A state-of-the-art review on tool wear and surface integrity characteristics in machining of superalloys
Today, superalloys (also known as hard-to-cut materials) such as nickel, titanium and cobalt
based cover a wide range of areas in engineering applications. At the same time …
based cover a wide range of areas in engineering applications. At the same time …
[PDF][PDF] A review of advances in modeling of conventional machining processes: from merchant to the present
This paper presents a review of recent advances in modeling and simulation of conventional
metal machining processes, which continue to dominate a significant part of all machining …
metal machining processes, which continue to dominate a significant part of all machining …
Mitigating tribological challenges in machining additively manufactured stainless steel with cryogenic-MQL hybrid technology
Additively manufactured steel components are gaining prominence due to their design
versatility, reduced material waste, and rapid prototy** advantages. However, it is …
versatility, reduced material waste, and rapid prototy** advantages. However, it is …
Development of a cyber physical production system framework for smart tool health management
More and more organisations are trying to install tool health analytics dashboards for CNC
machines to avoid unexpected failures, maintain machining accuracy, and optimise tool …
machines to avoid unexpected failures, maintain machining accuracy, and optimise tool …
A hybrid remaining useful life prediction method for cutting tool considering the wear state
Y Li, Y **ang, B Pan, L Shi - The International Journal of Advanced …, 2022 - Springer
Accurate cutting tool remaining useful life (RUL) prediction is of significance to guarantee
the cutting quality and minimize the production cost. Recently, physics-based and data …
the cutting quality and minimize the production cost. Recently, physics-based and data …
[HTML][HTML] Physics based models for characterization of machining performance–A critical review
This paper presents a comprehensive review of the concept of machinability by considering
the dynamic, tribological, and thermo-mechanical interactions encountered at the tool-chip …
the dynamic, tribological, and thermo-mechanical interactions encountered at the tool-chip …
[HTML][HTML] Thermodynamic modeling framework for prediction of tool wear and tool protection phenomena in machining
Chemical, oxidational and diffusional interactions between the tool, chip and cutting
environment are known tool wear mechanisms in machining. However, the interaction …
environment are known tool wear mechanisms in machining. However, the interaction …
[HTML][HTML] Machinability improvement by in-operando Tool Protection Layers through designed steel alloying: The case of manganese steel
Improvements in machinability by alloying of the workpiece often adversely impact the end
user properties of a material. For example, the common use of non-metallic inclusions can …
user properties of a material. For example, the common use of non-metallic inclusions can …
[HTML][HTML] On chemical interactions between an inclusion engineered stainless steel (316L) and (Ti, Al) N coated tools during turning
Non-metallic inclusions offer one of the most effective routes for improving the machinability
of steels. However, the wear-reducing mechanisms activated by such inclusions are not fully …
of steels. However, the wear-reducing mechanisms activated by such inclusions are not fully …
[HTML][HTML] Advances in modeling of fixed-abrasive processes
Research over the last 70 years has led to a better understanding of fixed-abrasive
machining processes. This knowledge is often expressed in the form of physical and …
machining processes. This knowledge is often expressed in the form of physical and …