Core Advantages
1. Ultra-high purity, with a pure and stable material composition
Through strict control of raw materials and production processes, the titanium content is ≥99.5%. Trace impurities such as oxygen, iron, carbon, and hydrogen are strictly controlled, with oxygen content ≤0.18% and iron content ≤0.20%. free of porosity, inclusions, and segregation. The microstructure consists of a uniform single-phase α phase, ensuring excellent material consistency. This eliminates performance degradation and corrosion failure caused by impurities, meeting the standards for high-end precision machining and demanding operating conditions.
2. Exceptional Ductility, Easy to Machine and Form
GR1 pure titanium is the grade with the best ductility and cold working properties among all titanium materials, with an elongation at break exceeding 20%. It can easily undergo various processing techniques such as bending, stretching, spin forming, machining, and deep drawing. The material is resistant to cracking and deformation during processing, making it suitable for custom manufacturing of complex, irregularly shaped parts. It also offers excellent TIG, MIG, and electron beam welding performance, resulting in strong, non-embrittled weld joints, resulting in a high yield rate for finished products.
3. Exceptional Corrosion Resistance, Suitable for Demanding Environments
With excellent chemical inertness, it withstands corrosion from various aggressive media—including seawater, chloride solutions, oxidizing acids, weak alkalis, and salt spray—at room temperature. Its corrosion resistance far surpasses that of conventional metals such as stainless steel and carbon steel. It resists rust, oxidation, and flaking during long-term use, making it ideally suited for highly corrosive environments in marine, chemical, and environmental applications, thereby significantly reducing equipment replacement and maintenance costs.
4. Lightweight and High Strength, with Excellent Overall Performance
With a material density of only 4.51 g/cm³—approximately 60% that of steel—it offers significant weight-saving advantages. It also possesses stable mechanical properties, with a tensile strength of 350–550 MPa and a yield strength of ≥275 MPa, resulting in an extremely high strength-to-weight ratio. It maintains stable mechanical properties across a wide temperature range from -184°C to 540°C, resisting brittle fracture at low temperatures and deformation at high temperatures, making it suitable for environments with alternating high and low temperatures.
5. Safe, Non-toxic, and Highly Biocompatible
The material is non-toxic and non-radioactive, with exceptional biocompatibility. It does not react with human tissues or bodily fluids and causes no rejection. It complies with medical and food-grade safety standards, making it the preferred core material for medical implants, food processing equipment, and precision instruments.
Applications
1. Chemical and Corrosion Protection Industry: Suitable for electrolysis cells in the chlor-alkali industry, anode baskets, PTA plant crystallizers, condenser heat exchange tubes, acid-base reaction equipment, and corrosion-resistant fasteners. These products can withstand chemical corrosive media over the long term, significantly extending equipment service life.
2. Marine and Desalination Industry: Heat transfer tubes for desalination evaporators, offshore platform components, anti-corrosion fittings for ships, and supports for coastal equipment. Resistant to seawater salt spray corrosion and suitable for high-salinity marine environments.
3. Medical and Biotech Industry: Dental restoration abutments, dental implant components, orthopedic fixation plates, precision medical instruments, and medical implant accessories. Safe, non-toxic, and biocompatible, meeting medical cleanliness standards.
4. Precision Equipment and Optoelectronics Industry: Laser mirror mounts, precision instrument shafts, sensor components, and vacuum equipment parts. Material stability and high precision ensure no impurities interfere with equipment operation.
5. New Energy and Cryogenic Industries: LNG equipment linings, cryogenic energy storage components, and corrosion-resistant structural parts for new energy applications. These materials maintain stable performance across a wide temperature range, resist brittle fracture at low temperatures, and offer excellent corrosion resistance and aging resistance.
6. High-End Architectural Decoration: High-end curtain wall support structures and roofing system components. With a service life of over 50 years, these products are lightweight, corrosion-resistant, and resistant to deformation and fading.
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