Wyniki wyszukiwania - BazTech

Ograniczanie wyników

Znaleziono wyników: 2

Liczba wyników na stronie

Wyniki wyszukiwania

Sortuj według:

Ogranicz wyniki do:

Własności i struktura nanokrystalicznych warstw napawanych w odniesieniu do wybranych materiałów konstrukcyjnych odpornych na zużycie ścierne

Górka J., Czupryński A., Adamiak M., Kopyść A.

Welding Technology Review

2018

R. 90, nr 9

19--23

W pracy przedstawiono własności i strukturę warstw nanokrystalicznych wykonanych łukowo metodą MMA nanostopem na osnowie żelaza na podłożu ze stali S355N w porównaniu do wybranych materiałów konstrukcyjnych odpornych na ścieranie stosowanych obecnie w przemyśle. Uzyskane napoiny poddano badaniom metalograficznym makro i mikroskopowym, określono wielkość ziarna z wykorzystaniem dyfraktometru rentgenowskiego Xpert PRO X-rey. Oceny własności użytkowych uzyskanych warstw nanokrystalicznych w porównaniu do obecnie stosowanych materiałów dokonano w oparciu o pomiar twardości oraz badania zużycia ściernego typu metal-minerał. Wyniki własności eksploatacyjnych warstw odniesiono do własności stali HARDOX 400.

The present paper is the result of the investigations of the properties and structure of nanocrystalline layers deposited from iron-based nanoalloy on steel S355N substrate by manual metal arc welding method (MMA) compared to selected abrasion-resistant construction materials currently used in industry. The resultant deposit welds were subjected to macro and microscopic metallographic examination. Working properties of obtained nanocrystalline deposits weld compared to currently used materials were evaluated based on the hardness, abrasive wear of metal-to-mineral. The results of deposits weld working properties measurements were compared with property of wear resistant steel HARDOX 400 type used as reference material.

Microstructure and mechanical properties of the annealed 6060 aluminium alloy processed by ECAP method

Karoń M., Kopyść A., Adamiak M., Konieczny J.

Archives of Materials Science and Engineering

2016

Vol. 80, nr 1

31--36

Purpose: The main goal of this paper is to present the investigation results of microstructural evolution and mechanical properties changes in commercial EN AW 6060) aluminium alloy after intensive plastic deformation, obtained by equal channel angular pressing (ECAP) techniques in an annealed state. Design/methodology/approach: Annealing heat treatment was used to remove various types of internal stress in a commercially available alloy in order to increase workability of the material. The evolution of its properties and material behaviour was evaluated after 2,4,6,and 8 passes of the ECAP process. Findings: It was found that the mechanical properties and microstructure during intensive plastic deformation, such as that during the ECAP process, were changed. Plastic deformation refined grains in the aluminium alloy and increased its mechanical properties. Research limitations/implications: The presented study shows results of the investigated material in an annealed state. Practical implications: The applied processing route allows development of materials characterized by high strength and ultrafine grain microstructure compared to un-deformed annealed aluminium alloy. Originality/value: The work presents data about the influence of intensive plastic deformation on the microstructure and mechanical properties of 6060 aluminium alloy after annealing.