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Automated procedure for determination of friction grip and bearing joint strength used for space missions

This paper presents an algorithm that calculates the nominal torque for friction grip joints, followed by its implementation in a Microsoft Excel worksheet that is automated by a macro written in Visual Basic. The algorithm outputs not only the optimum nominal torque (the value for which the margin...

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Published in:	INCAS bulletin 2018-10, Vol.10 (4), p.71-84
Main Authors:	Stefan, HOTHAZIE, Camelia-Elena, MUNTEANU, Alexandra-Raluca, PETRE, Ionut-Cosmin, ONCESCU, Ion, DIMA
Format:	Article
Language:	English
Subjects:	Algorithms Automation Basic Compliance Excel Friction grip Load preload Space missions Stress analysis Stress concentration Torque Visual Visual Basic Visual programming languages Yield stress
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creator	Stefan, HOTHAZIE Camelia-Elena, MUNTEANU Alexandra-Raluca, PETRE Ionut-Cosmin, ONCESCU Ion, DIMA
description	This paper presents an algorithm that calculates the nominal torque for friction grip joints, followed by its implementation in a Microsoft Excel worksheet that is automated by a macro written in Visual Basic. The algorithm outputs not only the optimum nominal torque (the value for which the margin of safety is maximum) but also the interval of acceptable values so that the user can easily choose the torque according to his preferences.
doi_str_mv	10.13111/2066-8201.2018.10.4.7
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subjects	Algorithms Automation Basic Compliance Excel Friction grip Load preload Space missions Stress analysis Stress concentration Torque Visual Visual Basic Visual programming languages Yield stress
title	Automated procedure for determination of friction grip and bearing joint strength used for space missions
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