Titanyum Metalin Otomobillerdeki Uygulamaları Nelerdir??

60% Otomobil yakıtının yanma enerjisinin 'u kendi kütlesi tarafından tüketilir.. Otomobil endüstrisinin gelecekteki gelişim yönünü sabırsızlıkla bekliyorum, hafif, düşük yakıt tüketimi ve düşük emisyonlar geliştirme temalarıdır. Endüstriyel titanyum malzemelerin ortaya çıkışı otomobil üretimini daha iyi bir seçim haline getiriyor.

       Titanium metal has the advantages of low density, high specific strength and good corrosion resistance. The use of titanium materials in automobiles can greatly reduce the body mass, reduce fuel consumption, improve engine efficiency, improve the environment and reduce noise. Fakat, the high price makes titanium alloys only have some applications in luxury models and sports cars in the automobile industry, and rarely used in ordinary cars. Öyleyse, research and development of low-cost titanium alloys that meet market needs is the key to promoting their application in ordinary household cars

Current application status of titanium alloys in the automotive industry

       Although titanium alloys have been widely used in aerospace, petrochemical and shipbuilding industries, their application in the automotive industry has developed slowly. Starting from the successful development of the first all-titanium car by General Motors in the United States in 1956, titanium auto parts did not reach the level of mass production until the 1980s. In the 1990s, as the demand for luxury cars, spor arabaları, and racing cars increased year by year, titanium auto parts Manufactured parts have developed rapidly. İçinde 1990, the amount of titanium used in automobiles around the world was only 50t. It reached 500t in 1997, 1,100t in 2002, and 3,000t in 2009. It is expected that the amount of titanium used in automobiles around the world will exceed 5,000t in 2015. At present, the following types of titanium alloy parts are commonly used.

1. Engine connecting rod

       Titanium alloy is an ideal material for connecting rods. Engine connecting rods made of titanium alloy can effectively reduce engine mass, improve fuel efficiency and reduce exhaust volume. Compared with steel connecting rods, titanium connecting rods can reduce the mass by 15% ile 20%. The application of titanium alloy connecting rods was first reflected in Italy’s new Ferrari sedan 3.5LV8 and Acura’s NSX engine. The main materials used in titanium alloy connecting rods are Ti-6Al-4V, Ti-10V-2Fe-3Al, Ti-3Al-2.0V and Ti-4Al-4Mo-Sn-0.5Ve. Other titanium alloy materials such as Ti-4Al The application of -2Si-4Mn and Ti-7M-4Mo in connecting rods is also under development.

2.Engine valve

       Automotive engine valves made of titanium alloy can not only reduce mass and extend service life, but also reduce fuel consumption and improve vehicle reliability. Compared with steel valves, titanium valves can reduce mass by 30% ile 40%, and the engine’s limit speed can be increased by 20%. As far as current applications are concerned, the material of the intake valve is mainly Ti-6Al-4V, and the material of the exhaust valve is mainly Ti-6242S. Usually Sn and Al are added together to obtain lower brittleness and higher Strength; the addition of Mo can improve the heat treatment properties of titanium alloys, enhance the strength of quenching and aging titanium alloys, and increase the hardness. Other titanium alloys with development potential include:

       1) The intake valve can be made of Ti-62S, which has properties equivalent to Ti-6Al-4V and is cheaper.

       2) The exhaust valve can be made of Ti-6Al-2Sn-4.0Zr-0.4-Ay-0.45Ve. Because of its lower Mo content, its creep resistance is better than Ti-6242S, and its oxidation resistance can reach 600°C. .

       3) The exhaust valve can be made of γ-TiAl, which has the characteristics of high temperature resistance and light weight, but it is not suitable for traditional forging methods during processing. It is only suitable for casting and powder metallurgy processing.

3. Valve spring seat

       High strength and fatigue resistance are necessary properties for the valve spring seat. Beta titanium alloy is a heat-treated alloy that can obtain high strength through solid solution aging treatment. The corresponding more suitable materials are Ti-15V-3Cr- 3Al-3Sn and Ti-15Mo-3Al-2.7Nb-0.2Ve. Mitsubishi Motors uses Ti-22V-4Al titanium alloy valve spring seats in its large-scale production vehicles, which reduces the mass by 42% compared with the original steel locks, reduces the inertial mass of the valve mechanism by 6%, and increases the maximum engine speed. 300r/min.

4.Titanium alloy spring

       Titanium and its alloys have a lower elastic modulus than steel materials and a large σs/E value, making them suitable for manufacturing elastic components. Compared with steel automobile springs, under the premise of the same elastic work, the height of titanium springs is only 40% of steel springs, and the mass is only 30% ile 40% of steel springs, which facilitates car body design. Ek olarak, the excellent fatigue properties and corrosion resistance of titanium alloy can extend the service life of the spring. Currently, titanium alloy materials that can be used to make automobile springs include Ti-4.5Fe6.8Mo-1.5Al and Ti-13V11C-3Al.

5. Turbocharger

       Turbochargers can improve engine combustion efficiency and enhance engine power and torque. The turbine rotor of the turbocharger needs to work in high-temperature exhaust gas above 850°C for a long time, so it requires good heat resistance. Traditional light metals such as aluminum alloys cannot be used due to their low melting points. Although ceramic materials are used in turbine rotors due to their light weight and good high temperature resistance, their application is limited due to their high cost and inability to optimize their shape. In order to solve these problems, Tetsui and others developed the TiAl turbine rotor. After many tests, it has been verified that it not only has good durability and efficiency, but also can improve the acceleration of the engine. This design has been successfully commercialized on the Mitsubishi Lancer Evolution series.

6. Exhaust system and muffler

       Titanium is used extensively in automobile exhaust systems. Exhaust systems made of titanium and its alloys can not only improve reliability, extend life and improve appearance, but also reduce mass and improve fuel combustion efficiency. Compared with steel exhaust systems, titanium exhaust systems can reduce mass by approximately 40%. In Golf series cars, the mass of the titanium exhaust system can be reduced by 7 ile 9 kilogram. Currently, the titanium material used in the exhaust system is mainly industrial pure titanium.

7. Body frame part

       In order to improve the safety and reliability of automobiles, it is necessary to consider the design and manufacturing aspects, especially the manufacturing materials. Titanium is a very good material used to make car body frames. It not only has high specific strength, but also has good toughness. In Japan, automobile manufacturers choose pure titanium welded pipes to make body frames. This kind of frame can make drivers feel safe when driving.

8. Other titanium alloy parts

       In addition to the above components, titanium is also used in engine rocker arms, suspension springs, engine piston pins, automotive fasteners, lug nuts, automotive door protruding beams, automotive gear brackets, brake caliper pistons, pin bolts, pressure Auto parts such as plates, shift buttons and automobile clutch discs.

Özetle:

 With the development of the economy and the reduction of the cost of titanium, more engineering designers will choose titanium parts as automotive parts. Titanium alloys will eventually play an important role in automotive industry production.