Iskanje po katalogu digitalne knjižnice

Opis: The research presented in this paper is based on the need for personalized medical implants, whose serial production is impossible, so the need for production process adjustments is inevitable. Conventional production technologies usually set geometrical limitations and generate a lot of waste material, which leads to great expenses, especially when the material used for production is an expensive Ti alloy. Additive technologies offer the possibility to produce a product almost without waste material and geometrical limitations. Nevertheless, the methods developed for additive production using metal powder are not significantly used in biomedicine because there is insufficient data published regarding the properties of additively produced parts, especially from the fatigue and fracture standpoint. The aim of this research is the experimental determination of fracture mechanics properties of additively produced parts and their comparison with the properties of parts produced by conventional technologies. Drawing is the first production process in the comparison, and the second one is selective laser melting (SLM). The Ti-alloy Ti-6Al-7Nb, used for medical implants, was selected for this research. Experimental testing was performed in order to determine ∆Kth fracture mechanics parameters and resistance curves according to ASTM E1820. Test specimen dimensioning and the experiments were carried out according to the respective standards. For the drawn test specimen, the value obtained was ∆Kth = 3.84 MPam0.5 , and the fracture toughness was Kc = 84 MPam0.5, while for SLM produced test specimens the values were ∆Kth = 4.53 MPam0.5, and Kc = 21.9 MPam0.5.
Ključne besede: fracture toughness, crack growth curve, resistance curve, additive technologies, powder metallurgy, selective laser melting, Ti-6Al-7Nb
Objavljeno v DKUM: 19.08.2025; Ogledov: 0; Prenosov: 10
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Opis: This paper presents research experience related to implementation of vibrations on residual stress relief with the equipment for treatment by vibration method. The paper provides explanation of effects achieved by vibration method when implemented during welding, and elaborates advantages and disadvantages of that method applied after welding process. In order to present effects of vibration on solid structures, there was experimental analysis performed and compared with heat treatment.
Ključne besede: welding, vibrations, residual stress, heat treatment
Objavljeno v DKUM: 03.07.2017; Ogledov: 1237; Prenosov: 141
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