The effect of temperature on drawability of circular and square sheet metal drawing / Muhammad Basril Muhammad Asri
Sheet metal drawing is a well-known process used in today's industries, and the most significant challenge encountered throughout this process is product quality. In sheet metal drawing, product quality is vital and based on current research trends, varying the process temperature improve...
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| Format: | Thesis |
| Published: |
2022
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| Online Access: | http://studentsrepo.um.edu.my/14860/1/Muhammad_Basril.jpg http://studentsrepo.um.edu.my/14860/8/Basril.pdf http://studentsrepo.um.edu.my/14860/ |
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| Summary: | Sheet metal drawing is a well-known process used in today's industries, and the most
significant challenge encountered throughout this process is product quality. In sheet
metal drawing, product quality is vital and based on current research trends, varying the
process temperature improves the quality.
This study focuses on the influence of tooling temperature on the drawability of sheet
metal drawn circular and square cups with various blank sizes. Following that, an
evaluation of the impact of different process parameters on the warm sheet metal drawing
was carried out. Consequently, the drawability of circular and square cups will be
analysed by comparing experimental and finite element analysis (FEA) data.
The Taguchi method L9 (34
) array experiment design was used to plan the process
parameters and the experimental design in this study. The experimental procedures were
prepared with the experimental apparatus's consideration. The experimental setup
apparatus for circular and square cups, which includes a die set, heater, thermocouple,
hydraulic pump and cylinder, is then put through a series of tests. Firstly, circular cups of
aluminium 6065 (AL6065), mild steel (MS), and stainless steel 304 (SS304) were drawn
from the blank with diameters of 60 mm, 65 mm, and 70 mm. Next, the same material
was drawn for square cups with a blank diameter of 45 mm, 50 mm, and 55 mm. Both
cup shape is tested at room temperature, then at temperatures of 100°C, 150°C, and
200°C.
The response factors consist of limiting drawing ratio (LDR), average cup height and
thickness distribution were collected from room and warm temperatures. First, these
outputs were analysed using the analysis of variance (ANOVA) to determine their effect
on warm sheet metal drawing. Then, the sheet metal drawing process is simulated using
ABAQUS/CAE software to predict the drawn cup thickness distribution. Eventually, the simulated data will be compared with the experiment for verification. From the ANOVA analysis, the blank material had the most significant impact on the
drawability of warm sheet metal drawn circular cups, followed by the blank size, heating
technique, and heating temperature. The optimal parameter was 65 mm of the AL6065
blank with a heating temperature of 150°C applied to the punch. On the other hand, the
drawability of warm sheet metal drawn square cups was substantially impacted by the
blank size, followed by the material, heating technique, and heating temperature. The
optimal parameter was 45 mm of the AL6065 blank with a heating temperature of 150°C
applied to the punch.
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