高强度不锈钢v形弯曲回弹分析

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Nana Rahdiana, Sukarman -, Khoirudin -, Amri Abdulah, A. D. Shieddieque
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引用次数: 0

摘要

本研究探讨了高强度sus304 (HS-SUS-304)高度公差材料的弯曲工艺评价及其在安全、保险箱和保险室保护系统中的应用。这种弯曲工艺是广泛应用于制造业的几种材料成形技术之一。此外,v型模冲孔半径、v型模弯曲角度、机床参数角度等参数选择不当,往往会导致材料失效和最终尺寸错误。选择v型弯曲工艺进行评价是因为它具有显著的回弹效应,具有广泛的工业应用。实验方法采用符合ASTM a -240要求的厚度为3.0 mm的HS-SUS 304,选择v型模角度和尖端冲头半径的输入参数,以实现工件的90°±0.5°和50°±0.5°。v型模角选择为89o,尖端冲孔半径分别为1.0 mm和1.2 mm。对回弹效果进行了分析和评价,以满足标准角度要求,结果表明,需要调整弯曲机上的设置,以使角度在度的公差范围内。观察到,当机床上的工艺弯曲角度分别为93.75°和52.83°,v型模具尖端冲孔半径为1.0 mm时,回弹系数的平均值分别为0.9609、0.9618和0.9600。使用1.2 mm时,该平均值分别增加到0.9634、0.9641和0.9655。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SPRING-BACK ANALYSIS OF THE VEE BENDING PROCESS FOR HIGH-STRENGTH STAINLESS STEEL
This study discussed the evaluation of bending process using high-strength SUS 304 (HS-SUS-304) material of high degree tolerances, and its application in a safe, strongbox, and strongroom protection system. This bending process is one of the several material-forming techniques widely used in the manufacturing industry. Moreover, incorrectly selected parameters such as the V-die punch radius, the angle of V-die bending, and the angle of machine parameters often leads to material failure and wrong final dimensions. The V-bending process was chosen for evaluation because it exhibits significant spring-back effect and has a wide range of industrial applications. The experimental method utilized HS-SUS 304 with a thickness of 3.0 mm that meets the ASTM A-240 requirement, and the input parameters used for V-die angle as well as tip punch radius were chosen in order to achieve the 90o ± 0.5o, and 50o ± 0.5o degrees of the workpieces. The V-die angle of 89o was selected with a tip punch radius of 1.0 mm and 1.2 mm. Furthermore, the spring-back effect was analyzed and evaluated to meet the standard angle requirement, and the results showed that the settings on the bending machine need to be adjusted to achieve angles within tolerances of degrees. It was observed that when the process bend angles on the machine was set at 93.75o and 52.83o with 1.0 mm V-dies tip punch radius, the spring-back factor results produce an average of 0.9609, 0.9618, and 0.9600. Meanwhile, this average increased to 0.9634, 0.9641, and 0.9655, by using 1.2 mm.
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来源期刊
Jurnal Teknologi-Sciences & Engineering
Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
0.00%
发文量
96
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