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Wear patterns and laws of wear - A review

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PL
Formy zużycia i prawa zużycia: przegląd
Języki publikacji
EN
Abstrakty
EN
Wear is a process of gradual removal of a material from surfaces of solids subject to contact and sliding. Damages of contact surfaces are results of wear. They can have various patterns (abrasion, fatigue, ploughing, corrugation, erosion and cavitation). The results of abrasive wear are identified as irreversible changes in body contours and as evolutions of gaps between contacting solids. The wear depth profile of a surface is a useful measure of the removed material. The definition of the gap between contacting bodies takes into account deformations of bodies and evolutions of wear profiles. The wear depth can be estimated with the aid of wear laws. Derived in this study, constitutive equations of anisotropic wear are extensions of the Archard law of wear. The equations describe abrasion of materials with microstructures. The illustrative example demonstrates calculations of the abraded mass and temperatures in pin-on-disc test rig.
PL
Zużycie jest to stopniowe usuwanie materiału z powierzchni stykających i ślizgających się ciał stałych. Następstwem zużycia są uszkodzenia powierzchni styku. Mogą one przyjmować różną formę (ścierania, zmęczenia, bruzdowania, korugacji, erozji i kawitacji ) Konsekwencjami procesu zużycia ściernego są nieodwracalne zmiany kształtów ciał oraz powiększanie luzów (szczelin) między stykającymi się ciałami. Użyteczną miarą usuniętego materiału jest profil głębokości zużycia powierzchni. Definicja luzu między stykającymi się ciałami uwzględnia odkształcenia ciał oraz ewolucję profili zużycia. Głębokość zużycia może być oszacowana z pomocą praw zużycia. Wyprowadzone w niniejszej pracy równania konstytutywne anizotropowego zużycia są rozszerzeniem prawa zużycia Archarda. Opisują one ścieranie materiałów z mikrostrukturą. W przykładzie ilustracyjnym obliczono ubytek masy i temperaturę w stanowisku doświadczalnym typu pin-on-disc.
Słowa kluczowe
Rocznik
Strony
219--253
Opis fizyczny
Bibliogr.103 poz., rys., tab.
Twórcy
  • Institute of Fluid-Flow Machinery, Polish Academy of Sciences, Gdańsk, azmit@imp.gda.pl
Bibliografia
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