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Numerična simulacija mikrokovanja z delci in laserskega mikrokovanja
ID Žibret, Primož (Author), ID Halilovič, Miroslav (Mentor) More about this mentor... This link opens in a new window

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PID: 20.500.12556/rul/bd659bb1-05af-4803-bd04-180ab9be3e9f

Abstract
Mikrokovanje (udarno utrjevanje) je pomemben princip izboljšanja lastnosti kritično obremenjenih komponent sistemov, saj se s tem postopkom vnesejo v material tlačne zaostale napetosti, ki pozitivno vplivajo na življenjsko dobo delov. V literaturi lahko zasledimo, da pri mikrokovanih avstenitnih jeklih lahko pride zaradi deformacij do transformacije avstenitne kristalne rešetke v martenzitno. Opažena je bila velika razlika med postopkoma klasičnega mikrokovanja z delci, za katerega literatura opisuje znatno količino nastalega martenzita, in laserskega mikrokovanja, pri katerem je možno martenzit le redko zaslediti. S pomočjo konstitutivnega modela, ki popisuje obnašanje avstenitnega nerjavnega jekla AISI 304 na makroskopskem nivoju je bila izvedena dinamska analiza obeh omenjenih vrst mikrokovanja v programskem okolju Abaqus. Iz opazovanih napetostnih stanj, zaostalih napetosti, nastalih plastičnih deformacij in nastale količine martenzita lahko sklepamo, da je glavni razlog za tako veliko razliko v trajanju obremenitve in velikosti deviatorja napetosti. Primerjane so bile tudi vrednosti določenih materialnih točk iz analize z analitično izračunanimi funkcijami za dano napetostno stanje, ki so pokazale zadovoljivo točnost simulacije.

Language:Slovenian
Keywords:martenzitna transformacija dinamika mikrokovanje (udarno utrjevanje) končni elementi zaostale napetosti nerjavna jekla
Work type:Master's thesis/paper
Organization:FS - Faculty of Mechanical Engineering
Year:2017
PID:20.500.12556/RUL-98459 This link opens in a new window
Publication date in RUL:02.12.2017
Views:1896
Downloads:794
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Secondary language

Language:English
Title:Numerical simulation of shot peening and laser shock peening
Abstract:
Peening is a major principle of improving the characteristics of critically loaded components of the systems. By this process we introduce into the material compressive residual stress, which has a positive influence on the life of parts. In the literature, it can be found that peened austenitic steel can transform some of its crystal lattice in into the martensitic. There is a big difference between the two procedures, conventional shot peening, for which the literature describes a substantial amount of martensite formed, and the laser shock peening in which it is rarely possible to observe martensite. With the help of a constitutive model that describes the behavior of austenitic stainless steel AISI 304 on a macroscopic level we ran an dynamic analysis of these two types of peening in Abaqus software environment. From observed stress field, the residual stresses, plastic deformation and the resulting amount of martensite can be concluded that the main reason for such a significant difference is in the duration of the load and in the stress deviator. We also compared the values for certain material points from the analysis to analiticly calculated functions for a given stress state, which showed satisfactory accuracy of the simulation.

Keywords:martensitic transformation dynamics peening finite elements residual stresses stainless steel

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