Abstract: A method for connecting a tail end portion of a reinforcing fiber bundle of a preceding wound body to a front end portion of a reinforcing fiber bundle unwound from a new wound body by blowing pressurized air to both of the ends to unravel and entwine both of the reinforcing fiber bundles, wherein the method includes a preparation step for adjusting the amount of a sizing agent contained in the front end of the reinforcing fiber bundle unwound from the new wound body and the tail end of the preceding wound body to not less than 0 wt % and not more than 4 wt %, and the reinforcing fiber bundles are connected after the preparation step.
Abstract: To provide an aluminum alloy or aluminum member having an anodic oxide coating formed thereon, the coating having excellent resistance to gaseous corrosion and resistance to plasma and excellent adhesion, and a member for a vacuum apparatus formed of such an aluminum alloy or aluminum member having excellent corrosion resistance. Moreover, a member having a sufficient voltage resistance is provided to stably keep a plasma state in a process using plasma. The object is substantialized by providing the following: (1) An aluminum alloy or aluminum member, wherein the anodic oxide coating has impedance of at least 107? at a frequency of 10?2 Hz, and hardness of at least 400 in Vickers hardness (Hv); or (2) An aluminum alloy or aluminum member, wherein the anodic oxide coating has impedance of at least 108? at a frequency of 10?2 Hz, and hardness of at least 350 in Vickers hardness (Hv).
Abstract: The invention relates to an Ag alloy reflective film for an optical information recording medium, including Ag as a main component, at least one kind of Nd, Gd, Y and Sm in a total amount of more than 0.1 atomic percent and not more than 3.0 atomic percent and at least one kind of W, Mo, V, Zr, Nb and Cr in a total amount of 3.0 to 10.0 atomic percent; an Ag alloy reflective film for an optical information recording medium, including Ag as a main component, at least one kind of Nd, Gd, Y and Sm in a total amount of more than 0.1 atomic percent and not more than 3.0 atomic percent and at least one kind of Ti and Ta in a total amount of 5.0 to 10.0 atomic percent; an optical information recording medium including the Ag alloy reflective film; and an Ag alloy sputtering target having a composition same as that of the Ag alloy reflective film.
Type:
Application
Filed:
December 19, 2006
Publication date:
June 21, 2007
Applicants:
SONY CORPORATION, KABUSHIKI KAISHA KOBE SEIKO (Kobe Steel, Ltd.)
Inventors:
Jun Nakano, Tetsuhiro Sakamoto, Junichi Nakai, Yuki Tauchi