TMTS Virtual Application
Ultrasonic Side Milling Titanium Alloy
Ultrasonic Machining of Titanium Alloy (Ti-6Al-4V) : Side Milling|Hantop Intelligence Tech.
HIT utilized the ultrasonic machining module for Titanium Alloy (Ti-6Al-4V) side milling. HIT's ultrasonic-assisted machining technology allowed for 3 times faster of the cutting speed, resulting in the increase in feed rate and machining efficiency.
The high-frequency ultrasonic micro-vibration reduced the cutting force and cutting heat, which ensured better surface quality and improved the tool life.
The ultrasonic machining module offers the highest amount of precision and flexibility when fabricating components that require high quality, high precisional repeatability, and high yield rate.
💡Learn more at https://www.hit-tw.com/
SHARE🔗|LIKE👍|SUBSCRIBE📌|CLICK ON🔔
👉Follow HIT on Facebook : https://www.facebook.com/hantopIntelligence
👉Follow HIT on LinkedIn : https://www.linkedin.com/company/hantopintelligence/
Titanium alloy (Ti-6Al-4V) offers a combination of lightweight, high strength, low density, good corrosion resistance and ductility. It is also recognized for their exceptional resistance to a wide range of chemical environments provided by a thin, invisible but extremely protective surface oxide film.
These extraordinary properties make it ideal for numerous kinds of industrial applications, including biomedical industry (titanium bone plate, artificial joint), aerospace and defence industry (turbine blade, aircraft engine components), 3C electronic industry (Apple watch Ultra bezel, smartphone phone case), and electric car industry (underbody of Tesla Model S).
However, titanium alloy has bad thermal conductivity and work-hardening quality. This would accumulate massive amount of cutting heat during the machining process, resulting in the chips being repeatedly adhesive to both the tool and workpiece. The adhesive wear of the tool then leads to the breakage on the tool's rake face and worsens the surface roughness of the workpiece.
HIT utilized the ultrasonic machining module for Titanium Alloy (Ti-6Al-4V) side milling. HIT's ultrasonic-assisted machining technology allowed for 3 times faster of the cutting speed, resulting in the increase in feed rate and machining efficiency.
The high-frequency ultrasonic micro-vibration reduced the cutting force and cutting heat, which ensured better surface quality and improved the tool life.
The ultrasonic machining module offers the highest amount of precision and flexibility when fabricating components that require high quality, high precisional repeatability, and high yield rate.
💡Learn more at https://www.hit-tw.com/
SHARE🔗|LIKE👍|SUBSCRIBE📌|CLICK ON🔔
👉Follow HIT on Facebook : https://www.facebook.com/hantopIntelligence
👉Follow HIT on LinkedIn : https://www.linkedin.com/company/hantopintelligence/
Titanium alloy (Ti-6Al-4V) offers a combination of lightweight, high strength, low density, good corrosion resistance and ductility. It is also recognized for their exceptional resistance to a wide range of chemical environments provided by a thin, invisible but extremely protective surface oxide film.
These extraordinary properties make it ideal for numerous kinds of industrial applications, including biomedical industry (titanium bone plate, artificial joint), aerospace and defence industry (turbine blade, aircraft engine components), 3C electronic industry (Apple watch Ultra bezel, smartphone phone case), and electric car industry (underbody of Tesla Model S).
However, titanium alloy has bad thermal conductivity and work-hardening quality. This would accumulate massive amount of cutting heat during the machining process, resulting in the chips being repeatedly adhesive to both the tool and workpiece. The adhesive wear of the tool then leads to the breakage on the tool's rake face and worsens the surface roughness of the workpiece.
