The occurrence of chatter vibrations which mainly originate as result of lack of rigidity in machine parts, cutting tool and instability of the tool-workpiece system during machining is still a recurring concern in the manufacturing industry, especially in the processing of titanium alloys. These vibrations have a detrimental effect on tool performance and product quality. Therefore, this research presents an experimental determination of chatter trends during a Ti-6Al-4 V end-milling process, with a focus on the maximum two-dimensional (2D, X and Y plane) displacements of the workpiece. The effect of three factors namely: spindle speed (1000-2000 rpm), feed rate (250-350 mm/min) and depth of cut (0.3-0.9 mm) were investigated using a vertical MV204II/10 CNC end-milling machine. Data was collected using an accelerometer and analyzed in order to examine the statistical significance of each parameter on the developed chatter regression model. The results showed that larger displacement values were obtained at settings of depth of cut of 0.9 mm, feed rate of 350 mm/min and spindle speed of 2000 rpm in the Y-axial direction of the machine tool. Lower surface roughness was achieved at low depth of cut of 0.3 mm, low feed rate of 250 mm/min and spindle speed of 2000 rpm in the direction of the feed. The regression model showed that effective control of the stability of the process and was achieved at lower values of the investigated parameter combinations.
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机译:主要由于机械零件的刚性不足,切削工具的缺乏以及机械加工过程中工具-工件系统的不稳定性而导致的颤动振动的出现仍然是制造行业尤其是在钛合金的加工中经常出现的问题。这些振动会对工具性能和产品质量产生不利影响。因此,本研究提出了在Ti-6Al-4 V端铣削过程中颤动趋势的实验确定,重点是工件的最大二维(2D,X和Y平面)位移。使用立式MV204II / 10 CNC立铣刀研究了主轴转速(1000-2000 rpm),进给速度(250-350 mm / min)和切削深度(0.3-0.9 mm)这三个因素的影响。使用加速度计收集数据并进行分析,以检查每个参数对已发展的颤振回归模型的统计意义。结果表明,在机床的Y轴方向上,切削深度为0.9 mm,进给速度为350 mm / min和主轴转速为2000 rpm时,可以获得较大的位移值。在进给方向上,在0.3 mm的低切削深度,250 mm / min的低进给速度和2000 rpm的主轴转速下,可获得较低的表面粗糙度。回归模型显示出对过程稳定性的有效控制,并且在所研究的参数组合的较低值下可以实现。
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