Determination of the Active Medium Temperature in Media Based Press Hardening Processes

Drossel, Welf‐Guntram; Pierschel, Norbert; Paul, Alexander; Katzfuß, Klaus; Demuth, Rico

doi:10.1115/1.4025812

Cited by 12 publications

(6 citation statements)

References 8 publications

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“…3b. Welf-Guntram Drosse [27] designed an innovative measuring instrument to determine the gas temperature curve, and the result shows that the cold gas will cool the heated tube. In this paper, some steel filler was put inside the tube, which used to reduce the volume of the tube cavity and preheat the argon gas.…”

Section: High Pressure Tube Gas Formingmentioning

confidence: 99%

Effect of feeding length on deforming behavior of Ti-3Al-2.5 V tubular components prepared by tube gas forming at elevated temperature

Liu

Wang

et al. 2015

Int J Adv Manuf Technol

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In order to investigate the deforming behavior of the tubular components with a large expansion ratio fabricated by tube gas forming technique, the Ti-3Al-2.5 V tubular components with 50 % expansion ratio were studied under the forming conditions of internal pressure and axial feeding at 800°C. Through thickness measurements, EBSD and tensile tests, the effects of axial feeding on deforming behaviors, such as thickness distribution, microstructure, and mechanical properties of Ti-3Al-2.5 V tubular components, were investigated in details. The results showed that the average thinning ratio of the bulging area could be reduced significantly and the thickness distribution of the workpiece was more uniform with increasing of the feeding. Feeding length influenced the microstructure and strength of components. When the axial feeding ratio (actual feeding length/theoretical feeding length) was 56 %, the component had even higher tensile strength than the original tube because of the grain refinement. If the axial feeding was excessive large, the grain size became adversely coarser, which in turn reduced the tensile strength. These investigations illustrated that tube gas forming under high pressure had potential for fabricating complicated shaped titanium alloy tubular components by reasonably designing and controlling the deforming process.

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Section: High Pressure Tube Gas Formingmentioning

confidence: 99%

Effect of feeding length on deforming behavior of Ti-3Al-2.5 V tubular components prepared by tube gas forming at elevated temperature

Liu

Wang

et al. 2015

Int J Adv Manuf Technol

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“…This should not be neglected during the HPPF process in spite of gas' low thermal conductivity [14]. In our previous work about the HPPF process of Ti-3Al-2.5V alloy parts with square cross-sections [15], there was a preforming process during the closing of the die because of the mere 10 % circumferential expansion ratio.…”

Section: The Influence Of Gaseous Medium With High Pressure On Tube Tmentioning

confidence: 99%

“…Elsenheimer et al set up hot tube bulge test equipment with the maximum pressure of 35 MPa to obtain stress-strain curves at elevated temperatures [13]. Drossel developed a measuring instrument to determine the gas temperature curve during pneumatic forming processes and to analyse the influence of gaseous medium with high pressure on the cooling process of work pieces [14]. Liu et al presented a HPPF process based on QPF, HMGF and hydroforming [15].…”

Section: Introductionmentioning

confidence: 99%

“…The effects of pressure loading path and temperature on corner-filling behaviour were investigated further, and the corner-filling curves were fitted more accurately. The influence of the inflow process of gaseous media with high pressure on tube temperature was studied, which was inspired by the work of Drossel et al [14]. The corner-filling time and thickness profiles of the fully formed tubular components under different forming conditions were also discussed.…”

Section: Introductionmentioning

confidence: 99%

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Effects of flow stress behaviour, pressure loading path and temperature variation on high-pressure pneumatic forming of Ti-3Al-2.5V tubes

Liu

Wang

Dang

et al. 2015

Int J Adv Manuf Technol

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High-pressure pneumatic forming (HPPF) is an internal high-pressure forming process at elevated temperatures, which is based on quick plastic forming (QPF), hot metal gas forming (HMGF) and hydroforming. In this study, the HPPF experiments were performed on Ti-3Al-2.5V tubes using a square cross-sectional die at higher pressure levels and lower temperatures. The uniaxial tensile tests were carried out at various temperatures and strain rates before the HPPF experiments. The flow stress of Ti-3Al-2.5V tubes is evidently affected by both temperature and strain rate. Because of this, the corner radii all change linearly over time at the pressurization stage but exponentially over time at the constant pressure stage. The cooling effect of the inflow process on the tubes results in temperature differences between the centre of the straight wall areas and the corner areas of the tubes during the inflow process. Adopting the lower pressurization rate and filling regenerative materials into the tube are effective methods for decreasing or eliminating the temperature difference.

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“…The critical cooling rate for martensitic transformation is achieved by applying compressed air. One disadvantage of using gaseous medium is that it only contributes to the cooling process by 15 % compared to the total tooling, [8]. The final hardness of tubes formed by gas differs locally and depends mainly on the pressure rate, the maximum pressure value, and the tool temperature, [9].…”

Section: Introductionmentioning

confidence: 99%

Enhanced granular medium-based tube and hollow profile press hardening

et al. 2016

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Determination of the Active Medium Temperature in Media Based Press Hardening Processes

Cited by 12 publications

References 8 publications

Effect of feeding length on deforming behavior of Ti-3Al-2.5 V tubular components prepared by tube gas forming at elevated temperature

Effect of feeding length on deforming behavior of Ti-3Al-2.5 V tubular components prepared by tube gas forming at elevated temperature

Effects of flow stress behaviour, pressure loading path and temperature variation on high-pressure pneumatic forming of Ti-3Al-2.5V tubes

Enhanced granular medium-based tube and hollow profile press hardening

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