화학공학소재연구정보센터
Powder Technology, Vol.235, 756-763, 2013
Impact velocity and compression force relationship - Equivalence function
Most of industrial processing units that deal with the handling of particulate materials (transporting, storage, size reduction, etc.) normally apply mechanical forces that cause certain amount of damage to the particles. In order to minimize or maximize the damage to the product material, one has to accurately calculate the loads being applied to the particles. Since in most cases common loads are impact or/and compression, it is essential to understand the relationship between them. The present study develops and validates an empirical function that calculates the equivalent force that causes the same percentage of the broken particles as if the particles collided with a certain impact velocity. The conversion of the impact load to the equivalent force enables us to compare various stressing conditions and thus to design and analyze a new operating unit with the same material regardless of the nature of the loads. The mathematical expression of the empirical equivalence function is similar to the micromechanical contact models. The parameters of this function result from the particle strength distribution and the impact breakage probability, which were determined by comparing the experimental data of impact and compression tests with salt, potash and GNP. (C) 2012 Elsevier B.V. All rights reserved.