Title :
Vacuum chamber of the injector synchrotron for the Advanced Photon Source
Author :
Benaroya, R. ; Dortwegt, R.
Author_Institution :
Argonne Nat. Lab., IL, USA
Abstract :
The 40 chambers of the 368-m, 7-GeV injector synchrotron of the Advanced Photon Source are made from 1-mm-thick, 316LN stainless steel tubing. Tubes are cold-drawn to an elliptical shape with inside major and minor axes of 6 cm and 3.7 cm, respectively. This results in a thin metallic chamber without corrugations, which allows maximum beam space in the magnets and withstands atmospheric pressure. Sections of the chamber are bent to match the radius of curvature (33.3 m) of the beam over the entire effective length of the dipole magnets. A modified orbital welder is used to join sections of tubing. The chambers and the pumping system required to achieve a pressure of 10/sup -9/ Torr are described. A straight section of chamber tubing was tested under external pressure up to 60 psig. At 15 psig, the resulting deflection at the minor half axis was 0.2 mm and a maximum compressive stress of 13500 psi was measured. Tube deformation remained in the elastic region up to approximately 38 psig.<>
Keywords :
beam handling equipment; storage rings; synchrotrons; vacuum apparatus; 316LN stainless steel tubing; Advanced Photon Source; atmospheric pressure; chamber tubing; dipole magnets; elastic tube deformation; elliptical shape; injector synchrotron; maximum beam space; maximum compressive stress; metallic chamber; modified orbital welder; radius of curvature; Compressive stress; Extraterrestrial measurements; Magnets; Pressure measurement; Shape; Steel; Stress measurement; Synchrotrons; Testing; Welding;
Conference_Titel :
Particle Accelerator Conference, 1991. Accelerator Science and Technology., Conference Record of the 1991 IEEE
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-0135-8
DOI :
10.1109/PAC.1991.164938
