Title :
The design, construction and testing of a multipole wiggler magnet titanium vacuum chamber for the SRS
Author :
Bliss, N. ; Dawson, C.L.
Author_Institution :
CLRC, SERC Daresbury Lab., Warrington, UK
Abstract :
A vacuum chamber is required for two new insertion devices (IDs) at the SRS. The chamber has been designed, finite element analysis performed, and a prototype constructed and successfully tested. The chamber is 1208 mm in length, it has an internal aperture of 134 mm×16 mm and a minimum wall thickness of 1 mm. The chamber has been precision machined in two halves from titanium alloy and electron beam (EB) welded in order to meet the demanding tolerances. Titanium alloy was selected in preference to more conventional ultra high vacuum (UHV) materials, due to its electron beam weldability, low distortion and outgassing rates. The design, construction and processing has been conducted to UHV standards to achieve a working pressure of 1×10 -9 mbar
Keywords :
X-ray production; accelerator magnets; electromagnets; electron accelerators; finite element analysis; storage rings; titanium; vacuum apparatus; wigglers; 1 mm; 1208 mm; 134 mm; 16 mm; 1E-9 mbar; SRS; Synchrotron Radiation Source; Ti; UHV system; finite element analysis; insertion devices; multipole wiggler magnet Ti vacuum chamber; ultrahigh vacuum system; Electron beams; Finite element methods; Intrusion detection; Magnetic analysis; Performance analysis; Performance evaluation; Testing; Titanium alloys; Undulators; Welding;
Conference_Titel :
Particle Accelerator Conference, 1997. Proceedings of the 1997
Conference_Location :
Vancouver, BC
Print_ISBN :
0-7803-4376-X
DOI :
10.1109/PAC.1997.753286
