The effect of suction pressure of vacuum clamp on the aluminum plate surface following the cutting process using mini PC-based CNC milling

Karnova Yanel, Herianto, R. Sriwijaya
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Abstract

The study aimed to observe the function of vacuum clamp as gripping equipment for the cutting process of the aluminum plate using PC-based CNC milling equipment as well as to find out an optimum suction pressure of the vacuum clamp and the effect on the surface roughness of the aluminum plate after the cutting process. The cutting process of the aluminum plates utilized a PC-based CNC milling equipment with a vacuum clamp as its gripping equipment in the form of a cutter-end mill HSS with a 3 mm diameter and 1.7 mm aluminum plate (Al 1100) thickness as workpieces. The sealing of the gripping equipment utilized a rubber mat in a 1.7 mm thickness. The milling process was set up at 2,650 rpm of the spindle rotation speed, 32 mm/minute feeding speed, 0.2 mm depth of cut, and 0.007 mm/tooth feed rate. The surface roughness of the outcome was measured using a Profilometer. The suction pressure of the vacuum pump was controlled by the valve and control tube, thus could maintain a stable suction pressure during the machinery process. The suction pressure varied from -18 inHg, -20 inHg, -22 inHg, and -24 inHg. The findings indicated that the cutting process of the aluminum plate using vacuum clamp as gripping equipment at -24 inHg of suction pressure was able to produce surface roughness (Ra) according to the standard of limit as determined in Part 2 of DIN.The study aimed to observe the function of vacuum clamp as gripping equipment for the cutting process of the aluminum plate using PC-based CNC milling equipment as well as to find out an optimum suction pressure of the vacuum clamp and the effect on the surface roughness of the aluminum plate after the cutting process. The cutting process of the aluminum plates utilized a PC-based CNC milling equipment with a vacuum clamp as its gripping equipment in the form of a cutter-end mill HSS with a 3 mm diameter and 1.7 mm aluminum plate (Al 1100) thickness as workpieces. The sealing of the gripping equipment utilized a rubber mat in a 1.7 mm thickness. The milling process was set up at 2,650 rpm of the spindle rotation speed, 32 mm/minute feeding speed, 0.2 mm depth of cut, and 0.007 mm/tooth feed rate. The surface roughness of the outcome was measured using a Profilometer. The suction pressure of the vacuum pump was controlled by the valve and control tube, thus could maintain a stable suction pressure during t...
基于微型pc的数控铣削加工过程中,真空夹紧器吸压对铝板表面的影响
本研究旨在利用基于pc的数控铣削设备,观察真空夹具作为夹持设备在铝板切割过程中的作用,并找出真空夹具的最佳吸力压力以及切割过程后对铝板表面粗糙度的影响。铝板的切割过程采用基于pc机的数控铣削设备,以真空夹作为夹持设备,采用直径为3mm,铝板(Al 1100)厚度为1.7 mm的刀具-立铣刀HSS作为工件。夹持设备的密封使用了厚度为1.7毫米的橡胶垫。铣削工艺设置为主轴转速2650 rpm,进给速度32 mm/min,切削深度0.2 mm,进给速度0.007 mm/齿。成品的表面粗糙度用轮廓仪测量。真空泵的吸入压力由阀门和控制管控制,从而在机械过程中保持稳定的吸入压力。吸入压力为- 18inhg、- 20inhg、- 22inhg和- 24inhg。结果表明,在-24 inHg的吸力压力下,用真空夹钳作为夹持设备对铝板进行切削加工,其表面粗糙度(Ra)符合DIN第2部分规定的极限标准。本研究旨在利用基于pc的数控铣削设备,观察真空夹具作为夹持设备在铝板切割过程中的作用,并找出真空夹具的最佳吸力压力以及切割过程后对铝板表面粗糙度的影响。铝板的切割过程采用基于pc机的数控铣削设备,以真空夹作为夹持设备,采用直径为3mm,铝板(Al 1100)厚度为1.7 mm的刀具-立铣刀HSS作为工件。夹持设备的密封使用了厚度为1.7毫米的橡胶垫。铣削工艺设置为主轴转速2650 rpm,进给速度32 mm/min,切削深度0.2 mm,进给速度0.007 mm/齿。成品的表面粗糙度用轮廓仪测量。真空泵的吸入压力由阀和控制管控制,可以在运行过程中保持稳定的吸入压力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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