Experimental and numerical study on optimization of the single point incremental forming of AINSI 304L stainless steel sheet

AINSI 304L stainless steel sheets are commonly formed into a variety of shapes for applications in the industrial, architectural, transportation and automobile fields, it's also used for manufacturing of denture base. In the field of dentistry, there is a need for personalized devises that are...

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Bibliographic Details
Published in:Journal of physics. Conference series 2017-09, Vol.896 (1), p.12039
Main Authors: Saidi, B., Giraud-Moreau, L., Cherouat, A., Nasri, R.
Format: Article
Language:English
Subjects:
Austenitic stainless steels
Chemical and Process Engineering
Customization
Dental materials
Dentistry
Dentures
Design of experiments
Engineering Sciences
experimental
force
Forming techniques
Incremental Sheet Forming: shapes
Manufacturing
Metal sheets
Milling machines
Numerical controls
Optimization
Physics
Process parameters
Prostheses
simulation
Stainless steel
Tooling
Variance analysis
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Summary:AINSI 304L stainless steel sheets are commonly formed into a variety of shapes for applications in the industrial, architectural, transportation and automobile fields, it's also used for manufacturing of denture base. In the field of dentistry, there is a need for personalized devises that are custom made for the patient. The single point incremental forming process is highly promising in this area for manufacturing of denture base. The single point incremental forming process (ISF) is an emerging process based on the use of a spherical tool, which is moved along CNC controlled tool path. One of the major advantages of this process is the ability to program several punch trajectories on the same machine in order to obtain different shapes. Several applications of this process exist in the medical field for the manufacturing of personalized titanium prosthesis (cranial plate, knee prosthesis...) due to the need of product customization to each patient. The objective of this paper is to study the incremental forming of AISI 304L stainless steel sheets for future applications in the dentistry field. During the incremental forming process, considerable forces can occur. The control of the forming force is particularly important to ensure the safe use of the CNC milling machine and preserve the tooling and machinery. In this paper, the effect of four different process parameters on the maximum force is studied. The proposed approach consists in using an experimental design based on experimental results. An analysis of variance was conducted with ANOVA to find the input parameters allowing to minimize the maximum forming force. A numerical simulation of the incremental forming process is performed with the optimal input process parameters. Numerical results are compared with the experimental ones.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/896/1/012039