Titanium Plates
Why Choose Us
QUALITY ASSURANCE
QC Team leading by a 20 years experienced UT engineer. Quality control from titanium sponge to finished products. Every process is traceable.
GOOD SERVICE
Patient and professional sales and after-sales provide 7/24 service, for products information and suggestions.
REASO NABLE PRICE
We can not promise that our price is the cheapest, but we are sure our price is the most competitive under quality assurance.
FAST DELIVERY
There are plenty of titanium inventory. We can arrange production and delivery the products as fast as possible.
What is Titanium Plates?
Titanium plates is a highly versatile metal that finds application across various industries. Its remarkable biocompatibility renders it less prone to rejection by the human body compared to other materials, thereby making it an optimal choice for medical implants and surgical instruments.
Medical field: Used in orthopedic surgery, such as for fixing broken bones or supporting damaged bone structures.
Aerospace industry: Due to their high strength-to-weight ratio, they are used in aircraft and spacecraft components.
Marine industry: Due to their high strength-to-weight ratio, they are used in aircraft and spacecraft components.
Marine industry: In boat and shipbuilding for corrosion protection. In boat and shipbuilding for corrosion resistance and strength.
Chemical industry: In boat and shipbuilding for corrosion resistance and strength. Chemical industry: Due to their high strength-to-weight ratio they are used in aircraft and spacecraft components. Resistant to corrosion in harsh chemical environments.


Biomedical engineering: In boat and shipbuilding for corrosion resistance and strength. Biomedical engineering: In dental implants and orthopedic implants. In dental implants and orthopedic implants.
Sports equipment: For lightweight and durable components. For lightweight and durable components.
Automotive industry: In high-performance vehicles for strength and weight eduction. In high-performance vehicles for strength and weight reduction.
Machinery manufacturing: In high-performance vehicles for strength and weight eduction. Machinery manufacturing: For parts requiring strength and corrosion resistance. For parts requiring strength and corrosion resistance.
Electronics: As a material for some electronic components. As a material for some electronic components.
Jewelry: For unique and durable pieces. For unique and durable pieces.
Process Of Making Titanium Sheet
Raw material preparation: Selection of high quality titanium ore or titanium alloy raw materials.
Melting: The raw materials are melted at high temperatures to obtain a homogenous titanium melt.
Casting: The melt is cast into the shape of a slab.
Hot rolling: Rolling of slabs at high temperatures to reduce thickness and improve internal organization.
Cold rolling: Further rolling to achieve the required thickness and dimensional accuracy. 6. annealing: removing internal stresses.
Annealing: To eliminate internal stresses and improve the plasticity and toughness of the plate.
Surface treatment: Such as pickling, polishing, etc., in order to improve the surface quality.
Quality Inspection: Perform various tests, including chemical composition analysis, mechanical property test, dimensional accuracy check, etc.
Cutting and processing: Cut the titanium sheet into specific size and shape according to customer's requirement.
Packaging: Packaging the finished products to protect the sheets from damage during transportation and storage.
What Factors Are Related To The Quality Of Titanium Plates?
Titanium plates have high corrosion resistance and specific strength, and are widely used in electric power, chemical industry, aviation parts, building materials, sports equipment, medical and other fields, and are still expanding. From the perspective of usage and manufacturing technology, titanium plates have low price, high performance, multiple functions, and are easy to produce. From the perspective of expanding uses, titanium alloys represented by Ti-1Fe-0.35O, Ti-5Al-1Fe, and Ti-5Al-2Fe-3Mo (mass%) make full use of cheap Fe, O, N and other elements. Pure titanium plates suitable for various surface finishing processes and to improve discoloration resistance. A notable feature of the titanium plate is its strong corrosion resistance. This is because it has a particularly large affinity for oxygen and can form a dense oxide film on its surface, which can protect the titanium from corrosion by the medium and in acidic and alkaline environments. It has good stability in neutral, neutral salt water solutions and oxidizing media, and has better corrosion resistance than existing stainless steel and other commonly used non-ferrous metals.
The quality of titanium plates is largely determined by the smelting process of the titanium plate manufacturer, including the chemical composition of titanium, the cleanliness of titanium water (gases, harmful elements, inclusions) and the quality of the cast slab (component segregation, decarburization and Its surface condition), these aspects are the key control points of the smelting operation. In addition, industrial titanium plates also require sufficient hardenability to ensure uniform microstructure and mechanical properties across the entire spring cross-section. The main cause of fatigue cracks is oxide inclusions in titanium, and type D inclusions are more harmful to fatigue life than type B inclusions. Therefore, foreign titanium factories and automobile factories have put forward higher requirements for oxide inclusions in industrial titanium plates. For example, the Swedish SKF standard requires that the oxygen content in titanium is lower than 15×10-6, and D-type inclusions are lower than B-type inclusions. things. In particular, Al2O3 and TiN inclusions are extremely harmful to the fatigue life of titanium springs. In order to produce high-quality industrial titanium plates, special smelting methods such as electric furnace-electroslag remelting or vacuum arc remelting were usually used in the past.
Because titanium plates and titanium rods have special physical and chemical properties, their welding processes are very different from other metals. Titanium welding is a TiG welding process that uses inert argon gas to effectively protect the welding area. Before using argon gas, check the factory certificate on the bottle to verify the purity index of the argon gas, and then check whether the bottle valve is leaking. or malfunction. The metal in the welding area is not polluted by active gas N0H and harmful impurity elements CFeMn above 250°C. The purity shall not be less than 99.98% and the water content shall be less than 50Mg/m32 Argon: industrial grade pure argon. Coarse grain structure cannot be formed. The welding process must be in accordance with the predetermined construction sequence and must not produce large welding residual stress and residual deformation. so. Strictly follow the process quality management standards and implement quality control throughout the entire process. All factors such as manpower, machines, materials, and methods are under good control, thereby ensuring the welding quality of titanium pipes within a reasonable construction period.
The Benefits Of Using Titanium Plates In Manufacturing
With advancing technology, the manufacturing industry has increasingly adopted titanium plates as a vital manufacturing material. including their lightweight high strength, corrosion resistance, excellent malleability, and environmental benefits.
Lightweight High Strength
Titanium plates possess exceptional strength and hardness while being relatively lightweight. This makes titanium plates an ideal choice in manufacturing, particularly in sectors that require a balance between strength and weight. For example, industries such as aerospace, automotive, and bicycles can benefit from the lightweight characteristics of titanium plates by reducing overall weight, improving fuel efficiency, and enhancing speed and performance.
Corrosion Resistance
Titanium plates exhibit excellent corrosion resistance, enabling them to maintain their original state for extended periods, even in harsh environmental conditions. This widespread corrosion resistance makes titanium plates widely applicable in chemical industries, marine engineering, shipbuilding, and more. They can resist various corrosive media, prolong equipment lifespan, and reduce maintenance costs.
Excellent Malleability
Titanium plates have outstanding malleability and processability, allowing them to be easily cut, bent, and shaped into various forms. This provides the manufacturing industry with greater design freedom and flexibility to meet the demands of complex components. Industries ranging from aerospace equipment and medical devices to sports equipment can benefit from the malleability of titanium plates, achieving higher levels of innovation and functional design.
Maintenance And Care Tips For Titanium Plates
To ensure the longevity and performance of titanium plates, proper maintenance and care is essential. An important aspect of maintenance is regular cleaning. Titanium plates accumulate dirt, dust and other contaminants over time, which can affect their appearance and performance. It is recommended that titanium plates be cleaned with a mild soap or detergent and warm water. Avoid using abrasive cleaners or scouring pads as they can scratch the surface of the titanium plate. After cleaning, rinse the titanium plate thoroughly with water and then dry it with a soft cloth to prevent water damage.
Another important aspect of maintenance is to avoid exposure to chemicals that can damage titanium panels. Although titanium is highly resistant to corrosion, certain chemicals, such as strong acids and bases, can still cause damage. It is important to avoid exposing titanium plates to these chemicals as they can cause pitting or corrosion on the surface. If contact with these chemicals is unavoidable, it is recommended that the titanium plate is rinsed immediately with plenty of water to minimise potential damage.
In addition, care must be taken when handling titanium plates to prevent any physical damage. Although titanium is a strong material, it can still scratch or dent if not handled properly. When transporting or storing titanium plates, avoid dropping or hitting them on hard surfaces and use protective covers or pads. Also, avoid using sharp or abrasive tools on titanium plates as they can cause scratches or dents.
Titanium sheet is a versatile and durable material with excellent strength-to-weight ratio, corrosion resistance and biocompatibility. It is commonly used in various industries such as aerospace, automotive and medical. To ensure the longevity and performance of titanium sheet, proper maintenance and care is essential. This includes regular cleaning, avoiding exposure to chemicals that can damage titanium sheet, and careful handling to prevent physical damage. By following these maintenance and care tips, titanium sheets will continue to perform excellently and effectively for their intended purpose.
What are the features of titanium plates?
Excellent strength and lightness: Titanium platesis a high-strength, low-density metal material with a specific gravity of only 4.5 g/cubic centimeter, which is half that of steel and twice that of copper, but it has the same strength as steel. strength. For example, the tensile strength of common industrial pure titanium plates can reach 300 to 600 MPa, and the yield strength is more than 240 MPa.
Good corrosion resistance: Titanium plates have good corrosion resistance at room temperature and can resist erosion by corrosive media such as oxidizing acids, alkaline solutions and seawater. For example, titanium plates are many times more resistant to corrosion in salt water than pure aluminum.
Excellent high temperature resistance: Titanium plates can still maintain good stability and mechanical properties in high temperature environments, and can work in high temperature environments above 600 degrees Celsius for a long time.
Excellent biocompatibility: Titanium plates have excellent biocompatibility and will not cause adverse reactions to human tissues. They are widely used in medical devices, human implants and other fields. For example, titanium plates are often used to make orthopedic implants, such as artificial joints and dental implants.
Good processing performance: Titanium plates can be prepared into various shapes of plates, pipes and profiles through hot rolling, cold rolling, stretching, extrusion and other processing processes to meet the needs of different engineering projects.
Unique appearance characteristics: Titanium plates have a silver-white metallic luster and a smooth surface. Different appearance effects can be obtained through surface treatments such as polishing and anodizing.
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Our Factory
Stable quality is our soul of business. Etermetal is committed to supply qualified and stable products to clients. Etermetal has a dedicated QC team leading by a 20+ years experienced UT inspectors control products quality from the very beginning to finished products. Produce processes are traceable and recorded. Before shipping, products are all chemical tested, visual inspected, dimensional inspected, physical and , UT inspected. The testing certificate is given to clients before shipping too. BV, SGS third party inspection also available when clients can not come to mill in person.
















