| Customization: | Available |
|---|---|
| Type: | Titanium Bars |
| Application: | Medical |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Ti13Nb13Zr is primarily composed of 13% titanium, 13% niobium, and 13% zirconium, with the remaining percentage comprising other trace elements. This well-balanced combination results in a material with excellent mechanical strength, outstanding corrosion resistance, and commendable biocompatibility.
Composition
The chemical composition of Ti 13Nb 13Zr alloy is outlined in the following table.
| O | N | C | H | Fe | Nb | Zr | Ti |
|
0% min
0,15% max
|
0% min
0,05% max |
0% min
0,08% max
|
0% min
0,012% max
|
0% min
0,25% max
|
12,5% min
14,0% max
|
12,5% min
14,0% max
|
-
Balance
|
| Mechanical property | Ultimate tensile strength (UTS) | Yield strength (YS) | Elongation (EL) | Reduction of area (RA) |
| Unit | MPa | MPa | % | % |
| Value | 840 | 710 | 26 | 73 |
Characteristic
Mechanical Strength:
The alloy's mechanical strength is one of its most prized attributes. Ti13Nb13Zr exhibits a high strength-to-weight ratio, meaning it provides impressive strength without adding significant weight. This property makes it an ideal choice for applications where weight reduction is crucial without compromising on structural integrity. Industries such as aerospace and automotive can benefit from this characteristic, as it enables the creation of lighter and more fuel-efficient components.
Corrosion Resistance:
Corrosion resistance is another hallmark feature of Ti13Nb13Zr. The presence of zirconium in the alloy imparts exceptional resistance to various corrosive environments, including acids and saline solutions. This property is of utmost importance in medical applications, where the implantable devices require resistance to bodily fluids and the harsh chemical environment within the human body.
Biocompatibility:
The biocompatibility of Ti13Nb13Zr is a key factor that has driven its popularity in the medical field. When used in medical implants and devices, the alloy exhibits minimal adverse reactions with living tissues, reducing the risk of complications and improving patient outcomes. This makes it a preferred choice for orthopedic implants, such as hip and knee replacements, as well as dental implants.
Applications in Medicine:
The medical industry has embraced Ti13Nb13Zr for its exceptional properties, revolutionizing the field of implantable medical devices. Here are some of the key applications in medicine:
1. Orthopedic Implants:
Ti13Nb13Zr is widely used in orthopedic implants, such as hip and knee replacements. The alloy's mechanical strength and biocompatibility ensure that the implants can withstand the stress and strain of daily activities while promoting osseointegration - the process of bone growth into the implant, creating a stable connection.
2. Dental Implants:
In the field of dentistry, Ti13Nb13Zr has gained popularity as a material for dental implants. Its biocompatibility, corrosion resistance, and mechanical strength make it an excellent choice for replacing missing teeth, providing patients with reliable and long-lasting solutions.
3. Surgical Instruments:
Ti13Nb13Zr's high strength and corrosion resistance extend to surgical instruments as well. Surgeons rely on these instruments for their durability and ability to withstand rigorous sterilization processes without compromising performance.
){kind=link}