Experimental Study of Hydroformed Al6061T4 Elliptical Tube Samples under Different Internal Pressures

IF 0.4 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC EMITTER-International Journal of Engineering Technology Pub Date : 2022-12-28 DOI:10.24003/emitter.v10i2.699
Md. Meraz, Santosh Kumar, Ravi Prakash Singh
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Abstract

In order to achieve crack free elliptical shape under controlled conditions, an experimental set-up was designed and fabricated. This setup consists of three hydraulic cylinders, an intensifier, a hydraulic power pack, storage tanks, forming die, and all parts are controlled by a Programmable Logic Controller (PLC) system. The elliptical samples can be achieved through proper control of internal pressure and axial force with proper sealing. Experimental work has been carried out with different magnitudes of internal pressure and constrained conditions of axial force. Initially die of elliptical shape has been designed and modeled in Abaqus to successfully achieve the particular shape of the Al6061T4 tube under different internal pressure. The fabricated tube hydroforming machine set-up is highly effective for forming 0.5 mm-2 mm thick Al6061T4 alloy tube samples. The Experimental test has been carried out at 12.7 mm outer diameter, 175 mm length and 0.5 mm thick Al6061T4 samples. Bulge height parameters measured at different points of regular distance gap on the axial direction of the tube length and corner radius found at different pressures range of the samples are plotted under different internal pressures. Samples having an 18.7 mm major elliptical bulge were achieved during the experiment. The experimental data was validated by simulation results.
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不同内压下液压成形Al6061T4椭圆管试样的实验研究
为了在可控条件下获得无裂纹椭圆形状,设计并制作了实验装置。该装置由三个液压缸,一个增强器,一个液压动力组,储罐,成型模具组成,所有部件由可编程逻辑控制器(PLC)系统控制。通过合理控制内压和轴向力,并配合适当的密封,可以使试样呈椭圆形。在不同的内压大小和轴向力约束条件下进行了实验研究。在Abaqus中初步设计并建模了椭圆型模具,成功地实现了不同内压下Al6061T4管的特定形状。该装置对0.5 mm- 2mm厚Al6061T4合金管材样品的成形效果良好。实验测试在外径12.7 mm、长度175 mm、厚度0.5 mm的Al6061T4试样上进行。绘制了不同内压条件下,在不同压力范围内测得的管材轴向规整距离间隙不同点处的凸起高度参数和转角半径。在实验中获得了具有18.7 mm大椭圆凸起的样品。仿真结果验证了实验数据的正确性。
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来源期刊
EMITTER-International Journal of Engineering Technology
EMITTER-International Journal of Engineering Technology ENGINEERING, ELECTRICAL & ELECTRONIC-
自引率
0.00%
发文量
7
审稿时长
12 weeks
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