Drawing of Hexagonal Shapes from Cylindrical Cups
The main aim of this work is design and manufacturing cylindrical and hexagonal dies to produce hexagonal cups from transform the cylindrical cups to hexagonal cups and affect of wall corner radii of die. As well as using some parameters which effect of on the hexagonal deep drawing process, especia...
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Format: | Article |
Language: | English |
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Unviversity of Technology- Iraq
2016-06-01
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Series: | Engineering and Technology Journal |
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Online Access: | https://etj.uotechnology.edu.iq/article_113141_021a4861dc2c868f71bc2f3d74b8a02e.pdf |
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author | Waleed Khalid Jawed Sabih Salman Dawood |
author_facet | Waleed Khalid Jawed Sabih Salman Dawood |
author_sort | Waleed Khalid Jawed |
collection | DOAJ |
description | The main aim of this work is design and manufacturing cylindrical and hexagonal dies to produce hexagonal cups from transform the cylindrical cups to hexagonal cups and affect of wall corner radii of die. As well as using some parameters which effect of on the hexagonal deep drawing process, especially on the punch force, strain distribution and variation of the cup wall thickness for three stages such as (wall corner radius of die and punch speed). 3-D models of cylindrical cups of (43 mm) outer diameter, and diagonal and side distance of hexagonal cups are (41and36mm) respectively, (0.7mm) thickness made from low carbon steel (1006–AISI), has been produced. A commercially available finite element program code (ANSYS11.0), was used to perform the numerical simulation of deep drawing operation. Two types of wall corner radii of die ( =0.7, 4 mm) with constant punch profile radius equal to ( =4) mm and die profile radius equal to ( =8 mm), various drawing speeds equal to (50, 200, and 500 mm/min (were used. From the numerical and experimental results of drawing operation, it, the maximum thinning occurs at cup corner radius when used wall corner radius of die equal to ( = 0.7mm). The best strain and thickness distribution over all zones in produced cup obtained when using wall corner radius of die is equal to = 4 mm) and High drawing speed (v=500 mm/min) leads to increase drawing force and more thinning in cup corner. |
first_indexed | 2024-03-08T06:15:13Z |
format | Article |
id | doaj.art-156757d4cfcd48018aa9c60b16c709cd |
institution | Directory Open Access Journal |
issn | 1681-6900 2412-0758 |
language | English |
last_indexed | 2024-03-08T06:15:13Z |
publishDate | 2016-06-01 |
publisher | Unviversity of Technology- Iraq |
record_format | Article |
series | Engineering and Technology Journal |
spelling | doaj.art-156757d4cfcd48018aa9c60b16c709cd2024-02-04T17:27:42ZengUnviversity of Technology- IraqEngineering and Technology Journal1681-69002412-07582016-06-01346A12351246https://doi.org/10.30684/etj.34.6A.17113141Drawing of Hexagonal Shapes from Cylindrical CupsWaleed Khalid JawedSabih Salman DawoodThe main aim of this work is design and manufacturing cylindrical and hexagonal dies to produce hexagonal cups from transform the cylindrical cups to hexagonal cups and affect of wall corner radii of die. As well as using some parameters which effect of on the hexagonal deep drawing process, especially on the punch force, strain distribution and variation of the cup wall thickness for three stages such as (wall corner radius of die and punch speed). 3-D models of cylindrical cups of (43 mm) outer diameter, and diagonal and side distance of hexagonal cups are (41and36mm) respectively, (0.7mm) thickness made from low carbon steel (1006–AISI), has been produced. A commercially available finite element program code (ANSYS11.0), was used to perform the numerical simulation of deep drawing operation. Two types of wall corner radii of die ( =0.7, 4 mm) with constant punch profile radius equal to ( =4) mm and die profile radius equal to ( =8 mm), various drawing speeds equal to (50, 200, and 500 mm/min (were used. From the numerical and experimental results of drawing operation, it, the maximum thinning occurs at cup corner radius when used wall corner radius of die equal to ( = 0.7mm). The best strain and thickness distribution over all zones in produced cup obtained when using wall corner radius of die is equal to = 4 mm) and High drawing speed (v=500 mm/min) leads to increase drawing force and more thinning in cup corner.https://etj.uotechnology.edu.iq/article_113141_021a4861dc2c868f71bc2f3d74b8a02e.pdfdeep drawing hexagonal cupstrain distributionwall corner radius of die |
spellingShingle | Waleed Khalid Jawed Sabih Salman Dawood Drawing of Hexagonal Shapes from Cylindrical Cups Engineering and Technology Journal deep drawing hexagonal cup strain distribution wall corner radius of die |
title | Drawing of Hexagonal Shapes from Cylindrical Cups |
title_full | Drawing of Hexagonal Shapes from Cylindrical Cups |
title_fullStr | Drawing of Hexagonal Shapes from Cylindrical Cups |
title_full_unstemmed | Drawing of Hexagonal Shapes from Cylindrical Cups |
title_short | Drawing of Hexagonal Shapes from Cylindrical Cups |
title_sort | drawing of hexagonal shapes from cylindrical cups |
topic | deep drawing hexagonal cup strain distribution wall corner radius of die |
url | https://etj.uotechnology.edu.iq/article_113141_021a4861dc2c868f71bc2f3d74b8a02e.pdf |
work_keys_str_mv | AT waleedkhalidjawed drawingofhexagonalshapesfromcylindricalcups AT sabihsalmandawood drawingofhexagonalshapesfromcylindricalcups |