Forecasting the Accuracy Parameters of Automated Technological Pipe Flexure for Gas-Turbine Engines with a Complex Spatial Shape

We present the results of experimental and computational study of the process of flexure of pipes with complex spatial shapes on a pipe-bending machine using the QForm VX program based on the finite element method. The possibility of predicting the accuracy parameters of the semi-finished product an...

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Published in:Journal of machinery manufacture and reliability 2020-07, Vol.49 (4), p.347-352
Main Authors: Burlakov, I. A., Mangasaryan, G. A., Gladkov, Yu. A., Kukuyuk, A. A., Gordin, D. E.
Format: Article
Language:English
Subjects:
Accuracy
Automation and Control in Engineering
Bending machines
Computer simulation
Engineering
Finite element method
Flexing
Gas turbine engines
Machines
Manufacturing
Parameters
Processes
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creator Burlakov, I. A.
Mangasaryan, G. A.
Gladkov, Yu. A.
Kukuyuk, A. A.
Gordin, D. E.
description We present the results of experimental and computational study of the process of flexure of pipes with complex spatial shapes on a pipe-bending machine using the QForm VX program based on the finite element method. The possibility of predicting the accuracy parameters of the semi-finished product and possible defects by the method of process simulation is shown.
doi_str_mv 10.3103/S1052618820040044
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1934-9394
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subjects Accuracy
Automation and Control in Engineering
Bending machines
Computer simulation
Engineering
Finite element method
Flexing
Gas turbine engines
Machines
Manufacturing
Parameters
Processes
title Forecasting the Accuracy Parameters of Automated Technological Pipe Flexure for Gas-Turbine Engines with a Complex Spatial Shape
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