Technological Inherited Connections in Continuous Method of Deformational Nanostructuring

Aleksey Korchunov; Marina Polyakova; Alexandr Gulin; Dmitriy Konstantinov

doi:10.4028/www.scientific.net/AMM.555.401

Paper Titles

Dynamic Simulation of a Motor Vehicle in Virtual Prototyping Environment
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Emissions Level Approximation at Cold Start for Spark Ignition Engine Vehicles
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Influence of the Flow Section Geometry on the Static Characteristic Curves of Proportional Hydraulic Throttle Valves
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Artificial Neural Networks for Modeling of Chemical Source Terms in CFD Simulations of Turbulent Reactive Flows
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Technological Inherited Connections in Continuous Method of Deformational Nanostructuring
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An Investigation on Plastic Matrix Composite Materials
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Theoretical and Experimental Researches Regarding Multilayer Materials Used for Incremental Forming
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Finite Element Method for Simulating the Vickers Hardness Test
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Dynamic Simulation in Mechatronic Concept of a Photovoltaic String Equipped with Solar Tracker
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 555Technological Inherited Connections in Continuous...

Technological Inherited Connections in Continuous Method of Deformational Nanostructuring

Abstract:

It is proposed to study technological processes of metal ware production as a consequence of macroscopic, microscopic and submicroscopic building typical for an initiate structure, transformed by phases or structurally. It makes possible to use the technological heredity theory in order to predict product quality. This approach is shown on the example of continuous method of deformational nanostructuring. It allowed to formulate the basics of the assessment strategy of various multistage processes of material processing in terms of achieving the required set of properties.

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Periodical:

Applied Mechanics and Materials (Volume 555)

Pages:

401-405

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.555.401

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Online since:

June 2014

Authors:

Aleksey Korchunov, Marina Polyakova*, Alexandr Gulin, Dmitriy Konstantinov

Keywords:

Continuous Method of Deformational Nanostructuring, Inheritance Coefficient, Inherited Connections, Metal Ware Products, Technological Heredity, Technological Process

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