Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys

The present article arises from the study of the mechanical behavior of a body composed entirely of iron oxide and iron oxide and chip alloys through the experimental determination of resistance to impact by dynamic action through the application of loads of impact provided by a Charpy pendulum. The...

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Autores:: Santiago Méndez, Habid
De La Cruz Consuegra, William
Molina Mesino, Enois
Rojas Millán, Rafael Humberto
Orozco Aguinaga, Carlos Alberto
Hinojosa Rivera, Moisés

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

Description
Summary:	The present article arises from the study of the mechanical behavior of a body composed entirely of iron oxide and iron oxide and chip alloys through the experimental determination of resistance to impact by dynamic action through the application of loads of impact provided by a Charpy pendulum. The resistive evaluation will be useful for the development of new engineering materials, either to design structures or to design and manufacture machine parts. The study also evaluates the materials’ level of absorption of impact energy, or their capacity to partially absorb the energy from the impact loads. Possible applications include the design of new materials for use in the automotive industry, for example for collision protection systems for vehicles, among others. The tested materials are derived from metallurgical processes that involve various stages of iron smelting, from melting and casting of the metal until obtaining the test specimens.

Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys

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