Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l

Fahmi Mubarok; Putri Intan Usi Fauzia; Sutikno; Ferdiansyah Mahyudin; Dwikora Novembri Utomo

doi:10.4028/www.scientific.net/KEM.867.218

Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l

Fahmi Mubarok, Putri Intan Usi Fauzia, Sutikno, Ferdiansyah Mahyudin, Dwikora Novembri Utomo

Faculty of Medicine

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

. Investment casting of an orthopedic implant plate based on stainless steel 316L was considered an economical process. Nevertheless, the mechanical properties of the investment casting product were found to be inferior as compared to the implant plate fabricated with other methods such as forging due to their differences in the microstructure. Investment casting mostly produced coarser grain as compared to those with forging or rolled process. In order to improve their mechanical properties, cold-rolling followed by a repetitive thermal cycling process is proposed. The goal is to generate finer grain size through recrystallization process leading to nucleation of new grain during the thermal cycling process thus increasing their strength. Stainless steel 316L was cold-rolled to 52% reduction in thickness and this process generate stored strain energy in the form of dislocation density in the material. The thermal cycling treatment performed within several cycles after cold rolling enabling gradual disperse of stored strain energy that facilitates the recrystallization process that initiates new grain formation. The short holding time within several cycles limits the grain growth that normally occurs during annealing. It was found that thermal cycling treatment at a temperature of 950^oC for 35 seconds within four cycles led to the formation of finer grain size of 22 µm on average as compared to the initial investment casting average grain size of 290 µm. The hardness also increases to 253 HV0.3 in this condition as compared to 155 HV0.3 of investment casting products. Lower thermal cycling temperature than 950^oC during the test did not result in grain refinement thus indicating that strain energy relieves were not enough to aid the recrystallization process.

Original language	English
Title of host publication	Mechanical Engineering
Subtitle of host publication	Advanced Materials Processing Technology
Editors	Suwarno, Vivien Djanali, Fahmi Mubarok, Bambang Pramujati
Publisher	Trans Tech Publications Ltd
Pages	218-223
Number of pages	6
ISBN (Print)	9783035716870
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.867.218
Publication status	Published - 2020
Event	4th International Conference on Mechanical Engineering, ICOME 2019 - Yogyakarta, Indonesia Duration: 28 Aug 2019 → 29 Aug 2019

Publication series

Name	Key Engineering Materials
Volume	867 KEM
ISSN (Print)	1013-9826
ISSN (Electronic)	1662-9795

Conference

Conference	4th International Conference on Mechanical Engineering, ICOME 2019
Country/Territory	Indonesia
City	Yogyakarta
Period	28/08/19 → 29/08/19

Keywords

316L
Cold rolling
Implant
Investment casting
Thermal cycling

Access to Document

10.4028/www.scientific.net/KEM.867.218

Cite this

Mubarok, F., Fauzia, P. I. U., Sutikno, Mahyudin, F., & Utomo, D. N. (2020). Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l. In Suwarno, V. Djanali, F. Mubarok, & B. Pramujati (Eds.), Mechanical Engineering: Advanced Materials Processing Technology (pp. 218-223). (Key Engineering Materials; Vol. 867 KEM). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.867.218

Mubarok, Fahmi ; Fauzia, Putri Intan Usi ; Sutikno et al. / Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l. Mechanical Engineering: Advanced Materials Processing Technology. editor / Suwarno ; Vivien Djanali ; Fahmi Mubarok ; Bambang Pramujati. Trans Tech Publications Ltd, 2020. pp. 218-223 (Key Engineering Materials).

@inproceedings{919336e05edd4173a8fb0353bcdbc8f0,

title = "Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l",

abstract = ". Investment casting of an orthopedic implant plate based on stainless steel 316L was considered an economical process. Nevertheless, the mechanical properties of the investment casting product were found to be inferior as compared to the implant plate fabricated with other methods such as forging due to their differences in the microstructure. Investment casting mostly produced coarser grain as compared to those with forging or rolled process. In order to improve their mechanical properties, cold-rolling followed by a repetitive thermal cycling process is proposed. The goal is to generate finer grain size through recrystallization process leading to nucleation of new grain during the thermal cycling process thus increasing their strength. Stainless steel 316L was cold-rolled to 52% reduction in thickness and this process generate stored strain energy in the form of dislocation density in the material. The thermal cycling treatment performed within several cycles after cold rolling enabling gradual disperse of stored strain energy that facilitates the recrystallization process that initiates new grain formation. The short holding time within several cycles limits the grain growth that normally occurs during annealing. It was found that thermal cycling treatment at a temperature of 950oC for 35 seconds within four cycles led to the formation of finer grain size of 22 µm on average as compared to the initial investment casting average grain size of 290 µm. The hardness also increases to 253 HV0.3 in this condition as compared to 155 HV0.3 of investment casting products. Lower thermal cycling temperature than 950oC during the test did not result in grain refinement thus indicating that strain energy relieves were not enough to aid the recrystallization process.",

keywords = "316L, Cold rolling, Implant, Investment casting, Thermal cycling",

author = "Fahmi Mubarok and Fauzia, {Putri Intan Usi} and Sutikno and Ferdiansyah Mahyudin and Utomo, {Dwikora Novembri}",

note = "Funding Information: This work was financially supported by the grant for basic research from the Ministry of Research, Technology & Higher Education of Indonesia (840/PKS/ITS/2019). Publisher Copyright: {\textcopyright} 2020 Trans Tech Publications Ltd, Switzerland.; 4th International Conference on Mechanical Engineering, ICOME 2019 ; Conference date: 28-08-2019 Through 29-08-2019",

year = "2020",

doi = "10.4028/www.scientific.net/KEM.867.218",

language = "English",

isbn = "9783035716870",

series = "Key Engineering Materials",

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Mubarok, F, Fauzia, PIU, Sutikno, , Mahyudin, F & Utomo, DN 2020, Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l. in Suwarno, V Djanali, F Mubarok & B Pramujati (eds), Mechanical Engineering: Advanced Materials Processing Technology. Key Engineering Materials, vol. 867 KEM, Trans Tech Publications Ltd, pp. 218-223, 4th International Conference on Mechanical Engineering, ICOME 2019, Yogyakarta, Indonesia, 28/08/19. https://doi.org/10.4028/www.scientific.net/KEM.867.218

Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l. / Mubarok, Fahmi; Fauzia, Putri Intan Usi; Sutikno et al.
Mechanical Engineering: Advanced Materials Processing Technology. ed. / Suwarno; Vivien Djanali; Fahmi Mubarok; Bambang Pramujati. Trans Tech Publications Ltd, 2020. p. 218-223 (Key Engineering Materials; Vol. 867 KEM).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Utomo, Dwikora Novembri

N1 - Funding Information: This work was financially supported by the grant for basic research from the Ministry of Research, Technology & Higher Education of Indonesia (840/PKS/ITS/2019). Publisher Copyright: © 2020 Trans Tech Publications Ltd, Switzerland.

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N2 - . Investment casting of an orthopedic implant plate based on stainless steel 316L was considered an economical process. Nevertheless, the mechanical properties of the investment casting product were found to be inferior as compared to the implant plate fabricated with other methods such as forging due to their differences in the microstructure. Investment casting mostly produced coarser grain as compared to those with forging or rolled process. In order to improve their mechanical properties, cold-rolling followed by a repetitive thermal cycling process is proposed. The goal is to generate finer grain size through recrystallization process leading to nucleation of new grain during the thermal cycling process thus increasing their strength. Stainless steel 316L was cold-rolled to 52% reduction in thickness and this process generate stored strain energy in the form of dislocation density in the material. The thermal cycling treatment performed within several cycles after cold rolling enabling gradual disperse of stored strain energy that facilitates the recrystallization process that initiates new grain formation. The short holding time within several cycles limits the grain growth that normally occurs during annealing. It was found that thermal cycling treatment at a temperature of 950oC for 35 seconds within four cycles led to the formation of finer grain size of 22 µm on average as compared to the initial investment casting average grain size of 290 µm. The hardness also increases to 253 HV0.3 in this condition as compared to 155 HV0.3 of investment casting products. Lower thermal cycling temperature than 950oC during the test did not result in grain refinement thus indicating that strain energy relieves were not enough to aid the recrystallization process.

AB - . Investment casting of an orthopedic implant plate based on stainless steel 316L was considered an economical process. Nevertheless, the mechanical properties of the investment casting product were found to be inferior as compared to the implant plate fabricated with other methods such as forging due to their differences in the microstructure. Investment casting mostly produced coarser grain as compared to those with forging or rolled process. In order to improve their mechanical properties, cold-rolling followed by a repetitive thermal cycling process is proposed. The goal is to generate finer grain size through recrystallization process leading to nucleation of new grain during the thermal cycling process thus increasing their strength. Stainless steel 316L was cold-rolled to 52% reduction in thickness and this process generate stored strain energy in the form of dislocation density in the material. The thermal cycling treatment performed within several cycles after cold rolling enabling gradual disperse of stored strain energy that facilitates the recrystallization process that initiates new grain formation. The short holding time within several cycles limits the grain growth that normally occurs during annealing. It was found that thermal cycling treatment at a temperature of 950oC for 35 seconds within four cycles led to the formation of finer grain size of 22 µm on average as compared to the initial investment casting average grain size of 290 µm. The hardness also increases to 253 HV0.3 in this condition as compared to 155 HV0.3 of investment casting products. Lower thermal cycling temperature than 950oC during the test did not result in grain refinement thus indicating that strain energy relieves were not enough to aid the recrystallization process.

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Mubarok F, Fauzia PIU, Sutikno , Mahyudin F , Utomo DN. Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l. In Suwarno, Djanali V, Mubarok F, Pramujati B, editors, Mechanical Engineering: Advanced Materials Processing Technology. Trans Tech Publications Ltd. 2020. p. 218-223. (Key Engineering Materials). doi: 10.4028/www.scientific.net/KEM.867.218

Influence of thermal cycling temperatur on the recrystallization of cold rolled stainless steel 316l

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Publication series

Conference

Keywords

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