Published Research

GLEEBLE RESEARCH PAPERS
By Our Customers and DSI Team

Research Powered by Gleeble: Publications from Our Global Community

The true measure of any scientific instrument are the discoveries it makes possible. The following collection of peer-reviewed journal articles, conference papers, and technical publications represents just a fraction of the groundbreaking research conducted by Gleeble users around the world. Spanning industries from aerospace and automotive to steel manufacturing and additive manufacturing, and covering applications from welding and HAZ simulation to phase analysis and alloy development, these works demonstrate the breadth and depth of what Gleeble systems enable.

We are proud to support the researchers, engineers, and institutions whose curiosity and expertise continue to push the boundaries of materials science — one experiment at a time.

Gleeble Systems

3800

Correlation Of Microstructure With Haz Welding Cycles Simulated In Ti-15-3 Alloy Using Gleeble® 3800 And Sysweld M. R. Rahul, G. Phanikumar
A Multiscale Model Of Heating-Remelting-Cooling In The Gleeble 3800 Thermo-Mechanical Simulator System M. Hojny , M. Głowacki, P. Bała, W. Bednarczyk, W. Zalecki
Relation Between The Degree Of Alloying, Structure, And Mechanical Properties Of High-Strength Steel A. S. Oryshchenko, V. A. Malyshevskii, S. N. Petrov & E. A. Shumilov
Study Of The Structure And Properties Of A Wrought Al–Mg–Mn Aluminum Alloy On A Gleeble 3800 Simulator Designed For Physical Modeling Of Thermomechanical Processes A. Yu. Churyumov, A. I. Bazlov, A. A. Tsar’kov & A. V. Mikhaylovskaya
Strain-Controlled Thermo-Mechanical Fatigue Testing Of Aluminum Alloys Using The Gleeble® 3800 System J. Qin*, D. Racine, K. Liu, And X.-G. Chen

3500

Effect Of Heat Input On The Microstructure And Hydrogen Embrittlement Susceptibility Of The Coarse-Grain Heat-Affected Zone Of Crmo Steels Generated Using A Gleeble 3500 Welding Simulator Zhi Tong, Qiyun Wen, Hantong Wang, Hongyu Zhou, Wenyue Zheng
Creep Strain Behaviors Of Ti-6Al-4V Using Gleeble 3500 Kevin J. Zhang; Chase Sheeley; Lesley D. Frame
Gleeble Simulation Of The HAZ In Inconel 617 Welding Wen Liu A, Fenggui Lu A, Renjie Yang B, Xinhua Tang A, Haichao Cui A
Physical Simulation Technology For Thermo-Mechanical Processing Of Metallic Alloys Using Gleeble System Eman El-Shenawy

3180

A Weldability Study of Steel of Strength Class X100 D.A. Ringinen, A.V. Chastukhin, G.E. Khadeev, L.I. Efron, P. Stepanov Metallurgist, Vol. 57, pp. 1112–1119, 2014
Features (Research) of the Effect of Microstructure on Large Diameter Pipe Welded Joint Impact Strength S.V. Zharkov, P.P. Stepanov, A.V. Chastukhin, O.A. Bagmet, L.I. Éfron Metallurgist, 2023
Physical Simulation of Laser Surface Treatment to Study Softening Effect on Age-Hardened Aluminium Alloys Maria Emanuela Palmieri, Luigi Tricarico Journal of Manufacturing and Materials Processing (MDPI), Vol. 6, Issue 3, Article 64, 2022
High Temperature Plasticity of TP347H Stainless Steel Welded Joint Heat Affected Zone Z.B. Chen, Q.H. Zhu, J.X. Song, et al. Key Engineering Materials, Vol. 881, pp. 19–24, 2021
Mechanical and Microstructural Evaluation of Solid-State Foamed Ti6Al4V-ELI Alloy P. Guglielmi, A. Piccininni, A. Cusanno, A.A. Kaya, G. Palumbo Procedia CIRP, 2022

540

Thermal simulation applications in welding processes Ibrahim N. Katsina

1500

Chapter in Welding of Metallic Materials: Methods, Metallurgy and Performance (ISBN 978-0-323-90552-7) F. Khoshnaw (Ed.), Elsevier, 2022
Hot-rolling simulation and modelling using Gleeble 1500 Dr. Reuben Austin Morgridge, Professor Pentti Karjalainen
Pressing vacuum sintering of multipowders for manufacturing novel engine valve seat on Gleeble 1500 simulator Y. Z. Zhu &Z. M. Yin
Determinaton of constitutive behaviour of as cast AA 5182 for deformations that occur during direct chill casting using the Gleeble 1500 machine Alhassan-Abu, A R; Wells, M A. Materials Science and Technology: MST; London Vol. 19, Iss. 1, (Jan 2003)
Evaluation of weld solidification cracking in aluminum alloys aluminum-2219 and aluminum-2090 using the Gleeble 1500 system Chen, Chih-Chang. The Ohio State University ProQuest Dissertations & Theses, 1991. 9120644.

HDS V-40

Effect of Hot Rolling and Thermal Treatment on the Microstructure Evolution of Microalloyed Bainitic Steels for Pipeline A. Kabanov, G. Korpala, R. Kawalla, S. Ionov Key Engineering Materials, Vol. 746, pp. 176–183, 2017
Effect of Cooling and Isothermal Holding on the Amount of Martensite/Austenite (M/A) Constituents, Microstructure and Mechanical Properties of Microalloyed Pipeline Steel A. Kabanov, G. Korpala, R. Kawalla, S. Ionov Materials Science Forum, Vol. 918, pp. 152–157, 2018
Determination of the Hot Cracking Tendency of a Twin-Roll Cast AZ31 Magnesium Alloy by Means of Gleeble Tests Heike Weeme, Christina Krbetschek, Madlen Ullmann, Anna Freigang, Stefan Plach, Rudolf Kawalla Materials Science Forum, Vol. 918, pp. 40–, 2018
The Kinetics of Dynamic Recrystallization of Fe–16Cr–xMn–4Ni–0.05C–0.17N Steel Alexander Nam, Murodjon Turdimatov, Rudolf Kawalla, Ulrich Prahl Steel Research International, 2018. DOI: 10.1002/srin.201800309
Inter-Pass Softening Behavior of Fe–16Cr–xMn–4Ni–0.05C–0.17N Steel Alexander Nam, Murodjon Turdimatov, Rudolf Kawalla, Ulrich Prahl

LuMet

In Situ Measurements of Grain Growth and Recrystallization by Laser Ultrasonics M. Militzer, T. Garcin, W.J. Poole Materials Science Forum, Vol. 753, pp. 25–30, 2013

Austenite Grain Growth Studies in Line Pipe Steels (MASc thesis) Joshua Swan Supervisors: Matthias Militzer, Warren J. Poole University of British Columbia (Vancouver), July 2024
Phase transformation kinetics in a coarse-grain Ti17 alloy determined by laser ultrasonics and dilatometry Ricardo Henrique Buzolin, Mariana C.M. Rodrigues, Matthias Militzer, Alfred Krumphals, Emilia Guntsche, Silvana Sommadossi , Maria Cecilia Poletti
Austenite Grain Size Model for the Coarse Grain Heat Affected Zone in Line Pipe Steels Nicolas Romualdi, Matthias Militzer, Warren Poole, Laurie Collins, Robert Lazor
In-situ Measurement of the β to α Phase Transformation Kinetics in a Ti-5553 Alloy Using Laser Ultrasonics M.C.M. Rodrigues, T. Garcin, M. Militzer MATEC Web of Conferences, Vol. 321, Art. 12013, 2020. DOI: 10.1051/matecconf/202032112013 (Proceedings of the 14th World Conference on Titanium)

Beamline

Understanding Microstructural Evolution During Rapid Heat Treatment of Microalloyed Steels Through Computational Modeling, Advanced Physical Simulation, and Multiscale Characterization Techniques B.M. Whitley, J.G. Speer, R. Cryderman, J. Klemm-Toole Volume 28, pages 1293–1300, (2019)

Testing Types

Tensile

A Coupled Electrical–Thermal–Mechanical Modeling of Gleeble Tensile Tests for Ultra-High-Strength (UHS) Steel at a High Temperature C. Zhang, M. Bellet, M. Bobadilla, H. Shen, B. Liu Metallurgical and Materials Transactions A, Vol. 41, pp. 2304–2317, 2010. DOI: 10.1007/s11661-010-0310-7
Investigation of the Effects of Thermal Gradients Present in Gleeble High-Temperature Tensile Tests on the Strain State for Free Cutting Steel E. Kardoulaki, J. Lin, D. Balint, D. Farrugia Journal of Strain Analysis for Engineering Design, 2014. DOI: 10.1177/0309324714531950
Temperature Distribution in the As-Cast Steel Specimen During Gleeble Hot-Tensile Test and Its Effect on High-Temperature Mechanical Properties Wenxiang Jiang, Mujun Long, Dengfu Chen, Songyuan Ai & Huamei Duan Metallurgical and Materials Transactions B, Vol. 52, No. 3, pp. 1228–1242, June 2021. DOI: 10.1007/s11663-021-02071-3
Tensile Behavior of a Slurry Fe-Cr-Si Coated Nb-Alloy Evaluated by Gleeble Testing M.K. Kumawat, Z. Alam, A. Kumar, K. Gopinath, S. Saha, V. Singh, V. Srinivas, D. Das Surface & Coatings Technology, Vol. 349, pp. 695–706, 2018. DOI: 10.1016/j.surfcoat.2018.07.042
Influence of Gauge Length on Tensile Curves of Gleeble High-Temperature Tensile Samples G. Zhao, D. Wu, S. Liu, et al. Experimental Technology and Management, Vol. 41, No. 8, pp. 15–21, August 2024. DOI: 10.16791/j.cnki.sjg.2024.08.002

Compression

A Critical Analysis of Plastic Flow Behaviour in Axisymmetric Isothermal and Gleeble Compression Testing C.J. Bennett, S.B. Leen, E.J. Williams, P.H. Shipway, T.H. Hyde Computational Materials Science, Vol. 50, No. 1, pp. 125–137, 2010. DOI: 10.1016/j.commatsci.2010.07.016
Constitutive Relationships for Hot Deformation of A Carbon Steel: A Comparison Study of Compression Tests and Torsion Tests K. P. Rao, E. B. Hawbolt, H. J. McQueen & D. Baragar
Optimisation of Material Properties for the Modelling of Large Deformation Manufacturing Processes Using a Finite Element Model of the Gleeble Compression Test C.J. Bennett, W. Sun Journal of Strain Analysis for Engineering Design, Vol. 49, pp. 429–436, 2014. DOI: 10.1177/0309324713520310
Different Applications of the Gleeble® Thermal–Mechanical Simulator in Material Testing, Technology Optimization, and Process Modeling P. Bereczki, B. Fekete, V. Szombathelyi, F. Misjak
Advanced Numerical Modeling and Experimental Analysis of Thermal Gradients in Gleeble Compression Configuration for 2017-T4 Aluminum Alloy Olivier Pantalé, Yannis Muller and Yannick Balcaen

Ductility

Gleeble Hot Ductility Tests for Determination of the Strain vs Reduction of Area Relationship L.P. Karjalainen
Experimental and numerical study on the tensile ductility of an aluminium alloy with heat-affected zones Sigurd Aune, David Morin, Magnus Langseth, Arild Holm Clausen
Hot ductility and microstructure in casted 2205 duplex stainless steels G.W. Fan, J. Liu, P.D. Han, G.J. Qiao
Effect of different solution heattreatments on hot ductility of superalloys Part 2 – Allvac 718 Plus J Andersson, G P Sjöberg, and M Chaturvedi
New measurement technique of ductility curve for ductility-dip cracking susceptibility in Alloy 690 welds Kota Kadoi, Takanori Uegaki, Kenji Shinozaki, Motomichi Yamamoto

Nil Strength

The Relationship Between Nil-Strength Temperature, Zero Strength Temperature and Solidus Temperature of Carbon Steels P. Kawulok, I. Schindler, B. Smetana, J. Moravec, A. Mertová, Ľ. Drozdová, R. Kawulok, P. Opěla, S. Rusz Metals, Vol. 10, No. 3, Art. 399, 2020. DOI: 10.3390/met10030399
Analysis of X5CrNi18-10 (AISI 304) Steel Susceptibility to Hot Cracking in Welded Joints Based on Determining the Range of High-Temperature Brittleness and the Nil-Strength Temperature Sławomir Janusz Krajewski, Wojciech Gutsche, Kamil Urbanowicz
Toughness Examination of Physically Simulated S960QL HAZ by a Special Drilled Specimen Marcell Gáspár, András Balogh & János Lukács

SICO

Testing for Susceptibility to Hot Cracking on Gleeble™ Physical Simulator S.T. Mandziej In: T. Böllinghaus, H. Herold (eds), Hot Cracking Phenomena in Welds. Springer, Berlin, Heidelberg, 2005. DOI: 10.1007/3-540-27460-X_18
Assessment of technological plasticity of high-Mn steels in SICO test Gabriela Fojt-Dymara, Marek Opiela, Barbara Grzegorczyk & Adam Grajcar
Testing for Susceptibility to Hot Cracking on Gleeble™ 3500 Physical Simulator Alsalamah Bassel, László Kuzsella, Zsolt Lukács
Crack Appearance in Hot Rolled Billets S.T. Mandziej & G. Krallics
Mitigation of Corner Cracking in Continuously Cast Steel Slabs Through Strain Induced Crack Opening Test Pranav Kumar Tripathi, D. Satish Kumar, T. Rajendra & S. C. Vishwanath

Stress Relaxation

Comparison of Stress Relaxation Cracking Susceptibility of Austenitic Stainless Steels H.S. LEE, B.S. KIM, AND S. I. HONG
Thermomechanical characterization of 22M nB5 steels with special emphasis on stress relaxation and creep behavior Rohith Uppaluri ,Dirk Helm
Stress relaxation cracking susceptibility evaluation in 347H stainless steel welds Timothy Pickle, Yu Hong, Judith Vidal, Chad Augustine & Zhenzhen Yu
Time-dependent springback prediction with stress relaxation effect for non-isothermal hot stamping of titanium alloy sheets Yuan Chen, Guofeng Han, Shuhui Li, Yongfeng Li, Zhiqiang Li & Zhongqin Lin

Fatigue

Strain-Controlled Thermo-Mechanical Fatigue Testing Of Aluminum Alloys Using The Gleeble® 3800 System J. Qin*, D. Racine, K. Liu, and X.-G. Chen
Combined Gleeble physical welding simulation and low-cycle thermo-mechanical fatigue for heat-affected zone material for 9Cr steel: Experimental testing and through-process model Padraig MacArdghail, Richard A Barrett, […], and Sean B Leen
The Effect of Welding Process on the Fatigue Life of Joints made by Diffusion Welding Sanjeeb Kumar Samal doc. Ing. Jaromír Moravec, Ph.D.
Low-cycle thermal-mechanical fatigue as an accelerated creep test S.T. Mandziej
Assessment of the Effect of Residual Stresses Arising in the HAZ of Welds on the Fatigue Life of S700MC Steel Šárka Bukovská, Jaromír Moravec, Pavel Solfronk, Milan Pekárek

Publications by DSI Gleeble Experts

At DSI, our team doesn't just build the world's leading thermomechanical simulation systems — they help advance the science behind them. The following journals, conference papers, textbooks, and book chapters represent decades of research and expertise contributed by DSI's technical staff to the global materials science and engineering community.

PEER-REVIEWED JOURNAL & CONFERENCE PAPERS

(126) J.M.S. Nunes, M.C.N. Carvalho, M.V.G. Rodrigues, J.C. Ferreira, K.L. Silva, A.E. Salas-Reyes, M.N.S. Lima, F. Siciliano, G.S. Reis, H.F.G. Abreu, S.F. Rodrigues, E.S. Silva: Stacking fault energy during DRV-DRX competition in high-nitrogen austenitic stainless steel used in orthopedic implants. Journal of Materials Research and Technology 33 (2024) 5322–5338. https://doi.org/10.1016/j.jmrt.2024.10.195
(125) M.V.G. Rodrigues, F. Siciliano, C. Aranas, M.S. Lima, R.C.P. Loureiro, G.S. Reis, E.S. Silva, P.B.P. Leão, J.C. Ferreira, H.F.G. Abreu, S.F. Rodrigues: Evidence of dynamic ferrite transformation during thermomechanical simulation of an X70 microalloyed steel above Ae3 temperature. Journal of Materials Research and Technology 30 (2024) 3675–3689. https://doi.org/10.1016/j.jmrt.2024.04.121
(124) M.V.G. Rodrigues, J.C. Ferreira, E.S. Silva, C. Aranas, F. Siciliano, S.F. Rodrigues, G.S. Reis: Evidence of ferrite transformation by means of in-situ x-ray diffraction inside the austenite phase field during thermomechanical physical simulation on an API X70 steel. ICAIC/IMMSEM 2023, IFMA, São Luis, MA.
(123) F. Siciliano: The Application of Physical Simulation in Hot and Cold Rolling of Steels. Thermec'23 International Conference on Processing & Manufacturing of Advanced Materials, July 2-7, 2023, Vienna, Austria.
(122) G.A.S. Sulzbach, M.V.G. Rodrigues, S.F. Rodrigues, M.N.S. Lima, R.C.P. Loureiro, D.F.S. Sá, C. Aranas, G.M.E. Macedo, F. Siciliano, H.F.G. Abreu, G.S. Reis and E.S. Silva: Optimization of Thermomechanical Processing under Double-Pass Hot Compression Tests of a High Nb and N-Bearing Austenitic Stainless-Steel Biomaterial Using Artificial Neural Networks. Metals 2022, 12, 1783. https://doi.org/10.3390/met12111783
(121) S.F. Rodrigues, M.V.G. Rodrigues, F. Siciliano, G.S. Reis, E.S. Silva, C. Aranas Jr.: X-ray diffraction evidence of dynamic ferrite transformation during tensile tests of a microalloyed steel above Ae3 temperature. International Materials Research Congress, IMR, Aug 14-19, Mexico.
(120) F. Siciliano, S.F. Rodrigues, C. Aranas Jr.: Thermomechanical Simulation in Additive Manufacturing of Metals and Alloys. International Materials Research Congress, IMR, Aug 14-19, Mexico.
(119) Bianca M. Costa, J.C. Ferreira, F.R.S. Machado, F. Siciliano, E.S. Silva, G.S. Reis and S.F. Rodrigues: Investigation of the dynamic transformation during a rolling process simulation of an X80 steel. International Materials Research Congress, IMR, Aug 14-19, Mexico.
(118) Maria V.G. Rodrigues, E.S. Silva, C. Aranas Jr., F. Siciliano, S.F. Rodrigues, G.S. Reis: Evidence of ferrite transformation by means of in-situ X-ray diffraction inside the austenite phase field during thermomechanical physical simulation on an API X70 steel. International Materials Research Congress, IMR, Aug 14-19, Mexico.
(117) F.R.S. Machado, J.C. Ferreira, M.V.G. Rodrigues, M.N.S. Lima, R.C.P. Loureiro, F. Siciliano, E.S. Silva, G.S. Reis, R.C. Sousa, C. Aranas Jr., H.F.G. Abreu and S.F. Rodrigues: Dynamic Ferrite Formation and Evolution above the Ae3 Temperature during Plate Rolling Simulation of an API X80 Steel. Metals 2022, 12, 1239. https://doi.org/10.3390/met12081239
(116) K.L. Silva, S.F. Rodrigues, G.M.E. Macedo, B.L.S. Lopes, C. Aranas Jr., F. Siciliano, G.S. Reis and E.S. Silva: Solubility Product of a Nb-N Bearing Austenitic Stainless-Steel Biomaterial. Journal of Materials Research and Technology - Volume 15, November–December 2021, Pages 5864-5879. https://doi.org/10.1016/j.jmrt.2021.11.033
(115) J.C. Ferreira, F.R.S. Machado, C. Aranas, F. Siciliano, J. Pasco, G.S. Reis, E.J.P. Miranda, A.E.M. Paiva and S.F. Rodrigues: Physical Simulation Based on Dynamic Transformation Under Hot Plate Rolling of a Nb-Microalloyed Steel. Frontiers in Materials, 06 August 2021. https://doi.org/10.3389/fmats.2021.716967
(114) B. Callegari, T.N. Lima, F. Siciliano, B.C.S. Silva, A.S. Oliveira, R.S. Coelho: Adaptação do simulador termomecânico Gleeble® para avaliação da conformabilidade de chapas metálicas. VI Seminário de Avaliação de Pesquisa Científica e Tecnológica SENAI CIMATEC – 2021.
(113) C. Aranas Jr., F. Siciliano, S.F. Rodrigues, Pasco, E.J.P. Miranda Jr. and J.J. Jonas: Thermomechanical and thermodynamic behavior of deformed austenite in four different steel grades. Journal of Materials Research and Technology, Vol. 11, pp.1911-1916, 2021. https://doi.org/10.1016/j.jmrt.2021.02.034
(112) C. Aranas, S.F. Rodrigues, C. Ghosh, F. Siciliano, J.J. Jonas: Recent developments in thermomechanical processing of steels. 2020 AIST J. Keith Brimacombe Memorial Lecture. AISTech 2020, Nashville, USA. DOI: 10.33313/380/001
(111) S.F. Rodrigues, F. Siciliano, C. Aranas Jr., E. Silva, G.S. Reis and J.J. Jonas: Formation of Strain Induced Ferrite and its Re-transformation above the Ae3 under Plate Rolling Conditions. COM 2020 - Proceedings of the 59th Annual Conference of Metallurgists, ISBN: 978-1-926872-47-6, Paper 821213.
(110) C. Aranas, S.F. Rodrigues, F. Siciliano, J.J. Jonas: X-ray diffraction analysis of dynamic transformation during high-temperature deformation of niobium steel. COM 2020 - Proceedings of the 59th Annual Conference of Metallurgists, ISBN: 978-1-926872-47-6, Paper 820257.
(109) T.B. Carneiro, S.F. Rodrigues, C. Aranas Jr., F. Siciliano, E.S. Silva, G.S. Reis, M. Jahazi and J.J. Jonas: Retransformation of Strain-Induced Ferrite during Steckel Mill Hot Rolling Simulations. Journal of Materials Research and Technology, 2020; 9:10254–10264. https://doi.org/10.1016/j.jmrt.2020.07.042
(108) F. Siciliano, S.F. Rodrigues, C. Aranas Jr. and J.J. Jonas: The dynamic transformation of ferrite above Ae3 and the consequences on hot rolling of steels. TMM - Tecnologia em Metalurgia, Materiais e Mineração, 2020. https://doi.org/10.4322/2176-1523.20202230
(107) S.F. Rodrigues, F. Siciliano, C. Aranas Jr., E.S. Silva, G.S. Reis and J.J. Jonas: High temperature deformation behavior of high Nb microalloyed steel during plate rolling simulation. TMM - Tecnologia em Metalurgia, Materiais e Mineração, 2020. https://doi.org/10.4322/2176-1523.20202231
(106) N.L.C. Santos Filho, E.S. Silva, C. Aranas Jr., F. Siciliano, G.S. Reis, S.F. Rodrigues: Constitutive analysis of the mean flow stress of a Nb- and N-bearing austenitic stainless steel biomaterial. Metals and Materials International, Springer, June 2020. https://doi.org/10.1007/s12540-020-00777-8
(105) E.R. Sá, S.F. Rodrigues, C. Aranas Jr., F. Siciliano, G.S. Reis, J-M. Cabrera-Marrero and E.S. Silva: Softening-precipitation interaction in a Nb-and N-bearing austenitic stainless steel under stress relaxation. Journal of Materials Research and Technology 2020;9:7807–7816. https://doi.org/10.1016/j.jmrt.2020.05.066
(104) C. Aranas, S.F. Rodrigues, F. Siciliano, J.J. Jonas: In-situ x-ray diffraction measurement during deformation of austenite above the Ae3 temperature. 2020 TMS Annual Meeting & Exhibition, February 24-26, 2020, San Diego, USA.
(103) F. Siciliano, S.F. Rodrigues, C. Aranas Jr. and J.J. Jonas: In-situ synchrotron X-ray diffraction analysis of dynamically transformed ferrite above the Ae3 temperature in an X-70 linepipe steel. 19° Congreso Internacional de Metalurgia y Materiales - CONAMET-SAM, Nov 3-7, 2019, Valdivia, Chile.
(102) C. Aranas Jr., S.F. Rodrigues, F. Siciliano and J.J. Jonas: In-situ X-ray diffraction evidence of dynamic transformation of ferrite during hot tensile test in the single austenite phase field. Scripta Materialia, October 2019. DOI: 10.1016/j.scriptamat.2019.10.008
(101) S.F. Rodrigues, F. Siciliano, C. Aranas Jr., E.S. Silva, G.S. Reis and J.J. Jonas: Dynamic transformation during plate rolling simulations of a high Nb steel. Proceedings of the 11th International Rolling Conference, São Paulo, Brazil, Oct 1-4, 2019. doi 10.5151/9785-9785-32210
(100) F. Siciliano, S.F. Rodrigues, C. Aranas Jr. and J.J. Jonas: Thermo-mechanical processing during hot rolling of steels and the dynamic transformation of ferrite above Ae3. Proceedings of the 11th International Rolling Conference, São Paulo, Brazil, Oct 1-4, 2019. doi 10.5151/9785-9785-32222 — Winner of the Henri Meyers Award, 2021
(99) F.A.S. Aquino, E.S. Silva, S.F. Rodrigues, C. Aranas Jr., F. Siciliano, S.S. Coutinho and G.S. Reis: Thermomechanical behavior of biocompatible austenitic stainless steels during simulated torsion tests. Journal of Materials Engineering and Performance, September 2019. DOI: 10.1007/s11665-019-04324-4
(98) E.S. Silva, B.L.S. Lopes, G.S. Reis, C. Aranas Jr., F. Siciliano and S.F. Rodrigues: Universal Derby-Ashby Relationship on an UNS S 31675 Biocompatible Austenitic Stainless Steel. International Materials Research Congress, August 19-24, 2019, Cancún, Mexico.
(97) S.F. Rodrigues, T.B. Carneiro, C. Aranas Jr., E.S. Silva, F. Siciliano, G.S. Reis and J.J. Jonas: Induced ferrite formation above the Ae3 during plate rolling simulation of a X-70 steel. MRS Advances, 2019. DOI: 10.1557/adv.2019.343
(96) H. Palhano, C. Aranas Jr., S.F. Rodrigues, E.S. Silva, G.S. Reis, E.J.P. Miranda Jr., F. Siciliano and J.J. Jonas: Induced ferrite formation under different simulated thermomechanical schedule of plate rolling. Metals vol. 9, issue 8, p. 814, MDPI, 2019. doi: 10.3390/met9080814
(95) S.F. Rodrigues, F. Siciliano, C. Aranas Jr., E.S. Silva, G.S. Reis, M. Jahazi and J.J. Jonas: Dynamic Phase Transformation Behavior of a Nb-microalloyed Steel during Roughing Passes at Temperatures above the Ae3. Metals 2019, 9, 334. doi: 10.3390/met9030334
(94) F. Siciliano: Physical Simulation of Industrial Hot Rolling – a Comparative Study Between Plane-strain Compression and Torsion Deformation Methods. 18° Congreso Internacional de Metalurgia y Materiales – SAM-CONAMET, October 1-5, 2018, San Carlos de Bariloche, Argentina.
(93) F. Siciliano, S.F. Rodrigues and B.J. Allen: The Role of Hot Rolling Simulations on High Strength Steels Production. International Materials Research Congress, August 19-24, 2018, Cancún, Mexico.
(92) F. Siciliano, B. Allen, S.F. Rodrigues & J.J. Jonas: Physical Simulation Methods applied to Hot Rolling of Plain C-Mn and Microalloyed Steels. Materials Science Forum Vol. 941, pp 438-442. doi: 10.4028/www.scientific.net/MSF.941.438. Thermec'18, July 8-13, 2018, Paris, France.
(91) S.F. Rodrigues, C. Aranas Jr., F. Siciliano, S. Yue & J.J. Jonas: Effect of the Number of Roughing Passes on the Dynamic Transformation of Austenite During Simulated Plate Rolling. Materials Science Forum Vol. 941, pp 717-722. doi: 10.4028/www.scientific.net/MSF.941.717. Thermec'18, July 8-13, 2018, Paris, France.
(90) S.F. Rodrigues, C. Aranas Jr., B. Sun, F. Siciliano, S. Yue, and J.J. Jonas: Effect of Grain Size and Residual Strain on the Dynamic Transformation of Austenite under Plate Rolling Conditions. Steel Research International, 2018. DOI: 10.1002/srin.201700547
(89) S.F. Rodrigues, C. Aranas Jr., F. Siciliano & J.J. Jonas: Dynamic Transformation of Austenite During Plate Rolling of a High Nb X70 Pipeline Steel. TMS 147th Annual Meeting and Exhibition, March 11-15, 2018, Phoenix, AZ, USA. — Award Paper
(88) S.F. Rodrigues, C. Aranas Jr., J.J. Jonas & F. Siciliano: Dynamic Transformation during the simulated plate rolling of an X-70 pipeline steel. Euromat Conference, Sep 17-22, 2017, Thessaloniki, Greece.
(87) F. Siciliano and B.J. Allen: The use of physical simulation in high strength steel development. International Materials Research Congress, Aug 20-25, 2017, Cancún, Mexico.
(86) F. Siciliano: Physical Simulation in Advanced High Strength Steels Production. FIMPART - Frontiers in Materials Processing Applications, Research and Technology, Jul 9-12, 2017, Bordeaux, France.
(85) S.F. Rodrigues, C. Aranas Jr., F. Siciliano & J.J. Jonas: Dynamic Transformation and Retransformation during the Simulated Plate Rolling of an X-70 Pipeline Steel. 3rd Pan American Materials Congress, San Diego, USA, Feb 2017. The Minerals, Metals & Materials Series, Springer, 2017, v.1, p. 259-269.
(84) F. Siciliano: High-Strength Linepipe Steels and Physical Simulation of Production Processes. In: Roy T., Bhattacharya B., Ghosh C., Ajmani S. (eds) Advanced High Strength Steel. Lecture Notes in Mechanical Engineering. Springer, Singapore. DOI: 10.1007/978-981-10-7892-7_8
(83) F. Siciliano: High Strength Linepipe Steels and Physical Simulation of Production Processes. Advanced High Strength Steel Conference, Feb 22-23, 2017, Jamshedpur, India.
(82) F. Siciliano: Physical simulation of hot rolling of C-Mn steels by different deformation methods. International Conference on Physical and Numerical Simulation of Materials Processing, Oct 14-17, 2016, Seattle, USA. — Plenary Keynote
(81) S.F. Rodrigues, C. Aranas Jr., F. Siciliano & J.J. Jonas: Dynamic Transformation and Retransformation during the Simulated Plate Rolling of an X-70 Steel. International Conference on Physical and Numerical Simulation of Materials Processing, Oct 14-17, 2016, Seattle, USA. — Plenary Keynote
(80) S.F. Rodrigues, C. Aranas Jr., F. Siciliano & J.J. Jonas: Dynamic Transformation during the Simulation of Plate Rolling in an X70 Steel. Steel Research International, vol. 87 (2016) p. 1-9. DOI: 10.1002/srin.201600388
(79) F. Siciliano, B. Allen & D. Ferguson: Hot torsion tests - a reliable rolling simulation method for C-Mn steels. Material Science Forum Vol. 879, pp. 1783-1787, 2017. Thermec'16, May/June 2016, Graz, Austria.
(78) F. Siciliano: Torsion simulation method applied to hot rolling of steels. SIMPRO 2016 - Thermomechanical Simulation and Processing of Steels Conference, RDCIS-SAIL, pp. 95-100, Feb 2016, Ranchi, India. — Keynote Paper, Opening Session
(77) F. Siciliano: Mathematical Model with Metallurgical Base. Caderno Técnico da Revista da ABM, São Paulo, Brazil, Sep/Oct 2015, Vol. 71, pp. 438-42.
(76) F. Siciliano: Mathematical Modeling of Hot Rolling: A Practical Tool to Improve Rolling Schedules and Steel Properties. 7th International Conference on Physical and Numerical Simulation of Materials Processing, Jun 2013, University of Oulu, Finland. Materials Science Forum vol. 762, pg 210-217, 2013. https://doi.org/10.4028/www.scientific.net/MSF.762.210 — Keynote Paper, Opening Session

TEXTBOOKS

A.F. Padilha & F. Siciliano: Work Hardening, Recrystallization, Grain Growth and Textures (3rd Edition). Brazilian Materials and Metals Association – ABM, São Paulo, Brazil, 232 pgs, 2005. ISBN 85-86778-80-X
A.F. Padilha & F. Siciliano: Work Hardening, Recrystallization, Grain Growth and Textures (2nd Edition). ABM, São Paulo, Brazil, 158 pgs, 1996.
A.F. Padilha & F. Siciliano: Work Hardening, Recrystallization, Grain Growth and Textures (1st Edition). ABM, São Paulo, Brazil, 123 pgs, 1995.

BOOK CHAPTERS

I.S. Bott, F. Siciliano, G.Z. Batista, J.M. Gray: Line Pipe Steels. In: ABCM Handbook of Pipeline Engineering. Springer, 2023. https://doi.org/10.1007/978-3-031-05735-9
C. Aranas Jr., S.F. Rodrigues, F. Siciliano and J.J. Jonas: In-Situ X-Ray Diffraction Measurement During Deformation of Austenite Above the Ae3 Temperature. The Minerals, Metals & Materials Series. Springer, 2020. DOI: 10.1007/978-3-030-36296-6_165
S.F. Rodrigues, C. Aranas Jr., F. Siciliano and J.J. Jonas: Dynamic Transformation and Retransformation During the Simulated Plate Rolling of an X70 Pipeline Steel. The Minerals, Metals & Materials Series. Springer, 2017. DOI: 10.1007/978-3-319-52132-9_25
F. Siciliano: High-Strength Linepipe Steels and Physical Simulation of Production Processes. In: Advanced High Strength Steel, Lecture Notes in Mechanical Engineering. Springer, Singapore, 2018. DOI: 10.1007/978-981-10-7892-7_8
F. Siciliano et al.: Line Pipe Steels chapter. In: Pipeline Engineering (1st & 2nd Editions). Ed. J.L.F. Freire. IBP/PUC-Rio, 2009. ISBN 978-85-85769-44-4

AS BOOKS AND PROCEEDINGS EDITOR

Handbook of Pipeline Engineering. Brazilian Society of Mechanical Sciences and Engineering. Eds. J.L.F. Freire, M.R.R. Gomes, M.G. Gomes. Springer, 2023. (Section Editor with Dr. J.M. Gray) https://doi.org/10.1007/978-3-031-05735-9
Niobium Science & Technology. TMS – The Minerals, Metals and Materials Society, 1162 pg, 2002. ISBN 0-9712068-0-5
International Symposium on Niobium Microalloyed Sheet for Automotive Applications. S. Hashimoto, F. Siciliano and others (Eds.). TMS, 594 pg, 2006. ISBN 978-0-87339-630-1
International Symposium on Microalloyed Steels for the Oil & Gas Industry. W. Fazackerley, P. Bordignon, K. Hulka & F. Siciliano (Eds.). TMS, 592 pg, 2006. ISBN 978-0-87339-656-1

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