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Research Article
mounira Bouali Bourebia
Centre de Recherche en Technologies Industrielles
Corresponding Author
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Often, surface mechanical treatments (SMT) or heat (quenching, tempering) are used to improve the surface condition and mechanical characteristics such as impact resistance and tensile strength. Hence the objective of this experimental work, where ball burnishing (BB) as well as quenching and tempering were applied on S355 JR steel specimens in order to evaluate the surface hardness "Hv", the rupture strength "Rm", the energy absorbed "W" during the impact test and the work-hardened thickness "e" after the burnishing operation. Factorial designs were used for the tests organization and mathematical models were established for the prediction of "Hv", "Rm", "W" and "e" in function on treatment parameters considered: number of tool passes ( i) and the pressure force (Py). The results show that the surface hardness increases by 30.46%. The high levels of "Py" and "i" were allowed to improve "Rm" by 30.8% as well as an increase in tenacity of only 3.6%. Increasing the force to 20kgf promotes mixed rupture under the effect of impact to shock. The quenching and tempering improve the resistance "Rm" by 183% and 119% respectively, while the effect of burnishing was limited to a rate of increase of this property of 28% compared to machining.
Keywords
Tensile resistance, burnishing, heat treatment, superficial hardness, absorbed energy, penetration depth, ruptures facies
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This preprint is under consideration at The International Journal of Advanced Manufacturing Technology. A preprint is a preliminary version of a manuscript that has not completed peer review at a journal. Research Square does not conduct peer review prior to posting preprints. The posting of a preprint on this server should not be interpreted as an endorsement of its validity or suitability for dissemination as established information or for guiding clinical practice.
Learn more about In Review
Research Article
mounira Bouali Bourebia
Centre de Recherche en Technologies Industrielles
Corresponding Author
Badges
Prescreen
This manuscript passed our Prescreen assessment
Complete author information
Appropriate declaration statements
Potential risks to human health
Prescreen
Peer Review Timeline
CURRENT STATUS: Under Review
Version 1
Posted 19 Mar, 2021
No community comments so far
Reviewers invited
Invitations sent on 04 Mar, 2021
Review #? received
Received 04 Mar, 2021
Editor assigned
On 04 Mar, 2021
First submitted
On 04 Mar, 2021
Metrics
Comments: 0
PDF Downloads: ...
HTML Views: ...
Subject Areas
Mechanical Engineering
License:
This work is licensed under a CC BY 4.0 License. Read Full License
Often, surface mechanical treatments (SMT) or heat (quenching, tempering) are used to improve the surface condition and mechanical characteristics such as impact resistance and tensile strength. Hence the objective of this experimental work, where ball burnishing (BB) as well as quenching and tempering were applied on S355 JR steel specimens in order to evaluate the surface hardness "Hv", the rupture strength "Rm", the energy absorbed "W" during the impact test and the work-hardened thickness "e" after the burnishing operation. Factorial designs were used for the tests organization and mathematical models were established for the prediction of "Hv", "Rm", "W" and "e" in function on treatment parameters considered: number of tool passes ( i) and the pressure force (Py). The results show that the surface hardness increases by 30.46%. The high levels of "Py" and "i" were allowed to improve "Rm" by 30.8% as well as an increase in tenacity of only 3.6%. Increasing the force to 20kgf promotes mixed rupture under the effect of impact to shock. The quenching and tempering improve the resistance "Rm" by 183% and 119% respectively, while the effect of burnishing was limited to a rate of increase of this property of 28% compared to machining.
Figure 1
Figure 2
Figure 3
Figure 4
Figure 5
Figure 6
Figure 7
Figure 8
Figure 9
Figure 10
Figure 11
Figure 12
This preprint is available for download as a PDF.
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