Nikola Kuzmanov scite author profile

Metal structures corrosion is a problem of global economic importance. Typically, the corrosion process runs slowly, which requires accelerated methods for corrosion behaviour examination. The conditions when accelerated methods are used differ from the real ones, which affects the results obtained. One of the methods that relatively successfully reproduces corrosion in a natural atmosphere is included in the standard EN ISO 11130:2018 – Alternate immersion test in salt solution. Unlike other widespread methods, uneven corrosion occurs here, including spots and pits, which greatly affect the mechanical behaviour of the material. The commercial devices for such tests are quite expensive. This justifies the development and production of one’s own equipment as the one presented in this paper. The design, construction and production of a low-cost device are hereby described. The first results of the tests performed with this machine are also given. The corrosion rate of rods, 6 mm in diameter, from widely used steel grades – S235JR and S235JRC – was determined. The duration of the test was 42 days. The results were compared with those from another corrosion test method with the same duration – immersion in a solution of 3.5% NaCl.

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System for materials testing at static loading

Tsonev

Kuzmanov

Borisov

et al. 2019

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper presents a newly developed system for mechanical testing at static loading. The separate modules of the system are described - tensile testing machine, grips, extensometers for axial end transverse deformations, electronic control system. The results obtained during tensile testing with the new system are given. The yield strength, the tensile strength, the elasticity modules and the Poisson’s ratio of general purpose steal S235JRC are determined.

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Tensile testing of Inconel 600 wire at high temperatures

Kuzmanov

Borisov

Muhtarov³

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper presents how to determine some mechanical properties of wires subjected to tensile testing. Additional equipment was added to an existing tensile testing machine for wires at high temperatures. A tensile testing procedure for wires at high temperature is described. Tensile tests of Inconel 600 wire were conducted at 700, 800 and 900 °C. The ultimate strength, the yield strength and the percentage elongation after fracture are determined. Analysis of the gathered results is done.

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Predictive fatigue curve of inconel 600 wire at 700 °C

Kuzmanov¹,

Tsonev²,

Nikolov³

2022

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Nikola Kuzmanov

The Effect of External Forces on the Load Sharing of a Full Planet Engagement Planetary Gear Train

Machine for accelerated cyclic corrosion tests through alternate immersion in salt solution

System for materials testing at static loading

Tensile testing of Inconel 600 wire at high temperatures

Predictive fatigue curve of inconel 600 wire at 700 °C

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