The enhancement of cutting capacity of a grinding wheel when processing ductile steel blank parts by ultrasonic activation

A. Khazov, A. Unyanin
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Abstract

The study aimed to identify the relations between the sticking intensity and ultrasonic vibrations (UV) used for processing and evaluate the wheels’ performance when grinding ductile materials blank parts. The authors carried out the numerical simulation of local temperatures and the 3H3M3F steel workpiece temperature when grinding by ultrasonic activation. The study determined that the application of ultrasonic vibrations with the amplitude of 3 µm causes the decrease in local temperatures by 13…40 %, and in blank part temperature – up to 20 %. The calculation identified that the activation of ultrasonic vibrations with the amplitude of 3 µm causes the decrease in the glazing coefficient by 33 % for cutting grain and by 7 % for deforming grain. When increasing the longitudinal feed rate or the grinding depth, the glazing coefficient increases to a lesser degree when using the ultrasonic vibration than in the case without ultrasonic activation. The authors carried out the numerical simulation of local temperatures when scratching the 3H3M3F steel specimens by single abrasive grains with ultrasonic activation. The sticking deformation and the stresses resulted from this deformation and affecting the junction points of sticking with grains with and without ultrasonic vibrations application are calculated. The experimental research included the micro-cutting of specimens with single abrasive grains. The experiments identified that the abrasive grains wear out and glaze to a lesser degree when micro-cutting a workpiece with ultrasonic vibrations activation. The lowering of the intensity of sticking of the workpiece material particles to the abrasive grains due to the adhesion causes the decrease in the glazing coefficient when using ultrasonic activation. The study considered the possibility to enhance the efficiency of flat grinding through the use of the energy of ultrasonic vibrations applied to a blank part in the direction with the grinding wheel axis. A workpiece fixed in the device between the vibration transducer and the support is one of the components of a vibration system. The authors performed the experiment when grinding 3H3M3F and 12H18N10T steel workpieces with the wheel face. When grinding with ultrasonic vibrations, the grinding coefficient increases up to 70 %, and the redress life increases twice or thrice.
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超声活化法加工球墨钢毛坯,提高了砂轮的切削能力
研究了超声振动(UV)与粘着强度之间的关系,并对球墨材料毛坯磨削时砂轮的性能进行了评价。对超声活化磨削时的局部温度和3H3M3F钢工件温度进行了数值模拟。该研究确定,应用幅度为3 μ m的超声波振动可使局部温度降低13…40%,而在空白部分温度降低高达20%。计算表明,激活振幅为3µm的超声振动后,切割晶粒的玻璃化系数降低33%,变形晶粒的玻璃化系数降低7%。当增加纵向进给速度或磨削深度时,使用超声振动时的上光系数的增加程度小于不使用超声激活的情况。对3H3M3F钢试样进行了超声活化单粒磨粒刮伤局部温度的数值模拟。计算了超声振动和非超声振动作用下的粘接变形及其对粘接结合点的影响。实验研究包括单粒磨粒试样的微切削。实验表明,用超声振动激活微切割工件时,磨料颗粒磨损和釉化程度较低。采用超声波活化时,工件材料颗粒由于粘附作用而对磨料颗粒的粘附强度降低,导致上光系数降低。研究了利用超声振动能量在与砂轮轴线方向上作用于毛坯件,提高平面磨削效率的可能性。固定在振动换能器和支架之间的装置中的工件是振动系统的部件之一。采用砂轮面磨削3H3M3F和12H18N10T钢工件进行了试验。用超声振动磨削时,磨削系数可提高70%以上,矫正寿命可提高2 ~ 3倍。
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THE RESEARCH OF AGING AND MECHANICAL PROPERTIES OF NANOSTRUCTURAL TITANIUM The research of the processes of formation of porous non-ferrous metals Special aspects of strain localization during thermal power processing Regulation of powder particles shape and size at plasma spraying The enhancement of cutting capacity of a grinding wheel when processing ductile steel blank parts by ultrasonic activation
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