For the Al-5.0Cu-0.8Mg alloy fabricated by gravity casting, the 12h natural aging was added between the solution and artificial aging to study its influence on the microstructure and mechanical properties. The transitional phases form during the natural aging following the solution, leading to a significant increase in microhardness. Meanwhile, this microstructure variation accelerates the formation and growth of stable strengthening phases in the same artificial aging. Unfortunately, the 12 h natural aging added in this work excessively coarsens the precipitation, which results in the mechanical properties reduction including ultimate stress from 332 MPa to 302 MPa, especially the elongation from 8.1% to 3.7%. The results indicate that exploring the favorable match of natural and artificial aging is significant to further finely control the precipitation characteristic, which contributes to better mechanical properties of the Al-Cu-Mg alloy.
2016),"Study of grease lubricated journal bearing with partial surface texture", Industrial Lubrication and Tribology, Vol. 68 Iss 2 pp. 149-157 http://dx.(2016),"The tribological properties of carbon fiber reinforced polyimide matrix composites under distilled water condition", Industrial Lubrication and Tribology, Vol. 68 Iss 2 pp. 212-219 http://dx.If you would like to write for this, or any other Emerald publication, then please use our Emerald for Authors service information about how to choose which publication to write for and submission guidelines are available for all. Please visit www.emeraldinsight.com/authors for more information. About Emerald www.emeraldinsight.comEmerald is a global publisher linking research and practice to the benefit of society. The company manages a portfolio of more than 290 journals and over 2,350 books and book series volumes, as well as providing an extensive range of online products and additional customer resources and services.Emerald is both COUNTER 4 and TRANSFER compliant. The organization is a partner of the Committee on Publication Ethics (COPE) and also works with Portico and the LOCKSS initiative for digital archive preservation. AbstractPurpose -The cutting and extruding processing technology for ceramics based on the edge-chipping effect is a new contact removal machining method for hard, brittle materials such as engineering ceramics. This paper aims to provide an important reference to understand the tool wear mechanism and the wear law of this new processing technology. Design/methodology/approach -The real-time temperature monitoring and the observation of micro-morphology are used to analyse the wear characteristics of the tool face. In addition, the research focuses on the influence of three processing parameters (axial feed rate, thickness of flange and depth of groove) on characteristics including tool wear.Findings -The temperature variation shows that the new processing technology improves the tool temperatures condition. The tool is worn mainly by mechanical friction including abrasive wear, and the flank face also suffers the sustained scratching of residual materials on the rough machining surface. With increased feed rate, the wear of the rear face of the major flank initially decreased and then increased. As the depth of the retained flange increases, the wear became worse. The wear initially decreased and then increased with increasing depth of groove. Research limitations/implications -Study on the new processing technology is still in its early stages. Therefore, researchers are encouraged to test the proposed propositions further. Practical implications -The machining process itself destroys materials, albeit a controllable manner: based on this principle, the authors proposed a new machining technology based on cracks driven by edge chipping. In this way, the surface of such ceramics is removed. Therefore, the research provides a new method for reducing processing costs and promoting the extensive application of engineering ceramic materials....
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.