Modern Methods of Improving Quality of Design of the Special Industrial Equipment for Tests of the Assembly ...

Modern Methods of Improving Quality of Design of the Special Industrial Equipment for Tests of the Assembly ...

Modern Methods of Improving Quality of Design of the Special Industrial Equipment for Tests  of the Assembly and Protective Block  of the Scientific and Power Module

R.S. Zagidullindesign engineer of the test center of Joint stock company «Progress State research and production space centre»; Samara

P.V. Barinov, student of a magistracy of Institute of the aircraft equipment of the Samara national research university of the academician S.P. Korolev; Samara

V.A. Burkova, student of a magistracy of Institute of the aircraft equipment of the Samara national research university of the academician S.P. Korolev; Samara

S.V. Glushkov, student of a magistracy of Institute of the aircraft equipment of the Samara national research university of the academician S.P. Korolev; Samara

T.A. Mitroshkina, graduate student of department of production of aircraft and quality management in mechanical engineering of the Samara national research university of a name of the academician S.P. Korolev; Samara
e-mail: t.mitroshkina@gmail.com
 
Application of modern methods and approaches, such as QFD, FMEA, robast design, in total with program systems of KOMPAS-3D and ANSYS, gives the chance of modeling and carrying out calculations of tests on virtual model that allows the organization to follow a way of the competitive enterprise capable to make and carry out tests of the products meeting the requirements and expectations of consumers and to minimize expenses at a design stage and developments. In article approaches to improving quality of design and production on the basis of modern methods of planning of quality and risk analysis of QFD and FMEA with application 3D - modeling and calculations in the ANSYS system on the example of design of the special industrial equipment for realization of test of the assembly and protective block of the scientific and power module for the Russian segment of the International Space Station imitation of influence of aerodynamic loadings are considered.
 
Keywords: design, test, durability, rigidity, quality, analysis, prevention of risk, QFD, FMEA.
 
References:
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2. Vashukov Yu.A., Dmitriev A.Ya., Mitroshkina T.A. Analysis of types, consequences and reasons of potential discrepancies (FMEA). Samara state aerospace university. Samara, 2008. 31 p.
3. Fedorova N.N. Work bases in ANSYS 17. DMK Press. Moscow, 2017. 210 p.
4. Dmitriev A.Ya., Mitroshkina T.A. Robast approaches by preparation of production PAK from composite materials. Quality management. Chosen scientific works of the XVI International scientific and practical conference. Moscow aviation Institute. Moscow, 2017. pp. 177–181.
5. Visotskaya M.V., Dmitriev A.Ya. Robast design: a method of improvement of productions of tests of products at stands for control of radial and face beating of bodies of rotation. Effective systems of management: quality, innovations, sustainable development. Materials VI of the International scientific and practical forum. 2017. pp. 122–126.
6. Vashukov Yu.A., Dmitriev A.Ya., Mitroshkina T.A.  QFD: Development of products and technological processes on the basis of requirements and expectations of consumers. Samara state aerospace university. Samara, 2012. 32 p.
 
DOI: 10.34214/2312-5209-2019-22-2-44-53

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