Machining
Machining research is a fundamental field within manufacturing engineering focused on shaping materials into precise parts using various cutting and shaping techniques. This category covers the scientific study of machining processes, tools, and technologies essential for modern industrial production. Research in machining advances understanding of cutting dynamics, process optimization, and material removal methods, which are vital for improving productivity and product quality. JoVE Visualize pairs PubMed articles with JoVE’s experiment videos to offer researchers and students an enriched view of machining techniques and experimental procedures, enhancing comprehension of complex manufacturing concepts.
Key Methods & Emerging Trends
Core Machining Methods
Established machining methods include turning, milling, drilling, and grinding, which are essential for shaping metals and other materials with high precision. Computer Numerical Control (CNC) machining is a widely adopted technology, enabling automated and accurate tool movements. These methods rely on understanding tool-material interactions, cutting forces, and thermal effects to optimize efficiency and surface quality. Conventional machining tools and process parameters remain a foundational research area to improve tool life, reduce costs, and refine machining definitions in manufacturing contexts.
Emerging Trends in Machining
Recent innovations in machining research explore techniques such as high-speed machining, micro and nano-machining, and hybrid additive-subtractive processes that offer enhanced capabilities for complex geometries and materials. Smart machining incorporating sensors and real-time monitoring is gaining traction to optimize machining parameters dynamically. Research into sustainable machining focuses on reducing waste and energy consumption. These evolving methods reflect a growing trend toward integrating digital technologies and advanced materials to redefine machining examples suited for Industry 4.0 environments.
Recently Published Articles
Experimental Investigation on Dry Routing of CFRP Composite: Temperature, Forces, Tool Wear, and Fine Dust Emission
Tarek Elgnemi, Victor Songmene, Jules Kouam, Martin B G Jun, Agnes Marie Samuel
Modeling of the Influence of Input AM Parameters on Dimensional Error and Form Errors in PLA Parts Printed with FFF Technology
Carmelo J Luis-Pérez, Irene Buj-Corral, Xavier Sánchez-Casas
Detection and Tracking Volumes of Interest in 3D Printed Tissue Engineering Scaffolds using 4D Imaging Modalities
A I Kondarage, B Gayani, G Poologasundarampillai, A Nommeots-Nomm, P D Lee, T D Lalitharatne, N D Nanayakkara, J R Jones, A Karunaratne
Design and characterization of a 3D-printed staggered herringbone mixer
Vedika J Shenoy, Chelsea Er Edwards, Matthew E Helgeson, Megan T Valentine
Analysis of large-scale tablet coating: Modeling, simulation and experiments
P Boehling, G Toschkoff, K Knop, P Kleinebudde, S Just, A Funke, H Rehbaum, J G Khinast