Deep-drawing and ironing of 1050 aluminum sheets loaded with vibration using NC servo press machine

Production of light weight and crash resistant vehicles require extensive use of AHSS (DP,TRIP,TWIP) and Al alloys to form complex shapes. This paper discusses practical determination of material properties and selection of lubricants for forming AHSS using a die set, designed for deep drawing. Tests were conducted in a 300 ton servo press. Thinning at the critical area of the formed part were measured and compared with FE simulation. Prediction of temperatures in deep drawing of selected DP steels and Al alloys in servo press is also discussed.

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FEM Simulation of Deep Drawing of Textured Aluminum Sheets Using Anisotropic Fourth-Order Strain-Rate Potential

Materials Transactions JIM ◽

10.2320/matertrans1989.39.469 ◽

1998 ◽

Vol 39 (4) ◽

pp. 469-477 ◽

Cited By ~ 4

Author(s):

Jianguo Hu ◽

Takashi Ishikawa ◽

J. J. Jonas ◽

Keisuke Ikeda

Keyword(s):

Strain Rate ◽

Fourth Order ◽

Deep Drawing ◽

Fem Simulation ◽

Aluminum Sheets

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Prediction of Earing of Cross-Rolled Al Sheets from {h00} Pole Figures

Metals ◽

10.3390/met10020192 ◽

2020 ◽

Vol 10 (2) ◽

pp. 192

Author(s):

Marton Benke ◽

Bence Schweitzer ◽

Adrienn Hlavacs ◽

Valeria Mertinger

Keyword(s):

Deep Drawing ◽

Plastic Anisotropy ◽

Rolling Texture ◽

X Ray Diffraction ◽

Cross Rolling ◽

X Ray ◽

Aluminum Sheets ◽

Pole Figures ◽

Cold Rolling Texture ◽

First Time

The plastic anisotropy of rolled Al sheets is the result of a crystallographic texture. It leads to the formation of uneven cup heights during deep-drawing, which is called earing. A new, simple and rapid method had been previously developed by the authors to predict earing directly from {h00} pole figures. In the present manuscript, this method is applied to cross-rolling for the first time. 5056 type aluminum sheets were unidirectionally- (conventionally) and cross-rolled from 4 to ~1 mm thickness in 6 or 12 passes. Earing was predicted from recalculated {200} pole figures obtained after X-ray diffraction texture measurements. The results were validated by deep-drawing tests. It is shown that the proposed method predicts the type (locations of ears) and magnitude of earing with satisfactory results. However, a different scaling factor must be used to calculate the magnitude of earing for cross-rolling than for unidirectional rolling even if all other parameters (including cold rolling, texture measurements, and deep-drawing) are the same. This is because the cross-rolled sheets exhibit a similar type but weaker earing compared to the unidirectionally rolled samples.

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Forming of Al 5182-O in a Servo Press at Room and Elevated Temperatures

Journal of Manufacturing Science and Engineering ◽

10.1115/1.4030334 ◽

2015 ◽

Vol 137 (5) ◽

Cited By ~ 9

Author(s):

Long Ju ◽

Shrinivas Patil ◽

Jim Dykeman ◽

Taylan Altan

Keyword(s):

Finite Element ◽

Deep Drawing ◽

Elevated Temperatures ◽

Cost Effective ◽

Element Model ◽

Material Behavior ◽

Bulge Test ◽

Element Analysis ◽

Automotive Manufacturing ◽

Servo Press

Aluminum alloys are increasingly used in automotive manufacturing to save weight. The drawability of Al 5182-O has been proven at room temperature (RT) and it is also shown that formability is further enhanced at elevated temperatures (ETs) in the range of 250–350 °C. A cost effective application of ET forming of Al alloys can be achieved using heated blank and cold dies (HB–CD). In this study, the material behavior of Al 5182-O is characterized using tensile test and viscous bulge test at RT. The nonisothermal finite element model (FEM) of deep drawing is developed using the commercial software pamstamp. Initially, deep drawing simulations and tests were carried out at RT using a 300 ton servo press, with a hydraulic cushion. The predictions with flow stress curves obtained from tensile and bulge tests were compared with experimental data. The effect of punch speed and temperature rise during forming at RT is investigated. The warm forming simulations were carried out by combining material data at ETs obtained from the literature. The coupled effects of sheet temperatures and punch speeds are investigated through the finite element analysis (FEA) to provide guidelines for ET stamping of Al 5182-O.

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Modelling and analysis of deep drawing with utilisation of vibrations and servo press using response surface methodology

Materials Research Innovations ◽

10.1179/1432891714z.000000000555 ◽

2014 ◽

Vol 18 (sup2) ◽

pp. S2-936-S2-939 ◽

Cited By ~ 3

Author(s):

T-H. Chu ◽

K-H. Fuh ◽

W-C. Yeh

Keyword(s):

Response Surface Methodology ◽

Response Surface ◽

Deep Drawing ◽

Servo Press

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Evaluation of Press Formability Using Servo Die Cushion in Deep Drawing

Materials Science Forum ◽

10.4028/www.scientific.net/msf.654-656.322 ◽

2010 ◽

Vol 654-656 ◽

pp. 322-325

Author(s):

Akihiro Watanabe ◽

Yuji Kotani ◽

Hisaki Watari ◽

Takehiro Shimizu

Keyword(s):

Working Conditions ◽

Deep Drawing ◽

Manufacturing Process ◽

Maximum Load ◽

Drawing Process ◽

Deep Drawing Process ◽

Servo Press ◽

Blank Holding Force ◽

Conventional Press ◽

Press Formability

Manufacturing process using servo press machines have been highlighted in car manufacturers and other industries in Japan. It is necessary to establish an appropriate press working conditions for manufacturing highly accurate products with great extra value. Our aim is to investigate into effects of variable BHF (blank holding force) on press formability, comparing to using a conventional press machine. In this study, FEM analyses of deep drawing process using a variable BHF system has been conducted to demonstrate the effectiveness of a servo die cushion on formability. According to experimental results obtained with a servo die cushion, it is found that maximum load subjected to dies was reduced by 11.8 %, when using a servo press with a servo die cushion comparing to a conventional press.

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