987 resultados para Steel Strike, U.S., 1959.
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Mode of access: Internet.
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George W. Taylor, chairman.
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Pt. 1. Analysis of the Interchurch World Movement Report on the steel strike -- pt. 2. History of the Interchurch Report on the steel strike.
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Cover title.
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The title page for Part 2 says "S. Res. 188, Instructing the Committee on Education and Labor of the United States Senate to investigatethe strike of the employees of the steel mills of the United States, and so forth and S. Res. 202, authorizing the Committee on Education and Labor, in its investigation of the steel strike, to hold hearings, to employ a stenographer, to require the attendance of witnesses and the production of papers, documents, and so forth, and prescribing penalties for the refusal of witnesses to attend or answer questions."
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"Reprinted from Bibliotheca Sacra, January, 1902"-- Verso of t.p.
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Back Row: adviser Ed Gagnier, Richard Montpetit, Nino Marion, Barry Feinberg, co-captain Jim Hayslett, Wolfgang Dozauer, coach Newt Loken
Front Row: Dick Kimball, Frank Newman, Charles Clarkson, Ed Cole
\Not in picture, Jim Brown, Bill Skinner
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"Prepared by Dr. Ajay K. Sanghi and Mr. Charles A. Burbridge, with the assistance of Mr. Russell E. Baldwin."
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Back Row: Donald Deskins, Rudd VanDyne, William Tunnicliff, Gary Kane, Scott Maentz, Reid Bushong, Willard Hildebrand, Gary McNitt
4th Row: Paul Raeder, James Zubkus, John Stamos, Thomas Jobson, William Stine, James Korowin, Kenneth Tureaud, Bennie McRae, Paul Palmer, Dennis Fitzgerald, Jim Hunt (Trainer)
3rd Row: John Jabe (Manager), Todd Grant, Benjamin Hall, Louis Pavloff, Donald Hannah, Harry Newman, Paul Poulos, Jon Schopf, Keith Cowan, Stephen Stieler
2nd Row: James McPherson, Thomas DeMassa, Michael Fillichio, Jerry Leith, Fred Julian, Anthony Rio, Brad Myers, Darrell Harper, Guy Curtis
Front Row: B. Johnson, Stan Noskin, Jared Bushong, H. O. Crisler (director of athletics), George Genyk, Chalmers Elliott (Head Football Coach), Alex Callahan, Gerald Smith, John Halstead
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[l-r: head coach Chalmers "Bump Elliott", Don Dufek, Henry Fonde, Jack Nelson, Bob Hollway, Jack Fouts]
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Top Row: Nick Liakonis, Richard Syring, Bill Roman, John Halstead
Middle Row: student mngr Bob Davidson, Dave Brown, George Fead, Joseph Brefeld, John Mogk, Barry Marshall, Gene Struczewski, asst. coach Moby Benedict
Front Row: Bob Marcereau, Wilbur Franklin, Bob Stabrylla, coach Don Lund James Dickey, Bob Kucher, Gordon Rinkey
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Robert M. LaFollette, Jr., chairman of subcommittee.
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Many timber structures may require strengthening due to either decay and aging or an increase of load. This paper presents an experimental study in which eleven timber beams were tested, including three unstrengthened reference beams and eight beams strengthened with NSM CFRP bars. The test parameters include the position of NSM (tensile face or the bottom of the sides), the number of CFRP bars (1 or 2), and additional anchorage of NSM CFRP bars (steel wire U anchors or CFRP U strips). The test results show that the ultimate flexural strength of the timber beams were increased by 14%∼85% with an average of 47% due to NSM CFRP bar strengthening. Their deflection corresponding to the peak load was increased by 33% in average.
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Several machining processes have been created and improved in order to achieve the best results ever accomplished in hard and difficult to machine materials. Some of these abrasive manufacturing processes emerging on the science frontier can be defined as ultra-precision grinding. For finishing flat surfaces, researchers have been putting together the main advantages of traditional abrasive processes such as face grinding with constant pressure, fixed abrasives for two-body removal mechanism, total contact of the part with the tool, and lapping kinematics as well as some specific operations to keep grinding wheel sharpness and form. In the present work, both U d-lap grinding process and its machine tool were studied aiming nanometric finishing on flat metallic surfaces. Such hypothesis was investigated on AISI 420 stainless steel workpieces U d-lap ground with different values of overlap factor on dressing (Ud=1, 3, and 5) and grit sizes of conventional grinding wheels (silicon carbide (SiC)=#800, #600, and #300) applying a new machine tool especially designed and built for such finishing. The best results, obtained after 10 min of machining, were average surface roughness (Ra) of 1.92 nm, 1.19-μm flatness deviation of 25.4-mm-diameter workpieces, and mirrored surface finishing. Given the surface quality achieved, the U d-lap grinding process can be included among the ultra-precision abrasive processes and, depending on the application, the chaining steps of grinding, lapping, and polishing can be replaced by the proposed abrasive process.
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Cover title.
