Applications
ElECTROMAGNETIC FIELD FACILITIES
Hospitals with Precision Medical Equipment / Semiconductor Fabs / Airports / Military Facilities / High-Voltage Power Plants and Substations, etc.
• EMI Sensitivity: Facilities such as hospital MRI rooms, semiconductor fabs, airport radar bases, military communication facilities, and power plants are extremely sensitive to Electromagnetic Interference (EMI). In these environments, the reinforcing bars in concrete structures must go beyond providing physical support; they require 'non-conductivity' to ensure they do not disrupt Electromagnetic Compatibility (EMC).
• The GFRP Solution: Epoxy GFRP rebar is a perfect electrical insulator and a non-conductive material that neither blocks nor distorts magnetic fields or electromagnetic waves. Therefore, it maintains structural stability without causing interference, even in spaces densely packed with high-magnetic-field medical devices (like MRIs) or ultra-precision semiconductor equipment.
• EMI Sensitivity: Facilities such as hospital MRI rooms, semiconductor fabs, airport radar bases, military communication facilities, and power plants are extremely sensitive to Electromagnetic Interference (EMI). In these environments, the reinforcing bars in concrete structures must go beyond providing physical support; they require 'non-conductivity' to ensure they do not disrupt Electromagnetic Compatibility (EMC).
• The GFRP Solution: Epoxy GFRP rebar is a perfect electrical insulator and a non-conductive material that neither blocks nor distorts magnetic fields or electromagnetic waves. Therefore, it maintains structural stability without causing interference, even in spaces densely packed with high-magnetic-field medical devices (like MRIs) or ultra-precision semiconductor equipment.
ElECTROMAGNETIC FIELD FACILITIES
Hospitals
• Strict Non-Conductivity Requirements: Hospital MRI (Magnetic Resonance Imaging) rooms and precision diagnostic centers are specialized spaces where strong magnetic fields are generated. Because even the slightest electromagnetic interference (EMI) can cause errors in diagnostic results, securing "non-conductivity" during structural design is essential.
• Zero Interference: As a perfect electrical insulator, Epoxy GFRP rebar does not distort or block magnetic fields and is completely free from electromagnetic wave interference. Thus, it creates an environment where precision medical equipment can operate at 100% of its capacity.
• Zero Interference: As a perfect electrical insulator, Epoxy GFRP rebar does not distort or block magnetic fields and is completely free from electromagnetic wave interference. Thus, it creates an environment where precision medical equipment can operate at 100% of its capacity.
ElECTROMAGNETIC FIELD FACILITIES
Semiconductor Fabs
• Extreme Precision Needs: Semiconductor manufacturing facilities (Fabs) handle ultra-fine processes at the nanometer scale. Because even minute vibrations or external electromagnetic noise can fatally impact product yield, precise structural control and shielding are paramount.
• Electromagnetic Protection: Epoxy GFRP rebar is a completely non-conductive and non-magnetic material. It does not generate electromagnetic noise or distort external magnetic fields, perfectly protecting the highly sensitive electromagnetic environment required during the semiconductor manufacturing process.
• Electromagnetic Protection: Epoxy GFRP rebar is a completely non-conductive and non-magnetic material. It does not generate electromagnetic noise or distort external magnetic fields, perfectly protecting the highly sensitive electromagnetic environment required during the semiconductor manufacturing process.
ElECTROMAGNETIC FIELD FACILITIES
Airports
• Signal Integrity: Airports are densely packed with highly sensitive, electromagnetic wave-based communication and navigation equipment, such as Air Traffic Control (ATC) systems, Instrument Landing Systems (ILS), and radar. Maintaining the signal integrity of these devices is the core of aviation safety.
• Electromagnetic Transparency: As a completely non-conductive and non-magnetic material, Epoxy GFRP rebar allows electromagnetic waves to pass through freely without blocking or reflecting them. This guarantees a clean electromagnetic environment without signal distortion, even in areas crowded with communication and radar equipment.environment required during the semiconductor manufacturing process.
• Electromagnetic Transparency: As a completely non-conductive and non-magnetic material, Epoxy GFRP rebar allows electromagnetic waves to pass through freely without blocking or reflecting them. This guarantees a clean electromagnetic environment without signal distortion, even in areas crowded with communication and radar equipment.environment required during the semiconductor manufacturing process.
ElECTROMAGNETIC FIELD FACILITIES
Military Facilities
• Security & Integrity: Military facilities require extreme electromagnetic security and signal integrity for equipment such as radar, satellite communications, and electronic warfare systems. The rebar within the concrete acts as the core framework for both the physical protection of the facility and the precise control of its electromagnetic environment.
• Operational Efficiency: As a completely non-conductive and non-magnetic material, Epoxy GFRP rebar prevents signal distortion by allowing electromagnetic waves to pass through. By securing "electromagnetic transparency" in precision radio wave facilities like radars, it maximizes the operational efficiency of the equipment.
• Operational Efficiency: As a completely non-conductive and non-magnetic material, Epoxy GFRP rebar prevents signal distortion by allowing electromagnetic waves to pass through. By securing "electromagnetic transparency" in precision radio wave facilities like radars, it maximizes the operational efficiency of the equipment.
ElECTROMAGNETIC FIELD FACILITIES
High-Voltage Power Plants and Substations
• High-Voltage Environments: High-voltage power plants and substations are specialized environments where strong electromagnetic fields and high voltages are constantly present. The reinforcing bars in these concrete structures must satisfy both structural safety and electrical insulation performance simultaneously.
• Electrical Safety: As a perfect electrical insulator, Epoxy GFRP rebar fundamentally blocks the generation of induced currents. It perfectly guarantees the independence of grounding systems without any electromagnetic interference (EMI), drastically reducing the risk of electrical accidents.
• Electrical Safety: As a perfect electrical insulator, Epoxy GFRP rebar fundamentally blocks the generation of induced currents. It perfectly guarantees the independence of grounding systems without any electromagnetic interference (EMI), drastically reducing the risk of electrical accidents.
