Comparison of high strength steels with different aluminium and manganese contents using dilatometry

Hajšman, Jan; Kučerová, Ludmila; Burdová, Karolína

doi:10.21062/mft.2020.060

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…The parameters and material characteristics measured during this type of loading can be further used as important input to numerical simulations, which through the aforementioned computational models will provide a more detailed and accurate description of the entire sheet metal stamping process. The following chapters focus on the description and evaluation of this type of mechanical material testing [1][2][3][4][5][6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Dual-phase Steel DP500 Stress-strain Characteristics During the Plane Shear Test

Koreček¹,

Solfronk²,

Sobotka³

2022

Manufacturing Technology

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Nowadays, the tendency to survey and accelerate technological processes in order to increase production efficiency on the one hand and to reduce the ecological impact of production on the environment on the other hand is increasingly prevailing. These aspects encourage both the applilcation of mathematical modelling of production processes and utilization of new material types ensuring sufficient strength and ductility while reducing the overall weight of the final asembly. This paper focuses on investigation and evaluation of the mechanical properties of the material under plane shear stress conditions. Specifically, it concerns the testing of a dual-phase high-strength steel DP500 (designation according to EN 10346) having structure based on a ferritic-martensitic matrix. The test material is loaded by means of a testing machine with a continuous static load and condition of the plane shear stress is achieved due to the geometry of the test specimen (ASTM B831). In the experimental part of this paper, plane shear tests are performed to determine the basic mechanical properties and stress-strain characteristics of the material with respect to the given loading conditions. These determined parameters and material characteristics can be further used as important input data to improve results of the numerical simulations regarding the aspect of metal forming technologiesbasically stamping process.

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Section: Introductionmentioning

confidence: 99%

Analysis of the Dual-phase Steel DP500 Stress-strain Characteristics During the Plane Shear Test

Koreček¹,

Solfronk²,

Sobotka³

2022

Manufacturing Technology

View full text Add to dashboard Cite

show abstract

Utilization of Metal Forming Process Mathematical Modelling to Predict the Spring-back of the Dual-phase Steel Stamping

Koreček,

Solfronk,

Sobotka

2023

Manufacturing Technology

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Nowadays, the digitalization of the production process is an indispensable part of the stampings production in the pre-series stage, but also as a subsequent support for series production. Automotive producers are under pressure to comply with the ever decreasing CO2 production standards for cars, which predicates the use of modern material types with an advantageous weight-to-strength ratio. This paper focuses on the use of mathematical modelling in a numerical simulation environment to predict the deformation process and subsequent material spring-back of dual-phase steel DP500. The material data and characteristics are used to define the material computational model in numerical simulation. The results of the numerical simulations are then compared with the stamping obtained by a real pressing process, where their shape comparison and further evaluation of the used material models and selected parameters are performed.

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Comparison of high strength steels with different aluminium and manganese contents using dilatometry

Cited by 2 publications

References 14 publications

Analysis of the Dual-phase Steel DP500 Stress-strain Characteristics During the Plane Shear Test

Analysis of the Dual-phase Steel DP500 Stress-strain Characteristics During the Plane Shear Test

Utilization of Metal Forming Process Mathematical Modelling to Predict the Spring-back of the Dual-phase Steel Stamping

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