Litcius/Paper detail

A Critical Review of Ultrasonic-Assisted Machining of Titanium Alloys

Muhammad Fawad Jamil, Qilin Li, Mohammad Keymanesh, Pingfa Feng, Jianfu Zhang

2025Machines14 citationsDOIOpen Access PDF

Abstract

Ultrasonic-assisted machining (UAM) has emerged as a transformative technology for increasing material removal efficiency, improving surface quality and extending tool life in precision manufacturing. This review specifically focuses on the application of it to titanium aluminide (TiAl) alloys. These alloys are widely used in aerospace and automotive sectors due to their low density, high strength and poor machinability. This review covers various aspects of UAM, including ultrasonic vibration-assisted turning (UVAT), milling (UVAM) and grinding (UVAG), with emphasis on their influence on the machinability, tool wear behavior and surface integrity. It also highlights the limitations of single-energy field UAM, such as inconsistent energy transmission and tool fatigue, leading to the increasing demand for multi-field techniques. Therefore, the advanced machining strategies, i.e., ultrasonic plasma oxidation-assisted grinding (UPOAG), protective coating-assisted cutting, and dual-field ultrasonic integration (e.g., ultrasonic-magnetic or ultrasonic-laser machining), were discussed in terms of their potential to further improve TiAl alloys processing. In addition, the importance of predictive force models in optimizing UAM processes was also highlighted, emphasizing the role of analytical and AI-driven simulations for better process control. Overall, this review underscores the ongoing evolution of UAM as a cornerstone of high-efficiency and precision manufacturing, while providing a comprehensive outlook on its current applications and future potential in machining TiAl alloys.

Topics & Concepts

MachiningTitanium aluminideAerospaceMaterials scienceGrindingTitanium alloyMetallurgyAutomotive industryMechanical engineeringUltrasonic machiningField (mathematics)Cutting toolTool wearUltrasonic sensorManufacturing engineeringProcess (computing)Sonodynamic therapyTitaniumSurface integrityQuality (philosophy)Specific strengthAerospace materialsCermetCharacterization (materials science)Near net shapeAdvanced machining processes and optimizationAdvanced Machining and Optimization TechniquesAdvanced Surface Polishing Techniques