[A study of linearity and reciprocity during shock applied with a hammer to human dry skull].

Y Kumazawa, J Sekiguchi, M Saito, K Honma, M Toyoda, E Matsuo
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Abstract

The authors used a human dry skull on which the cranial bone mandible had been joined with an artificial articulator disk to form a single unit. Impact acceleration corresponding to weak and strong tapping was considered a dynamic load in examining the vibration transfer characteristics of the facial cranial bone when impact was applied from the mentum section in a situation designed to be closer to reality. Flexion injection type (resonance frequency f0 = 100 to 150 Hz, produced by GC Corp.) was applied to the human dry skull as an artificial periodontal membrane at thickness of 0.3 mm. In addition, Exaflex heavy body type (f0 = 400 Hz, produced by GC Corp.) was applied as an artificial disk. This was then placed on a damper produced by spreading a rubber dam sheet with a thickness of 35 microns on a tire tube with a diameter of 35 cm and an air pressure of 35 kg/cm2. Investigations were then made concerning linearity and reciprocity to determine whether an experimental system could be achieved or not. This was then followed by modal analysis. As a result, the following matters were ascertained: (1) The resonating area differed according to the extent of the force. (2) An increase in the viscoelastic elements of the silicon was accompanied by attenuation of force. (3) Directionality of force attenuation was caused by the complexity of bone structure. (4) A tapping force of 0.3G or 1G was sufficiently attenuated by the facial cranial bone. (5) The transfer function at the bone seams and thinner areas of the bones was insufficient for modal analysis of the facial region and total cranial bone of the human dry skull.

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[用锤击人体干颅骨时的线性和互易性研究]。
作者使用了一个人类干颅骨,颅骨下颌骨与人工关节盘连接形成一个单一的单元。在更接近现实的情况下,从动量部分施加冲击时,在检查面部颅骨的振动传递特性时,将弱和强叩击所对应的冲击加速度视为动态载荷。弯曲注射型(共振频率f0 = 100 ~ 150hz, GC公司生产)应用于人干颅骨,作为0.3 mm厚度的人工牙周膜。另外,采用GC公司生产的Exaflex重型体型(f0 = 400 Hz)作为人工圆盘。然后将其放置在减震器上,减震器是通过将厚度为35微米的橡胶坝板铺在直径为35厘米、气压为35千克/平方厘米的轮胎管上而产生的。然后进行了关于线性和互易性的调查,以确定是否可以实现实验系统。然后进行模态分析。结果表明:(1)不同受力程度的共振面积不同。(2)硅的粘弹性元素的增加伴随着力的衰减。(3)力衰减的方向性与骨结构的复杂性有关。(4) 0.3G或1G的叩击力均能被面颅骨充分衰减。(5)骨缝处和骨薄处的传递函数不足以进行人体干颅骨面部和全颅骨的模态分析。
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