News

  • 0
  • 0

What is Nitinol and Where is it Used

If you are looking for high-quality products, please feel free to contact us and send an inquiry, email: brad@ihpa.net



The term "Nitinol" is what it is and Where can it be used?

Whether you are a medical professional or patient you might be interested to learn about the nitinol process and where it is used. Nitinol's metal is used in a range of medical applications, including orthopedic staples, medical devices and shape-memory alloys.

Alloys with Shape Memory

Contrary to other types of materials, shape-memory alloys can remember their previous shape. The two-way effect of shape-memory can be achieved through to the mechanical force or heating process. These alloys are known to possess superior mechanical and wear resistance properties. These alloys are often used in orthopedic valves, wires, along with medical implants.

Shape-memory alloys typically are created by vacuum arc melted casting as well as induction melting. These materials feature distinctive crystal structures that allow them to alter their shape and return them to their original form after heating.

Shape memory alloys are also well-known for their super-elastic characteristics. They are employed in fields such as orthopedics, robotics as well as neurology. They are also employed in the aerospace and automotive industries. The properties of alloys with shape memory are the reason for their wide usage in medical devices such as heart valves and stents. These materials are also used in the chemical processing industry.

Shape-memory alloys consist of the combination of nickel with titanium. They are considered engineering materials. They are extremely suited to the automotive industry, and also have superior wear and corrosion resistance.

Stents

Many studies have been conducted to investigate the mechanical properties of Nitinol. These studies have demonstrated that the substance has mechanical hysteresis and shape memory properties. These properties can help enhance the design of stents.

Nitinol is used in many different stents. These stents vary in diameter or thickness, the thickness of the strut, and design. They can also manufactured by using additive manufacturing technology. This permits manufacturers to design special stents based on specific patient conditions.

Recent research has explored their mechanical qualities in Nitinol-stents. The research employs a mix of conventional test methods, such as bench-top-based mechanical tests and finite elements modeling. These techniques allow researchers to model complex loading conditions that occur in real-life. By using computational modeling, researchers can discern which design aspects contribute to better performance.

One study looked at the mechanical properties of six stents made of Nitinol. The stents ' properties were compared on their resistance, bending stiffness and axial compressibility. They had diameters that ranged from 5 to 8 mm. They are supported by internal rods in compression.

Orthopedic staples

Various studies have investigated the mechanical characteristics of nitinol-based orthopedic staples. A new generation of nitinol compression stitches has proved successful in arthrodesis of the hindfoot.

Nitinol compression staples may be employed with bone grafting, and may slow the post-surgery recovery. However, this procedure might not be the best option in patients who have smaller bones. Small bones can be difficult to join and nonunion may lead to arthritis that develops early.

The nitinol-memory compression staple is relatively new to the carpal bone fixation market. It is made from superelastic TiNi alloy, which allows for natural compression during bone healing. It ensures adequate compression while protecting the cartilage's proximal dorsal.

Compression staples are also utilized to stabilize subtalar joints as well as talonavicular fusions. Additionally, they can be used to treat foot injuries in other conditions. They are also used to perform osteotomy procedures. They may not be strong enough for applications of small bones and could disrupt osteotomies.

Newer nitinol compression staples have been shown to be secure and effective for arthrodesis of the hindfoot. This study also looked into the characteristics of the double and single design. The newer nitinol staples have an increased radiographic union.

Medical devices

A few years ago, the medical field began to appreciate the numerous advantages of making use of Nitinol in medical devices. It is a popular material due to its remarkable elasticity, which permits it to stretch back to its original shape under stress. The characteristics of Nitinol make it a great option for orthopedic implants, catheters, stents and other stents.

Nitinol's advantages in medical devices are considerable and the substance has opened up opportunities in medical technology. However, the properties of the material present a number of issues. Understanding the potential risks associated with the material is important.

The Federal Drug Administration (FDA) recently released a draft guidance for medical device manufacturers on how to design and test devices made of Nitinol. It includes the most essential advice for medical devices that have the material.

The scope of the guidelines is all medical devices with Nitinol. It provides the necessary information manufacturers must disclose in their premarket submission, including information on the creation, manufacturing in addition to the testing and evaluation of these devices. It also provides information on the biocompatibility of Nitinol.

More About RBOSCHCO" Nitinol powder provider

RBOSCHCO is a trusted international chemical material supplier and manufacturer with more than the past 12 years' expertise in manufacturing high-quality chemicals as well as Nanomaterials. The company's exports include many countries, including countries like the USA, Canada, Europe, UAE, South Africa, Tanzania, Kenya, Egypt, Nigeria, Cameroon, Uganda, Turkey, Mexico, Azerbaijan, Belgium, Cyprus, Czech Republic, Brazil, Chile, Argentina, Dubai, Japan, Korea, Vietnam, Thailand, Malaysia, Indonesia, Australia, Germany, France, Italy, Portugal and many more. As a pioneering nanotechnology producer, RBOSCHCO dominates the market. Our skilled and experienced team offers excellent solutions that can improve the efficiency of various industries, boost value and effectively face a myriad of problems. If you're in search of Nitinol powder then please contact RBOSCHCO.

Inquiry us

  • tags

Metal Alloy 18.5g/cm3 Polished Tungsten Heavy Alloy Plate

High Purity Germanium Sulfide GeS2 Powder CAS 12025-34-2, 99.99%

Metal Alloy 8.92g/Cm3 High Purity Polished Copper Plate

High Purity Nano Hafnium Hf powder CAS 7440-58-6, 99%

Metal Alloy 18g/cm3 High Density Tungsten Alloy Ball

High Purity Molybdenum Boride MoB2 Powder CAS 12006-99-4, 99%

Metal Alloy High Density Tungsten Alloy Rod Grind Surface Tungsten Alloy Bar

High Purity Nano Ag Silver powder cas 7440-22-4, 99%

High Purity Zirconium Nitride ZrN Powder CAS 25658-42-8, 99.5%

High Purity Tungsten Silicide WSi2 Powder CAS 12039-88-2, 99%

High Purity Titanium Sulfide TiS2 Powder CAS 2039-13-3, 99.99%

High Purity 3D Printing Powder 15-5 Stainless Steel Powder

High Purity Calcium Nitride Ca3N2 Powder CAS 12013-82-0, 99.5%

High Purity Chromium Diboride CrB2 Powder CAS 12007-16-8, 99%

Supply Magnesium Granules Mg Granules 99.95%

High Purity Silicon Sulfide SiS2 Powder CAS 13759-10-9, 99.99%

High Purity Colloidal Silver Nano Silver Solution CAS 7440-22-4

Chromium Sulfide Cr2S3 Powder CAS 12018-22-3, 99.99%

High Purity 3D Printing 304 Stainless Steel Powder

High Purity Tungsten Boride WB2 Powder CAS 12007-09-9, 99%

Our Latest Products

Metal Alloy 18.5g/cm3 Polished Tungsten Heavy Alloy Plate

Tungsten alloy heavy plate has low thermal expansion. It is also known for its high density, radiation resistance, thermal conductivity, and electrical conductivity. It is used widely in the aerospace and medical industries. About Metal Alloy 18.5g…

High Purity Germanium Sulfide GeS2 Powder CAS 12025-34-2, 99.99%

Germanium Sulfide (GeS2) is a semiconductor compound with the chemical Formula GeS2. It is easily soluble when heated alkali is used, but not in water.Particle size: 100mesh Purity: 99.99% About Germanium Sulfide (GeS2) Powder: Germanium Sulfide…

Metal Alloy 8.92g/Cm3 High Purity Polished Copper Plate

Copper products exhibit good electrical conductivity as well as thermal conductivity. They are also ductile, resistant to corrosion, and have a high wear resistance. They are widely used by the electricity, electronics and energy industries. Metal…