dingcapacityimprovementofmachinestructuresbyclosepackingwithballs-外文文献(编辑修改稿)

dingcapacityimprovementofmachinestructuresbyclosepackingwithballs-外文文献(编辑修改稿)内容摘要：

value for the square pipe without ball packing, and isnot affected by the ball diameter. However, in the caseof dH1135012 mm, amaxis larger than that for dH1134910 mm. Asa result, the dynamic rigidity of model structures packedwith glass balls of dH1135012 mm is not improved due to thelarge acceleration response. On the other hand, in thehorizontal excitation, the value of amaxwithin the regiondH1134917 mm is evidently smaller than the value for thesquare pipe without ball packing.The effect of the ball size d on the natural frequencyf of the fundamental mode both in vertical and horizontalexcitation is shown in Fig. 6. The horizontal broken lineshows the natural frequency of the square pipe withoutball packing. In the figure, the effect of the excitationdirection is not clear. The natural frequency within theFig. 6. Effect of ball size on natural frequency.470 Y. Wakasawa et al. / International Journal of Machine Tools amp。 Manufacture 42 (2020) 467–472region dH1134910 mm is small. But, in the range dH1135012 mm,this natural frequency agrees approximately with themodel structure without ball packing.Next, the effect of the ball size d on the damping ratioz in both vertical and horizontal excitation is shown inFig. 7. The value at d=0 mm indicates the damping ratioof the model structure without ball packing. In the figure,the difference is not recognized between the dampingratio in both directions. The damping ratio z at d=1mmis slightly larger than that for the model structure withoutball packing. And the damping capacity is improved alittle. And z for d=3, 5, 7, 10 mm ball packing is a littlelarger than without the ball packing case. A large damping capacity improvement is achieved when glass ballsof dH1102210 mm are packed. The damping ratio beesmaximum in the neighborhood of d=12 mm. When ballsize bees large beyond this values, z decreases rapidly.. Packed arrangementThe effect of packed arrangement of glass balls in themodel structure on the damping ratio and the natural frequency are considered here. For these investigations, therelation between the ball size d and the packing ratio bis obtained by experiments and is given in Fig. 8. Thepacking ratio is the ratio of the total volume of packedglass balls to the cavity volume in the model structure.Fig. 8 shows the results of close packing of glass ballsby excitation (excitation packing). Thus, as many glassballs as possible are packed in the cavity of the modelstructure. The packing ratio corresponding to this stateis maximum, and is called the maximum packing ratioin the following discussion. When small spherical particles of a single size pared to the inner size of themodel structure are packed by excitation packing,approximately 60% of the volume is occupied by parFig. 7. Effect of ball size on damping ratio.Fig. 8. Effect of ball size on packing ratio in closepacked structure.ticles and the remaining 40% is the void [8]. Themaximum packing ratio is approximately 60% withind=5 mm, and it decreases for dH113507 mm.Fig. 9 shows the results of observation of the packingarrangements of glass balls in the model structure cavity.The measurement is carried out to examine in detail theball size effect on the damping ratio and the natural frequency. Balls are packed in the form of the facecenteredcubic lattice for the size smaller than d=5 mm and ofthe bodycentered cubic lattice at d=7, 10 mm. A pairof balls is packed at d=12 mm alternately. Balls arepacked in a row for dH1135015 mm. As seen from the above,the maximum packing ratio differs by the ball sizebecause of the different packed arrangements.Fig. 9. Packing arrangements of glass balls.471Y. Wakasawa et al. / International Journal of Machine Tools amp。 Manufacture 42 (2020) 467–472When balls are packed by excitation in the cavity ofthe model structure, the maximum packing ratio and thepacked arrangement depend on the ball size. This dependency of the packing ratio affects the damping capacityetc. In this experiment, when the ball size is less than 10mm and the maximum packing ratio is high, the naturalfrequency bees low as a result that the glass ballsand square pipe are united so the e。