Express-Method for Determination the Fibrous Materials Resistance to Bending

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The object of research of the article is the characteristics of mechanical properties of fibrous systems under the bending deformation, and the subject is the method of determination of the resistance to bending. The aim of the work is to develop a new universal method for evaluating the resistance of fibrous materials to bending, including, among other things, the possibility of forming an electronic database on the characteristic properties of materials. To achieve this goal, a set of problems related to the analysis of existing methodological approaches and technical means, the rationale for possible solutions to the problem posed, and the development of a new patentable method for evaluating the materials’ resistance to bending, have been solved in the research. In the course of the project, a study was developed of the required characteristics for textile and leather-fur materials used for the manufacture of garments. The method is based on the use of natural oscillations frequencies of the material as an informative parameter of their resistance to bending. The method belongs to the class of express methods and provides an opportunity to create an electronic database on the properties of materials online. The approbation of the proposed solution by comparing the estimates obtained with the results of studies obtained on the basis of a standardized method (the method of the console), showed sufficient accuracy and the possibility of practical application of the developed method.

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Edited by:

Dr. Denis Solovev

Pages:

407-411

Citation:

I.A. Sheromova et al., "Express-Method for Determination the Fibrous Materials Resistance to Bending", Materials Science Forum, Vol. 945, pp. 407-411, 2019

Online since:

February 2019

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$41.00

[1] A.P. Zhikharev, D.G. Petropavlovskiy, S.K. Kuzin, V.Yu. Mishakov; Ed. prof. A.P. Zhiharev, Material Science in the manufacture of light industry products: Textbook for university students, Academy Publishing Center, Moscow, (2004).

[2] B.A. Buzov, G.P. Rumyantseva, Materials for clothing. Fabrics, FORUM: INFRA-M, Moscow, (2014).

[3] V.I. Stelmashenko, Materials for clothing and confectionation, Academy Publishing Center, Moscow, (2010).

[4] B.A. Buzov, N.D. Alymenkova, Materials Science in the Manufacture of Light Industry Products (Sewing Production), Academy, Moscow, (2004).

[5] O.N. Savostytsky, E.K. Amirova, Material Science of Sewing Production: Textbook, Academy: Mastery: High School, Moscow, (2001).

[6] Form and material. Ways to create a three-dimensional form of the product. Form-forming properties of textile materials, Information on http://allrefrs.ru/2-24133.html.

[7] L.V. Orlenko, N.I. Gavrilova, Confection of materials for clothing, FORUM: INFRA-M, Moscow, (2010).

[8] B.A. Buzov, N.D. Alymenkova, D.G. Petropavlovskiy, Practical work on the material science of sewing production, Academy, Moscow, (2004).

[9] Textile materials. Cloths. Method for determining the resistance to bending, Standard of Russia GOST 10550-93, Information on http://infosait.ru/Pages_gost/9825.htm.

[10] Imitation leather and film materials. Methods for determination flexibility, rigidity, and elasticity, Standard of Russia GOST 8977-74, Information on http://docs.cntd.ru/document/1200018507.

[11] Half-cycle bending characteristics, Information on http://helpiks.org/8-74746.html.

[12] Device for determining the hardness of the skin by GOST 8977-74 МТ 376, Information on http://www.metrotex.ru/products/mt-376.

[13] O.N. Smirnova, K.E. Perepelkin, E.A. Maltseva, A.V. Smirnov, Patent of Russia 2163017. (2001).

[14] V.E. Kuzmichev, A.G. Sotov, N.A. Shokin, Patent of Russia 2061214. (1996).

[15] I.A. Sheromova, A.S. Zheleznyakov, Investigation of the influence of steam-air environment parameters on stress relaxation of fibrous materials, J. Izvestiya Vuzov. The technology of Textile industry 3(2007) 139 – 142.

[16] O.A. Dremlyuga, I.A. Sheromova, G.P. Starkova, A.S. Zheleznyakov Computer technology for assessing the drapeability of easily deformable materials, J. Sewing industry 3 (2012) 23 - 25.

[17] A.S. Zheleznyakov, G.P. Starkova, OA Dremlyuga, V.A. Alexandrov, Patent of Russia 2413223. (2011).

[18] G.P. Starkova, I.A. Sheromova, A.S. Zheleznyakov, O.I. Kudryashov Modeling the Dynamics of the Stress State of Textile Materials with a Fixed Deformation, J. Izvestiya Vuzov. The technology of Textile industry 5 (2007) 86-91.

[19] I.A. Sheromova, G.P. Starkova, A.S. Zheleznyakov, Investigation of the stress-strain state of fibrous materials, J. Izvestiya Vuzov. The technology of the textile industry, 3 (2008) 20-23.

[20] I.A. Sheromova Methodological bases of optimization of preparation of manufacture of clothes from easily deformed materials: Thesis .... doctor of science, (2009).

[21] I.A. Sheromova, OA Dremlyuga, A.S. Zheleznyakov Using Wave Processes to Study the Properties of Apparel Materials in Bending Deformation, J. Modern Problems of Science and Education 2 (2015), Information on http://www.science-education.ru/ru/article/view?id=21541.

[22] O.A. Dremlyuga, I.A. Sheromova, A.S. Zheleznyakov, New methods and technical means for quality assurance of sewing and knitted products: monograph, VSUES, Vladivostok, (2012).

[23] I.A. Sheromova, A.S. Zheleznyakov, O.A. Dremlyuga, G.P. Starkova, V.S. Starkov, Patent of Russia 2499257. (2014).

[24] A.S. Zheleznyakov, I.A. Sheromova, G.P. Starkova. Modeling and automation of the preparatory processes of sewing production: monograph, Sibvuzizdat, Novosibirsk, (2007).

[25] I.A. Sheromova, OA Dremlyuga, A.S. Zheleznyakov, Mechanical oscillations in the study of the stiffness of composite materials, J. Sewing Industry 2 (2013) 43-44.