Patent assignee · US · COMPANY

Marko Materials, Inc.

13Patents
0Active
13Granted
32Portfolio score

Filing activity: Nov 19, 1979 → Jul 12, 1982

Most-cited patents

PatentTitleAreaCited byStatus
US4297135A High strength iron, nickel and cobalt base crystalline alloys with ultrafine dispersion of borides and carbides Performing Operations; Transporting 69 Expired
US4347076A Aluminum-transition metal alloys made using rapidly solidified powers and method Chemistry; Metallurgy 68 Expired
US4318733A Tool steels which contain boron and have been processed using a rapid solidification process and method Emerging Cross-Sectional Technologies 26 Expired
US4359352A Nickel base superalloys which contain boron and have been processed by a rapid solidification process Emerging Cross-Sectional Technologies 25 Expired
US4410490A Nickel and cobalt alloys which contain tungsten aand carbon and have been processed by rapid solidification process and method Chemistry; Metallurgy 13 Expired
US4362553A Tool steels which contain boron and have been processed using a rapid solidification process and method Chemistry; Metallurgy 8 Expired
US4379720A Nickel-aluminum-boron powders prepared by a rapid solidification process Chemistry; Metallurgy 8 Expired
US4405368A Iron-aluminum alloys containing boron which have been processed by rapid solidification process and method Emerging Cross-Sectional Technologies 7 Expired
US4395464A Copper base alloys made using rapidly solidified powders and method Emerging Cross-Sectional Technologies 6 Expired
US4402745A New iron-aluminum-copper alloys which contain boron and have been processed by rapid solidification process and method Chemistry; Metallurgy 6 Expired
US4404028A Nickel base alloys which contain boron and have been processed by rapid solidification process Chemistry; Metallurgy 4 Expired
US4430115A Boron stainless steel powder and rapid solidification method Chemistry; Metallurgy 2 Expired
US4400212A Cobalt-chromium alloys which contain carbon and have been processed by rapid solidification process and method Chemistry; Metallurgy 1 Expired

Source: USPTO / EPO open patent data. Counts and citation impact are objective bibliographic measures.