本文是在研究振动对生物体内物质的耗散作用的基础上，试图利用振动对动物腹壁脂肪进行减脂的探索。通过实验，证实了利用趋声作为手段，可以对动物体内的腹壁脂肪作无创伤活体测量，其误差仅在１０％左右。使用振动对脂肪块得出了疲劳曲线和振动在生物体内传播的衰减曲线。对新鲜离体脂肪块所作振动模拟实验，证明在所使用的频率和振幅的振动作用下，能够迅速使脂肪的厚度消减，根据初步观察，在振动过程中有甘油从脂肪块中溢出，其消减体积的百分之八十为甘油成份，可以认为振动能促使脂肪细胞膜破裂或促使脂肪细胞内的脂滴水解，因此振动有可能成为减肥治疗方案中的一个重要措施。 Based on the study of the dissipative effect of vibration on biological substances, this paper attempts to explore the hypothesis that using vibration to reduce fat in abdominal wall of animals. Experiments confirmed that the use of asymptotic sound as a means of abdominal fat in animals can be used for noninvasive measurement of body fat, the error is only about 10%. The use of vibration on the fat block yields the attenuation curve of the fatigue curve and vibration propagation in the organism. Vibration simulation tests on freshly isolated fat blocks demonstrated that the thickness of the fat can be quickly reduced under the vibrational frequencies and amplitudes used. According to the preliminary observation, glycerol overflows from the fat block during the vibration, and its reduction Eighty percent of the volume is glycerin, and it is thought that vibration can rupture the fat cell membrane or promote the lipid droplets in fat cells to hydrolyze, so that vibration may become an important measure in weight loss treatment.