Abstract
Results of theoretical and experimental researches related to cold deformation degree influence when rolling on strength
 and hydraulic characteristics of metal gauzes used for production of built-in filters’ filtering walls have been presented.
 An analytical dependence of gauze’s permeation coefficient on the gauze’s reduction ratio and relative lengthening when
 rolling has been received based on ideal porous body’s capillary model. Theoretical research results have been compared
 with the experimental data obtained at filtration of compressed air and mineral oil through samples of gauzes with various
 degree of cold deformation. Experimental dependences of gauzes’ relative lengthening and strength limit on their cold
 deformation degree have been presented. Results of visual researches of deformed gauzes’ surface condition have been
 presented. A dependence of contact spots’ square at gauzes’ surfaces on reduction ratio has been received. The analysis of
 contact spots’ influence on hydraulic characteristics of the multilayered mesh material used for filtering walls production
 has been carried out. Results of experimental studies of gauzes’ hydraulic characteristics have been processed in the form
 of dimensionless dependence of hydraulic resistance coefficient on filtered environment stream’s Reynolds number.
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