Inconel 718 Microstructural Evolution Modeling During Sequential Forming Steps (Hot Forging Followed by Ring Rolling)

Microalloyed steels are used in the forging of many automotive parts like crankshafts and connecting rods. They are hot worked in a sequence of stages that includes the heating to the soaking temperature, followed by forging steps, and finally the controlled cooling to define the microstructure and mechanical properties. In this work it was investigated the thermomechanical behavior and the microstructural evolution of a Ti-V microalloyed steel in the phase transition region. Torsion tests were done with multiple steps with true strain equal to 0.26 in each step. After each torsion step the samples were continuous cooled for 15 seconds to simulate hot forging conditions. These tests provided results for the temperature at the beginning of the phase transformation, and allowed to analyze the microstructural changes. Also, workability tests were held to analyze the microstructural evolution by optical and scanning electron microscopy. Results from the torsion tests showed that the temperature for the beginning of phase transformation is about 700 ºC. Workability tests held at 700 ºC followed by water-cooling presented microstructures with different regions: strain hardened, and static and dynamic recrystallized. Workability tests at 700 ºC followed by air-cooling showed a complex microstructure with ferrite, bainite and martensite, while tests at 650 and 600 ºC followed by water-cooling showed a microstructure with allotriomorphic ferrite present in the grain boundaries of the previous austenite.

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Powder bed binder jet 3D printing of Inconel 718: Densification, microstructural evolution and challenges☆

Current Opinion in Solid State and Materials Science ◽

10.1016/j.cossms.2016.12.002 ◽

2017 ◽

Vol 21 (4) ◽

pp. 207-218 ◽

Cited By ~ 72

Author(s):

Peeyush Nandwana ◽

Amy M. Elliott ◽

Derek Siddel ◽

Abbey Merriman ◽

William H. Peter ◽

...

Keyword(s):

3D Printing ◽

Microstructural Evolution ◽

Inconel 718 ◽

Powder Bed

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Effect of heat-treatment on microstructural evolution and mechanical behaviour of severely deformed Inconel 718

Materials Science and Engineering A ◽

10.1016/j.msea.2018.01.007 ◽

2018 ◽

Vol 715 ◽

pp. 295-306 ◽

Cited By ~ 10

Author(s):

Prabhat Chand Yadav ◽

Sandeep Sahu ◽

Anandh Subramaniam ◽

Shashank Shekhar

Keyword(s):

Heat Treatment ◽

Microstructural Evolution ◽

Mechanical Behaviour ◽

Inconel 718

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Microstructural Evolution of Two Medium Carbon Microalloyed Steels during Hot Forging Process

Materials Science Forum ◽

10.4028/www.scientific.net/msf.500-501.155 ◽

2005 ◽

Vol 500-501 ◽

pp. 155-162 ◽

Cited By ~ 1

Author(s):

A. Al Omar ◽

A. Chenaoui ◽

Rachid Dkiouak ◽

Jose María Cabrera ◽

Jose Manuel Prado

Keyword(s):

Microstructural Evolution ◽

Hot Forging ◽

Microalloyed Steels ◽

Hollomon Parameter ◽

Medium Carbon ◽

Grain Sizes ◽

Recrystallized Grain Size ◽

Carbon Microalloyed ◽

Hot Forging Process ◽

Cyclic Dynamic

The main aim of the present investigation was to study the flow behaviour of two medium carbon microalloyed steels under hot forming conditions, and to analyse its microstructural evolution. The dependence of recrystallized grain size (Drec) on the Zener-Hollomon parameter Z shows a bimodal behaviour with transition from single to cyclic dynamic recrystallization. Also we observed that the variation of Drec normalized by Burgers vector (b) with sss normalized by shear modulus ( µ) shows the same bimodal behaviour cited above. The Derby’s universal equation cited in literature for recrystallized grain sizes was not followed; it seems that the presence of fine precipitated particles has a clear effect on this disagreement.

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Microstructural evolution and mechanical performances of selective laser melting Inconel 718 from low to high laser power

Journal of Alloys and Compounds ◽

10.1016/j.jallcom.2020.154473 ◽

2020 ◽

Vol 828 ◽

pp. 154473 ◽

Cited By ~ 2

Author(s):

Huihui Yang ◽

Liang Meng ◽

Shuncun Luo ◽

Zemin Wang

Keyword(s):

Selective Laser Melting ◽

Microstructural Evolution ◽

Inconel 718 ◽

Laser Power ◽

Laser Melting ◽

High Laser Power ◽

High Laser ◽

Mechanical Performances

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Influence of Plastic Deformation on Microstructural Evolution of 100Cr6 Bearing Ring in Hot Ring Rolling

Materials ◽

10.3390/ma13194355 ◽

2020 ◽

Vol 13 (19) ◽

pp. 4355

Author(s):

Guanghua Zhou ◽

Wenting Wei ◽

Qinglong Liu

Keyword(s):

Plastic Deformation ◽

Grain Size ◽

Microstructural Evolution ◽

Vickers Hardness ◽

Microstructural Characterization ◽

Lamellar Spacing ◽

Rolling Process ◽

Rolling Reduction ◽

Ring Rolling ◽

Bearing Rings

The hot ring rolling technology as the crucial procedure for the manufacture of bearing rings plays an important role in determining the final microstructure of bearing rings. In this work, the influence of the hot ring rolling process on the microstructural evolution of 100Cr6 bearing rings was investigated using a three-dimensional (3D) numerical model and microstructural characterization. It was found that the significant microstructural refinement occurs at the different regions of the rings. However, owing to the non-uniform plastic deformation of hot rolling, the refinement rate of grain size and decrease of pearlite lamellar spacing (PLS) also showed uniformity at different regions of the rings. Furthermore, the degree of grain refinement had been limited with the increase of rolling reduction. Due to the refined grain size and decreased PLS, the Vickers hardness increased with the increase of rolling reduction. Moreover, the Vickers hardness from the outer surface to the inner surface of the ring is asymmetrical u-shaped, which had the law of lower hardness in the center area and higher hardness on the surface.

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Microstructural evolution and microhardness response of H11 hot forging dies

World Journal of Engineering ◽

10.1108/wje-09-2018-0334 ◽

2019 ◽

Vol 16 (5) ◽

pp. 573-581 ◽

Cited By ~ 2

Author(s):

Sam Joshy ◽

Jayadevan K.R. ◽

Ramesh A. ◽

Mahipal D.

Keyword(s):

Plastic Deformation ◽

Service Life ◽

Microstructural Evolution ◽

Hot Forging ◽

Cyclic Softening ◽

Content Type ◽

Industrial Environment ◽

Die Surface ◽

Spherical Structures ◽

Practical Implications

Purpose The prime task of research in hot forging industry is to improve the service life of forging dies. The in-service microstructural changes that may occur in a die during hot forging is expected to significantly affect the service life. The purpose of this work is to analyse the microstructural evolution of double tempered hot forging dies in a real industrial environment, and the correlation of microstructural and microhardness evolution to the in-service wear and plastic deformation. Design/methodology/approach Specific hot forging tests were carried out on double tempered AISI H11 chromium tool steel for 100, 500 and 1,000 forging strokes. Macro analysis was conducted on die cross section to analyse the wear and plastic deformation at different stages of forging cycles. Microhardness and microstructural analyses were performed on the die surface after these forging tests. Findings The macro analysis on the transverse section of dies shows that wear is predominant during initial forging strokes, whereas plastic deformation is observed in later stages. Microstructural analyses demonstrate that during first 500 forging cycles, carbide population decreases at 63 per cent higher rate as compared to corresponding drop during 501 to 1,000 forging cycles. Additionally, the carbide size increases at all stages of forging cycle. Further, microstructural images from dies after 1,000 forging strokes show clustering and spherodisation of carbides by which the “blocky”-shaped carbides in pre-forging samples had spherodised to form “elongated spherical” structures. Practical implications The findings of this work can be used in hot forging industries to predict amount of wear and plastic deformation at different stages of service. From the results of this work, the service life of double tempered H11 hot forging dies used in forging without lubrication is within 501 to 1,000 forgings. Originality/value Most of the literatures are focussed on the cyclic softening of material at constant temperature. This work analyses the microstructural evolution of double tempered hot forging dies in a real industrial environment and correlates the microstructural and microhardness evolution to the in-service wear and plastic deformation.

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