000041816 000__ 01962cam\a22002535i\4500
000041816 001__ 41816
000041816 003__ SzGeWIPO
000041816 005__ 20240708145759.0
000041816 008__ 200615s2020\\\\sz\\\\\\r\\\\\000\0\eng\d
000041816 022__ $$a1873-4197
000041816 040__ $$aSzGeWIPO$$beng$$erda
000041816 041__ $$aeng
000041816 1001_ $$aChen, Chih-Yuan
000041816 1001_ $$aLiao, Meng-Hsuan
000041816 24503 $$aSynergistic effects of carbon content and Ti/Mo ratio on precipitation behavior of HSLA steel :$$bInsights from experiment and critical patent analysis
000041816 264_1 $$aAmsterdam, Netherlands :$$bElsevier,$$c2020.
000041816 300__ $$a12 pages
000041816 336__ $$atext$$btxt$$2rdacontent
000041816 337__ $$aunmediated$$bn$$2rdamedia
000041816 338__ $$avolume$$bnc$$2rdacarrier
000041816 500__ $$aThis resource was extracted from the Directory of Open Access Journals (DOAJ)
000041816 520__ $$aA one-step heat treatment comprising isothermal holding in the two-phase region for different time periods and subsequent quenching contributed to the development of a ferrite and martensite dual-phase structure in Ti-Mo microalloyed steels with different carbon and microalloying element contents. Irrespective of the Ti/Mo atomic ratio, a dual precipitate morphology, namely interphase precipitation and random precipitation, was found in the ferrite matrix. Furthermore, under the fixed carbon content, harder ferrite grains were obtained in the steel with a high [Ti]/[Mo] atomic ratio. This could be explained by the fact that a large volume fraction of tiny-sized carbides formed within the ferrite matrix when the [Ti]/[Mo] atomic ratio was increased. In addition, several microalloyed steels with different [Ti]/[Mo] atomic ratios listed in highly-cited patents were also retrieved and analyzed to support the above deduction. Keywords: Steel, Precipitation, TEM, Ti/Mo, Microhardness, Patent analysis
000041816 525__ $$aPublished in : Materials & Design (2020).
000041816 650_0 $$aTechnology$$xElectrical engineering
000041816 650_0 $$aElectronics
000041816 650_0 $$aNuclear engineering$$xMaterials of engineering and construction
000041816 650_0 $$aLayout design of integrated circuits
000041816 650_0 $$aMechanics of materials
000041816 85641 $$uhttps://doaj.org/article/3a3a7ac4b61d4e6ab3d6b9c62d261d57$$yView this resource
000041816 904__ $$aJournal article
000041816 980__ $$aBIB