Titanium products are used for military, aerospace, recreation, chemical processes, and metal finishing purposes. Titanium sports equipment is longer lasting and more durable. The military and aerospace utilize titanium parts for higher functioning equipment that requires little maintenance. Chemical processes use titanium tools since chemicals cannot react with the metal.
While there are many industries where titanium is useful, medicine especially needs the natural properties of titanium. Its durability, longevity, non-corrosion, and biological compatibility make it perfect for many uses in the medicine field. More research on the uses of titanium products will only increase its availability and its cost effectiveness for doctors and patients alike.
Titanium is a spectacular metal. Corrosive resistant, it is lighter than steel but heavier than aluminum. However, it is stronger than both of those metals and more. It will save users money in the long run due to the minimal care and maintenance required.
A large variety of minerals and chlorides do not affect titanium because it has an extremely high passivity. This allows it to be useful in the medical field, along with its non-toxicity. It is found in medical implantation products because it can mold itself to human bone and tissue without the body rejecting it.
Because it does not corrode, it can stay in the body unmaintained for decades or more. Body fluids will not corrode the metal, making it extremely long lasting. In major, life-threatening surgeries where bone is shattered, titanium implants are recommended as a bone replacement. Now, medical products are used for more medical purposes.
Titanium rods, pins, and plates are common products that are inserted into the body for various medical conditions. Its biocompatibility allows it to join with human bone and does not require any repairs after inserted.
When titanium joins with bone, it is a process called osseointegration. Tissue also joins with titanium under this process. The implant is locked into place permanently. Titanium is one of the few metals that naturally has this process.
It also has amazing flexibility, allowing it to act like a real bone in the body. The non-ferromagnetic property makes it a revolution in medicine. This means patients with titanium can have MRIs or NMRIs performed.
Failing sockets, joints, or severely broken bones can be replaced with titanium implants. The metal produces medical pins, rods, bone plates, screws, bars, wires, posts, expandable rib cages, spinal fusion cages, finger and toe replacements, and maxio-facial prosthetics.
The medical uses of titanium extend into dentistry as well. Alloys can be used in a multitude of dental surgeries and procedures. Titanium has greater fracture resistance than other materials in dental work. With the teeth constantly grinding and chomping, this resistance makes titanium great for dentistry.
Surgical devices made out of titanium include forceps, retractors, tweezers, suture instruments, scissors, needle holders, dental scalers, dental elevators, dental drills, Lasik eye surgery equipment, laser electrodes, and vena cava clips. There are many more devices that can be made out of it, and these allow medicine to be performed better.
When making surgical instruments, it is perfect because of its hardness with simultaneous lightweight qualities. Bacteria does not grow on titanium and infection cannot occur from titanium instruments. Radiation has no effect on titanium as well. Investing in titanium instruments is a huge pay-off and time saver for doctors and other medical professionals.
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