Product Specification
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| Payment Terms |
L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Supply Ability |
5000 Pieces Per Month |
| Delivery Time |
about 7-14 days for delivery |
Packaging Details |
All goods are packed by seaworth shipment materials or required by buyer |
| Electrical Conductivity |
17.0 × 10^6 S/m |
Draw Length |
26-30 inches |
| Portability |
Portable |
Grade |
Gr2,Gr5,Gr7 |
| Feature |
High Density |
Screen Size |
6.5 inches |
| Thermal Conductivity |
21.9 W/(m·K) |
Shape |
Round |
| Manufacturer |
Advanced Materials Corporation |
Diameter |
2 inches |
| Flexibility |
Low |
Surface Finish |
Polished |
| Backing Plate |
Not Included |
Thickness |
0.25 inches |
| Quality Control |
Ultrasonic testing |
Brand Name |
LHTi |
| Model Number |
Titanium Disk |
Certification |
ISO9001, CE, API,etc |
| Place of Origin |
Baoji, Shaanxi, China |
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| High Light |
Medical Uses Titanium Targets
,Grade 1 Titanium Targets
,Grade 2 Titanium Targets
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Titanium Targets Sputtering Target Ti Titanium Grade 1 Grade 2 Titanium Alloy for Medical Uses
Titanium sputtering targets, including Grade 1, Grade 2, and Titanium Alloy, are commonly used in thin film deposition processes such as sputter coating. The high purity, corrosion resistance, and biocompatibility of titanium make it ideal for a variety of industrial and medical applications, including medical implants and biomedical devices. Below is a detailed look at these materials and their typical uses in sputtering and medical applications:
Titanium Sputtering Targets
A sputtering target is a material used in physical vapor deposition (PVD) processes to deposit thin films onto substrates. In sputtering, energetic ions strike the target material (like titanium), causing atoms or molecules to be ejected and deposited onto a substrate.
- Titanium sputtering targets are commonly used for depositing thin titanium films in electronics, optics, and medical devices.
- Titanium’s high chemical stability, biocompatibility, and strength-to-weight ratio make it particularly valuable for medical and aerospace applications.
| Technical Parameters | Description |
| Product Name | Titanium Disc |
| Material | Titanium Alloy |
| Shape | Round |
| Thickness | 35mm-550mm Or As Your Requirement |
| Diameter | 150mm-1300mm Or As Your Requirement |
| Color | Silver |
| Surface Treatment | Polished |
| Application | Industrial |
| Package | Plywood Case Or According to Your Requirement |
Titanium Grades for Sputtering and Medical Applications
Grade 1: Commercially Pure Titanium (CP Ti)
Grade 2: Commercially Pure Titanium (CP Ti)
Titanium Alloys (e.g., Ti-6Al-4V)
Titanium in Medical Uses
Titanium, especially Grade 1 and Grade 2, is highly regarded in medical and biomedical fields for its biocompatibility, strength, and lightweight characteristics. It's commonly used in medical devices because it is not harmful to the body and is not likely to cause allergic reactions.
Key Medical Uses of Titanium:
- Orthopedic Implants: Titanium is commonly used in bone screws, plates, joint replacements, and spinal implants because it mimics the properties of bone.
- Dental Implants: Titanium's biocompatibility and strength make it a perfect choice for dental implants that require high durability and resistance to corrosion.
- Medical Instruments: Due to its corrosion resistance, surgical tools, needles, scalpels, and other medical instruments are often made from titanium or titanium alloys.
- Prosthetics: Titanium is used in the production of prosthetic limbs and implants for its combination of lightweight and strength.
- Cardiovascular Devices: Titanium is used in the production of pacemaker cases, stents, and valves due to its non-reactive nature in the human body.
- Wear-resistant coatings: Titanium sputtering targets can be used to deposit thin coatings on medical devices to enhance wear resistance, reduce friction, and improve biocompatibility.
Advantages of Using Titanium in Medical Applications
- Corrosion Resistance: Titanium forms a passive oxide layer that protects it from corrosion in bodily fluids, making it ideal for medical implants and devices.
- Biocompatibility: It is non-toxic and does not cause adverse reactions when in contact with living tissue.
- Strength and Lightness: Titanium is both strong and lightweight, making it ideal for structural implants that need to bear weight without adding unnecessary mass.
- Durability: Titanium implants can last for decades in the human body without degradation, which is crucial for implants that must function over long periods.
- Non-allergenic: Titanium is generally hypoallergenic, which makes it suitable for patients with metal sensitivities.
Conclusion:
- Grade 1 and Grade 2 titanium are often used for medical implants and surgical tools due to their biocompatibility and corrosion resistance.
- Titanium alloys such as Ti-6Al-4V are used for more structural applications where higher strength and fatigue resistance are required.
- Titanium sputtering targets are used in thin-film deposition for a range of applications including medical devices, electronics, and optical coatings. The biocompatibility and corrosion resistance properties of titanium make it ideal for enhancing the performance and durability of medical implants and biomedical devices.
Key Features and Benefits:
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Biocompatibility:
- Titanium is one of the most biocompatible metals, meaning it is highly resistant to corrosion and does not cause adverse reactions in the human body. This makes it the material of choice for implants and medical devices that need to be in direct contact with tissues or bones.
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Strength and Durability:
- Titanium is known for its excellent strength-to-weight ratio, meaning that medical devices made from titanium are both lightweight and strong. This makes titanium discs suitable for load-bearing applications like joint replacements, spinal implants, and dental implants.
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Corrosion Resistance:
- Titanium is highly resistant to corrosion, especially in biological environments. This is crucial for implants or devices that are exposed to bodily fluids over long periods.
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Non-reactive with Body Fluids:
- Due to its non-reactive nature, titanium is safe for use in medical applications that involve long-term exposure to blood, salts, and other body fluids.
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Customization of Diameter and Thickness:
- With diameters ranging from 150mm to 1300mm, these titanium discs can be customized to meet the specific needs of medical applications. Thickness and shape can also be adjusted, depending on the requirements of the application.
Applications of Medical Round Titanium Discs:
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Medical Implants:
- Orthopedic implants: Titanium discs can be used as parts of joint replacements, such as for the hip, knee, or spine. The discs may serve as the core material for the femoral head, spinal plates, or intervertebral spacers.
- Dental implants: Titanium is widely used in dental implants, and these discs can be used to create dental crowns, abutments, and other parts of dental prostheses.
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Surgical Instruments:
- Titanium discs can be machined into various surgical tools, such as cutting blades, scalpels, forceps, and drill bits. Titanium's durability and resistance to wear make it ideal for instruments that need to maintain sharpness and functionality.
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Prosthetic Devices:
- Titanium discs can serve as the base material for prosthetic limbs and prosthetic joints. Their lightweight and strong properties make them ideal for producing components such as prosthetic knees, elbows, or hip joints.
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Surgical Plates and Screws:
- Titanium discs are sometimes used in the creation of surgical plates, screws, and rods for bone fixation during orthopedic surgery. These components are typically customized in size and shape to fit the specific needs of the patient.
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Bone Replacement and Regeneration:
- In reconstructive surgeries, titanium discs can be used as scaffolds for bone regeneration. The titanium material can promote osseointegration, allowing bone tissue to grow and bond with the implant over time.
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Cardiovascular Applications:
- Titanium discs can be used in creating components for cardiovascular implants, such as heart valves or vascular stents. Their biocompatibility ensures they function safely within the circulatory system.
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Medical Coatings:
- Titanium discs can be used as targets in sputtering processes to deposit biocompatible coatings on other medical devices or implants. The coatings might include layers of titanium oxide (TiO₂) or other materials that improve the surface properties of implants.
Titanium Grades:
| Chemical requirements |
| | N | C | H | Fe | O | Al | V | Pd | Mo | Ni | Ti |
| Gr1 | 0.03 | 0.08 | 0.015 | 0.20 | 0.18 | / | / | / | / | / | bal |
| Gr2 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | / | / | / | bal |
| Gr5 | 0.05 | 0.08 | 0.015 | 0.40 | 0.20 | 5.5~6.75 | 3.5~4.5 | / | / | / | bal |
| Gr7 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | 0.12~0.25 | / | / | bal |
| Gr12 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | / | 0.2~0.4 | 0.6~0.9 | bal
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| Tensile requirements |
| Grade | Tensile srength(min) | Yeild strength(mm) | Elongation(%) |
| | KSI | MPa | Ksi | MPa | |
| 1 | 35 | 240 | 20 | 138 | 24 |
| 2 | 50 | 345 | 40 | 275 | 20 |
| 5 | 130 | 895 | 120 | 828 | 10 |
| 7 | 50 | 345 | 40 | 275 | 20 |
| 12 | 70 | 438 | 50 | 345 | 18
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Titanium is classified into several grades based on its composition, mechanical properties, and purity. The most commonly used titanium alloys and grades are designated by the ASTM (American Society for Testing and Materials) and ISO (International Organization for Standardization) standards, with the Grade number generally indicating the level of purity or alloying elements. Here's an overview of the main grades of titanium and their typical uses:
1. Grade 1: Commercially Pure Titanium (CP Ti)
- Composition: 99.5% titanium (with small amounts of iron, oxygen, and other impurities).
- Mechanical Properties:
- Tensile Strength: ~240 MPa (35 ksi)
- Yield Strength: ~170 MPa (25 ksi)
- Elongation: 24% minimum
- Characteristics:
- Grade 1 is the softest and most ductile of all titanium grades, offering excellent corrosion resistance and formability.
- It has the best weldability and is easy to machine, making it ideal for applications requiring complex shapes.
- Applications:
- Chemical processing (e.g., tanks, piping, and heat exchangers).
- Marine environments (e.g., desalination equipment).
- Medical implants (e.g., dental implants, prosthetic devices, and surgical tools).
- Aerospace components where strength is not a critical factor.
2. Grade 2: Commercially Pure Titanium
- Composition: 99% titanium (with small amounts of iron, oxygen, and other impurities).
- Mechanical Properties:
- Tensile Strength: ~ 400 MPa (58 ksi)
- Yield Strength: ~ 275 MPa (40 ksi)
- Elongation: 20% minimum
- Characteristics:
- Higher strength than Grade 1, with good formability and excellent corrosion resistance.
- Grade 2 is the most widely used commercially pure titanium grade due to its balance of strength, ductility, and corrosion resistance.
- Applications:
- Aerospace parts (e.g., aircraft fuselages, wings, exhausts).
- Marine equipment and chemical processing.
- Medical implants (e.g., orthopedic implants, bone plates).
3. Grade 3: Commercially Pure Titanium
- Composition: 98.5% titanium (with small amounts of iron, oxygen, and other impurities).
- Mechanical Properties:
- Tensile Strength: ~ 450 MPa (65 ksi)
- Yield Strength: ~ 350 MPa (51 ksi)
- Elongation: 18% minimum
- Characteristics:
- Offers higher strength than Grades 1 and 2 while maintaining good corrosion resistance.
- More difficult to form than Grades 1 and 2 due to increased strength.
- Applications:
- Aircraft structures and components where additional strength is needed but weight must be minimized.
- Marine environments and chemical processing (e.g., heat exchangers, reaction vessels).
4. Grade 4: Commercially Pure Titanium
- Composition: 99% titanium (with small amounts of iron, oxygen, and other impurities).
- Mechanical Properties:
- Tensile Strength: ~ 550 MPa (80 ksi)
- Yield Strength: ~ 480 MPa (70 ksi)
- Elongation: 15% minimum
- Characteristics:
- Grade 4 is the strongest of the commercially pure grades.
- It has excellent corrosion resistance but is harder to weld and form compared to Grades 1–3.
- Applications:
- Aerospace: used in structural components where both strength and corrosion resistance are needed.
- Chemical processing and marine applications (especially where high strength is required).
5. Grade 5: Ti-6Al-4V (Titanium Alloy)
- Composition: 90% titanium, 6% aluminum, 4% vanadium.
- Mechanical Properties:
- Tensile Strength: ~ 900 MPa (130 ksi)
- Yield Strength: ~ 800 MPa (116 ksi)
- Elongation: 10–15%
- Characteristics:
- Alpha-beta alloy, offering high strength, lightweight, and excellent corrosion resistance.
- This grade has good weldability and formability but is still more difficult to machine compared to commercially pure grades.
- Applications:
- Aerospace: for aircraft engines, airframes, landing gear, and aircraft structural parts.
- Medical implants: used for hip replacements, bone plates, and dental implants.
- Marine environments: particularly in high-stress components.
- Sports equipment: high-performance bicycles, golf clubs, etc.
6. Grade 7: Ti-0.2Pd (Titanium Alloy)
- Composition: 0.2% palladium, balance titanium.
- Mechanical Properties:
- Similar to Grade 2 in terms of strength but with enhanced corrosion resistance, particularly to chlorine and sea water.
- Characteristics:
- Palladium addition gives this alloy increased resistance to certain chloride environments.
- Applications:
- Chemical processing: used in highly corrosive environments, such as chlorine production and chemical reactors.
7. Grade 9: Ti-3Al-2.5V (Titanium Alloy)
- Composition: 3% aluminum, 2.5% vanadium, balance titanium.
- Mechanical Properties:
- Tensile Strength: ~ 600 MPa (87 ksi)
- Yield Strength: ~ 550 MPa (80 ksi)
- Elongation: 15% minimum
- Characteristics:
- An alpha-beta alloy with a good balance of strength, formability, and corrosion resistance.
- Applications:
- Aerospace: aircraft structural components.
- Medical implants: bone plates and dental implants.
- Sports equipment and automotive parts.
8. Grade 12: Ti-0.3Mo-0.8Ni (Titanium Alloy)
- Composition: 0.3% molybdenum, 0.8% nickel, balance titanium.
- Mechanical Properties:
- Tensile Strength: ~ 620 MPa (90 ksi)
- Yield Strength: ~ 550 MPa (80 ksi)
- Elongation: 15% minimum
- Characteristics:
- Excellent corrosion resistance in both sulfuric acid and chloride environments.
- Stronger and more formable than pure titanium grades.
- Applications:
- Marine and chemical processing industries, including tanks and heat exchangers.
- Aerospace applications.
9. Grade 23: Ti-6Al-4V ELI (Extra Low Interstitial)
- Composition: 90% titanium, 6% aluminum, 4% vanadium (similar to Grade 5, but with lower levels of interstitial elements).
- Mechanical Properties:
- Tensile Strength: ~ 880 MPa (128 ksi)
- Yield Strength: ~ 780 MPa (113 ksi)
- Elongation: 10–15%
- Characteristics:
- Low interstitial content for improved ductility and fracture toughness, making it ideal for medical applications where fatigue resistance and long-term reliability are critical.
- Applications:
- Medical implants (e.g., orthopedic and dental implants).
- Aerospace and high-performance applications.
Conclusion:
Titanium alloy sputtering targets, including TiAl alloys, are versatile materials widely used for coating applications in industries ranging from aerospace to electronics and biomedical. These materials provide exceptional properties such as strength, corrosion resistance, biocompatibility, and wear resistance, making them ideal for demanding applications that require durable, high-performance thin films. When choosing a titanium sputtering target, factors like alloy composition, purity, and target geometry must be considered to achieve optimal results in the sputtering process.
Company Details
Bronze Gleitlager
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Bronze Sleeve Bushings
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Business Type:
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Total Annual:
2000000-4000000
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Ecer Certification:
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