会议论文详细信息
International Conference on Applied Sciences 2017
Identification of exponent from load-deformation relation for soft materials from impact tests
Ciornei, F.C.^1 ; Alaci, S.^1 ; Romanu, I.C.^1 ; Ciornei, M.C.^2 ; Sopon, G.^1
Stefan Cel Mare University of Suceava, Department of Mechanics and Technologies, Universitatii str., no. 13, Suceava
720229, Romania^1
Carol Davila University of Medicine and Pharmacy, Department 2 Physiology i, Bd. Eroilor Sanitari, no. 8, Bucuresti
050474, Romania^2
关键词: Accurate estimation;    Classical methods;    Different heights;    Hertzian contacts;    Laser profilometry;    Quasi-static tests;    Systems modelling;    Two contacting bodies;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/294/1/012041/pdf
DOI  :  10.1088/1757-899X/294/1/012041
来源: IOP
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【 摘 要 】

When two bodies are brought into contact, the magnitude of occurring reaction forces increase together with the amplitude of deformations. The load-deformation dependency of two contacting bodies is described by a function having the form F = Cx. An accurate illustration of this relationship assumes finding the precise coefficient C and exponent. This representation proved to be very useful in hardness tests, in dynamic systems modelling or in considerations upon the elastic-plastic ratio concerning a Hertzian contact. The classical method for identification of the exponent consists in finding it from quasi-static tests. The drawback of the method is the fact that the accurate estimation of the exponent supposes precise identification of the instant of contact initiation. To overcome this aspect, the following observation is exploited: during an impact process, the dissipated energy is converted into heat released by internal friction in the materials and energy for plastic deformations. The paper is based on the remark that for soft materials the hysteresis curves obtained for a static case are similar to the ones obtained for medium velocities. Furthermore, utilizing the fact that for the restitution phase the load-deformation dependency is elastic, a method for finding the exponent for compression phase is proposed. The maximum depth of the plastic deformations obtained for a series of collisions, by launching, from different heights, a steel ball in free falling on an immobile prism made of soft material, is evaluated by laser profilometry method. The condition that the area of the hysteresis loop equals the variation of kinetical energy of the ball is imposed and two tests are required for finding the exponent. Five collisions from different launching heights of the ball were taken into account. For all the possible impact-pair cases, the values of the exponent were found and close values were obtained.

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