Cleanness and Mechanical Properties of Steel after Remelting under Different Slags by ESR

Pribulová, Alena; Futáš, Peter; Bartošová, Marianna

doi:10.4028/www.scientific.net/kem.635.112

Cited by 2 publications

(2 citation statements)

References 1 publication

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“…Defined as a hot work tool steel, it undergoes an electro-slag remelting (ESR) process, thus enabling the production of high-quality ingots. This is achieved by eradicating all traces of micro and macro segregations, ensuring a homogenous chemical composition and the materials isotropy regarding its mechanical properties, as well as achieving a high level of purity through improved distribution of inclusions [45][46]. This H13 ESR hot work tool steel features an increase in wear resistance under elevated working temperature, thermal conductivity, hardness, toughness, and tensile strength [47].…”

Section: Methodsmentioning

confidence: 99%

Case-based product development of a high-pressure die casting injection subset using design science research

Tojal¹,

Silva²,

Campilho³

et al. 2022

FME Transactions

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High pressure die casting is widely used in metalworking industry. Many of the components and devices directly linked to the hot parts are subjected to severe wear. However, some design updates can enlarge the lifespan of these components and devices. This paper proposes to show how a sustainable maintenance can be obtained by focusing resources on the analysis of the critical problem and its consequent mitigation, whereas they are originated on the human, machine/process or supplier level. Design science research (DSR) was the iterative research methodology chosen to integrate this work. The completion of the objective with the implementation of this new injection subset concept brought extremely beneficial results, such as reduction of its consumption, reduction of acquisition cost and waste generated, and reduction of the intervention time during maintenance operations, as well as increase in equipment availability time.

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Section: Methodsmentioning

confidence: 99%

Case-based product development of a high-pressure die casting injection subset using design science research

Tojal¹,

Silva²,

Campilho³

et al. 2022

FME Transactions

View full text Add to dashboard Cite

show abstract

“…This branch of research deals with new and modern techniques for decreasing the size and volume fraction of NMIs in order to improve the properties of steel. The electro-slag remelting process is one of the modern and conventional techniques for improving steel cleanliness [17]. In previous studies, the effect of the electro-slag remelting process on microstructure, inclusion content and mechanical properties of bearing steel G20CrNi2Mo [18], H11 tool steel [19], 316 LC stainless steel [20] and STN 14 109 steel [21] were investigated.…”

Section: Introductionmentioning

confidence: 99%

The effect of non-metallic inclusion size and orientation on tensile properties of stainless steel (simulation and experiment)

Ahmadian

Taghizadeh

2020

Metall Mater Eng

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In this study, the effect of non-metallic inclusions (NMIs) on tensile behavior of titanium stabilized Fe-20Cr-9Ni steel was investigated. The size of NMIs was decreased via the electro-slag remelting (ESR) process. JK-inclusion rating method revealed that the studied steel consisted of D-type (square-shaped) inclusions. According to energy dispersive spectroscopy, it was determined that the appeared inclusions in the matrix of the titanium stabilized Fe-20Cr-9Ni steel is predominantly titanium nitride (TiN). As a result of the ESR process, excellent improvement in the tensile properties of the studied steel was observed. Subsequently, the effect of inclusion size (d = 5, 10, 25, 50 µm) and orientation (α = 0, 45°) on stress concentration factor around the non-metallic inclusion and metallic matrix was simulated. The result of finite element analysis indicated that, for both square (α = 0 °) and rhombus (α = 45°) shape inclusions, increasing inclusion size has resulted in high-stress concentration factor during plastic deformation. On the other hands, generated Mises stress field around the non-metallic inclusion presented that, for the same inclusion size, rhombus (α = 45°) shape inclusion is more susceptible to homogenous deformation in comparison with square (α = 0°) one.

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Cleanness and Mechanical Properties of Steel after Remelting under Different Slags by ESR

Cited by 2 publications

References 1 publication

Case-based product development of a high-pressure die casting injection subset using design science research

Case-based product development of a high-pressure die casting injection subset using design science research

The effect of non-metallic inclusion size and orientation on tensile properties of stainless steel (simulation and experiment)

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