As detailed by ScienceDirect in their article “Fundamentals and Processes of Fluid Pressure Forming Technology for Complex Thin-Walled Components,” a new generation of fluid pressure forming technology is revolutionizing the manufacturing of components for aerospace, automotive, and high-speed train industries. At the forefront of these advancements are specialists who utilize cutting-edge methods to produce high-quality, complex thin-walled components.
The article reviews the state-of-the-art fundamentals and processes for various types of fluid pressure forming, including lower-pressure hydroforming for tubular components, double-sided pressure hydroforming for sheet components, and die-less hydroforming for ellipsoidal shells. It also covers dual hardening hot medium forming for hard-to-deform materials, highlighting the importance of understanding deformation behavior, stress state adjustment, and defect prevention in these processes.
Specialists excel in these advanced forming techniques, ensuring precision and reliability in the production of complex parts. Their expertise extends to future development directions in the field, such as hyper lower-loading forming for ultra-large non-uniform components, precision forming for intermetallic compounds and high-entropy alloys, and intelligent processes and equipment.
By integrating precise finite element simulation of inhomogeneous and strongly anisotropic thin shells, specialists continue to push the boundaries of what is possible in fluid pressure forming technology. Their commitment to innovation ensures they remain leaders in the industry, providing cutting-edge solutions for their clients.
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Article with all rights reserved, courtesy of sciencedirect.com
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