<\/span><\/h2>\nAMS 4975 has a density of 4.42 g\/cm\u00b3<\/strong>, which is lower than steel’s. It also has a melting point of approximately 1,660\u00b0C (3,020\u00b0F) and a thermal conductivity of 11.4 W\/mK at room temperature. Moreover, the alloy has a thermal expansion of 8.6 \u00b5m\/(m\u00b7K), making it suitable for certain applications requiring dimensional stability.<\/p>\n<\/span>AMS 4975 Mechanical Properties<\/span><\/h2>\nAMS 4975 titanium alloy has excellent mechanical properties, high strength, good elasticity, and superior corrosion resistance. The alloy can withstand temperatures up to 315\u00b0C (600\u00b0F) and has a tensile strength of 1075 MPa (156,000 psi) with a yield strength of 965 MPa (140,000 psi). The alloy also has excellent fatigue strength and toughness at room and elevated temperatures.<\/p>\n
<\/span>AMS 4975 Uses<\/span><\/h2>\nAMS 4975 is widely used in various industries, including aerospace, medical, automotive, and oil and gas. In the aerospace industry, it produces landing gear components, wing attachments, and engine components due to its excellent strength, lightweight, and thermal stability. The medical industry, AMS 4975 is used in making prosthetic devices due to its biocompatibility. Due to its corrosion resistance, the alloy produces exhaust systems in the automotive industry. AMS 4975 produces drill stem components in the oil and gas industry due to their high strength and wear resistance.<\/p>\n
<\/span>AMS 4975 Hardness<\/span><\/h2>\nAMS 4975 titanium alloy has a hardness range of 363\u2013388 HB<\/strong>, making it a relatively tough and durable material. The alloy’s hardness can also be improved through heat treatment processes.<\/p>\n<\/span>AMS 4975 Heat treatment<\/span><\/h2>\nAMS 4975 titanium alloy can be heat treated to improve its mechanical properties and hardness. The heat treatment process involves:<\/p>\n