High precision ultrasonic measurement method for thin-walled parts
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Reference36 articles.
1. Cross-section deformation behaviors of a thin-walled rectangular tube of continuous varying radii in the free bending technology;Cheng;Thin-Walled Struct,2020
2. Research on machining technology of high speed and ultra-thin wall parts;Hu;J Mech Sci Technol,2020
3. Research on bending forming method of large diameter-thickness ratio thin-walled tubes for aerospace;Jiang;Int J Adv Manuf Technol,2019
4. Numerical study on deformation behaviors of thin-walled tube NC bending with large diameter and small bending radius;Li;Comput Mater Sci,2009
5. Ultrasonic testing of thin walled components made of aluminum based laminates;Adamus;Compos Struct,2018
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