Titanium alloy is a kind of metal alloy with titanium as the base element and its performance is improved by adding other alloying elements (such as aluminum, iron, chromium, nickel, etc.). Titanium itself has the characteristics of low density, excellent corrosion resistance, high strength and high specific strength (high strength to density ratio), good high temperature resistance, etc., which makes titanium alloy widely used in aerospace, aeroengine, shipbuilding, chemical industry, medical equipment and artificial bones.
The density of titanium alloy is about half of that of steel, which can reduce the weight of the structure and improve fuel efficiency in the aerospace and automotive fields.
A dense oxide film is formed on the surface of titanium alloy, which can resist the erosion of most acid and alkali media, so it performs well in corrosive environments such as seawater and chemicals.
Titanium alloys can still maintain stable performance at high temperatures, are not easy to soften or fail, and are suitable for applications in high temperature environments, such as high temperature parts of aircraft engines.
Titanium alloys have excellent biocompatibility with human tissues, so they are widely used in the manufacture of medical devices and artificial implants.
One of the most common titanium alloys, containing 6% aluminum and 4% vanadium, widely used in aerospace, medical devices and ships.
Medical grade Ti-6Al-4V alloy, with higher biocompatibility, used to make artificial bones and medical devices.
Contains aluminum, iron, titanium and other elements, has good impact toughness and welding performance, and is used for aviation structural parts.
Contains aluminum, iron, manganese and chromium and other elements, has good high temperature strength and creep resistance, and is used for aircraft engine parts.
Łopatki turbiny wykonane z odlewu równobieżnego są szeroko stosowane w silnikach lotniczych i turbinach gazowych. Łopatki te charakteryzują się dobrą wytrzymałością na wysokie temperatury i odpornością na korozję, dzięki czemu nadają się do części turbin pracujących w wysokich temperaturach i pod wysokim ciśnieniem.
Dyski turbiny są ważnymi komponentami, które wspierają łopatki turbin i przenoszą moc. Równoosiowy proces odlewania może produkować tarcze turbinowe o dobrych właściwościach mechanicznych i trwałości, które są odpowiednie dla różnych urządzeń turbinowych.
Engine turbine accessories also include several key components, each of which plays a vital role in the high temperature, high pressure and high speed environment of the engine.
Part numbers alone are not sufficient to ensure performance.
To guarantee precision and compatibility, please provide:
Drawings or used samples for reverse engineering.
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