprehensive reliability: 5+ grade ultra-fine stranded copper conductors (ultra-flexible, low resistance, low energy loss), reinforced cross-linked polyethylene (XLPE) insulation (heat resistant, anti-aging, high dielectric strength), and reinforced silicone rubber outer sheath (heat resistant, oil resistant, UV resistant, abrasion resistant core layer). "YGGR" is defined as: Y = Cross-linked polyethylene (XLPE) insulation; G = High-grade silicone rubber sheath; G = Flexible stranded copper conductor; R = Reinforced flexible structure. Its unique feature is that, compared to standard high-temperature cables, YGGR uses reinforced silicone rubber with added anti-aging agents, extending service life by 30% in high-temperature environments. Simultaneously, the ultra-fine stranded conductors (≥250 strands in 2.5mm² specification) achieve superior flexibility, solving the wiring challenges in narrow gaps around high-temperature equipment—distinguishing it from rigid or low-flexibility high-temperature cables.

• 200℃ Continuous High-Temperature Stability: The reinforced silicone rubber sheath supports long-term continuous operation at 200℃ and short-term peak operation at 240℃, meeting IEC 60228 Class 5+ and UL 1028 high-temperature cable standards. In high-temperature industrial environments (e.g., foundry furnaces, steel plant heating zones), it will not age, crack, or experience performance degradation, ensuring stable operation for over 12 years, thereby reducing cable replacement frequency and maintenance costs.
• Superior Flexibility for Complex Installations: Class 5+ ultra-fine stranded copper conductors, with a minimum bending radius ≤ 5 times the cable's outer diameter (OD), 20% smaller than standard high-temperature cables. It can easily navigate narrow gaps between high-temperature equipment, furnaces, and complex industrial pipelines without the need for special bending tools, reducing installation time by 35% and improving construction efficiency.
• Resistant to Industrial Oils and Weak Acids/Alkalis: The reinforced silicone rubber sheath is resistant to most industrial oils (mineral oil, hydraulic oil), coolants, and weak acids/alkalis (pH 4-9, such as foundry cooling water and weakly alkaline cleaning agents in oil refineries). Even in environments with oil splashes or chemicals, the sheath will not swell, harden, or peel—making it ideal for oil refineries, chemical plants, and machinery equipped with lubrication systems.
• All-Climate Extreme Adaptability (-65°C to 200°C): Utilizing a specially formulated silicone rubber material with antifreeze and UV resistance, it demonstrates reliable performance in Arctic industrial workshops at -65°C (without cracking), desert oil refineries at 60°C (high ambient temperature + equipment radiation), and coastal high-temperature factories (salt spray resistance). A single cable can meet the needs of high-temperature industrial applications worldwide, eliminating the need for region-specific cable customization.
• Global Certifications and Supply Chain Efficiency: Certified by CE/RoHS 3.0 (EU), UL/cUL (North America 600V), SAA (Australia/New Zealand), SASO (Middle East and North Africa), and IEC 60502. A single cable can meet the high-temperature requirements of multiple global markets, avoiding the costs of repeated certifications and shortening market entry cycles. Popular specifications are readily available (3-day express shipping), and global logistics partnerships (DHL/FedEx/sea freight) ensure on-time delivery and reduce project delays caused by cable shortages.

Note: All specifications are in stock (fast shipping within 3 days). Bulk orders can be customized with core count (up to 5+1) and cross-sectional size (1.0~50mm²), and provide complete high-temperature resistance, oil resistance, and certification guarantees.

YGGR cables are specifically designed to meet the high-temperature power transmission needs of industrial projects worldwide, covering high-temperature application scenarios in regions with stringent compliance requirements:

• EU Market: Power supply for continuous casting machines in steel plants, heating circuits for induction furnaces in foundries, wiring for high-temperature kilns in glass manufacturing, and control power supply for industrial dryers (compliant with CE/RoHS 3.0 standards, and meets EN 50200 and IEC 60853 standards)
• North American Market: High-temperature pipeline heating systems in oil refineries, auxiliary power supply for reactors in chemical plants, heat treatment facilities for aerospace components, and power supply for high-temperature sterilization equipment in food processing (UL/cUL certified, compliant with NFPA 70 NEC and IEEE 1242 standards)
• Australia and New Zealand: Power supply for high-temperature ore processing equipment in mining areas, auxiliary power lines for coastal oil refineries, control circuits for industrial boilers in inland areas, and wiring for high-temperature drying equipment for agricultural products (compliant with SAA standards) Certifications: Resistant to inland high temperatures and coastal salinity corrosion; resistant to smog and mine dust.
• Middle East and North Africa Markets: Power supply for high-temperature units in desert petrochemical plants; auxiliary power supply for high-temperature wellheads in oil and gas fields; power supply for rolling mill lines in desert steel plants; heating circuits for high-temperature swimming pools in tourist resorts (SASO certified, heat-resistant, dust-resistant, and oil-resistant).
• Global High-Temperature Industries: Power supply for high-temperature setting machines in textile mills; heating power supply for extrusion lines in plastic processing; power supply for high-temperature flue gas treatment equipment in waste incineration power plants; auxiliary high-temperature area wiring in nuclear power plants (high temperature resistance, good flexibility, suitable for extreme industrial environments).