P5 & P7 Shutter Review February 8, 2005

1. P5 & P7 Shutter ReviewFebruary 8, 2005 P5 Shutters – ID Fixed Beam Stop and Integral Shutter Presented by P. Pedergnana and W. VanWingeren P7 Shutters – BM Fixed Beam Stop and Integral Shutter Presented by R. Monroe and J. Ullian

2. Acknowledgements • Thanks to the following people for contributing reference information • PNC-CAT personnel • Robert Gordon, Dale Brewe, Mike Pape • APS Staff • Mohan Ramanathan, Deming Shu, Joe Gagliano, Ali Mashayekhi, Dean Haeffner, Nena Moonier

3. Downstream of a double-crystal monochromator (DCM) DCM shifts mono beam 35 mm above white beam Located ~30 m from source Water-cooled fixed white beam stop Fixed Safety Stop Stop/collimator Constructed of tungsten Designed to stop Bremsstrahlung radiation Integral Shutters Double redundant mono shutters Tungsten construction Movable/capable of stopping or passing mono beam downstream P5 & P7 Common Characteristics

4. P5 Shutter Side View The fixed safety stop stops Bremsstrahlung radiation Mono Beam The fixed white beam stop takes the thermal load White Beam

5. Used in ID beamlines Fixed White Beam Stop Constructed of Glid-cop/copper material 3800 W maximum stopping power Optical aperture area: 80 mm (H) x 18 mm (V) Mask grazing incident angle: 4.5 degrees Used in BM beamlines Fixed White Beam Stop Constructed of copper material 1580 W maximum stopping power Optical aperture area: 120 mm (H) x 18 mm (V) Mask grazing incident angle: 90.0 degrees Shutter Differences P5 P7

6. P5 3-ID-A 6-ID-A 7-ID-B-MH-1 20-ID-A P5-70 1-ID-B P5 Inverted 10-ID-A 17-ID-A P5 Modified 5-ID-A 33-ID-C P7-20 8-BM-A P7-23 20-BM-A P7-30 33-BM-A P7-90 1-BM-B Shutter LocationsP5 Shutters P7 Shutters

7. P5 Shutter Located at 20-ID-A NOTE: The fixed safety stop and integral shutters have the same characteristics on both the P5 and the P7.

8. 1-ID-B Assembly of P5 • FIXED WHITE BEAM STOP • Water-cooled and constructed of Glid-cop/copper material • Maximum stopping power ~ 3,800 watts • Optical aperture area: 80mm (H) x 18 mm (V) • Mask grazing incident angle: 4.5 degrees

9. 20-ID-A Fixed Safety Stop • Stop/collimator (collimator being built in this picture) • Constructed of tungsten blocks, middle has slot for beam • Designed to stop Bremsstrahlung radiation

10. Assembly of P5 Shutter at 20-ID-A • NOTE: Photos taken prior to installation • General characteristics: • Double redundant mono shutters • 2 tungsten blocks attached to copper shafts • Movable/capable of stopping or passing mono beam downstream Bellows Copper mount Tungsten block One mono shutter in test stand (disassembled) Looking upstream through P5 integral shutters

11. P5 Inverted at 10-ID-A & 17-ID-A • Fixed white beam stop is inverted to stop white beam that travels above mono beam

12. P5 Modified at 5-ID-A White beam stop is located upstream of shutter, but fixed (Bremsstrahlung) stop is located downstream of integral shutters.

13. P7-20 Shutter Schematic

14. P7-90 White Beam Stop Schematic

15. 1-BM-B Assembly of P7 • FIXED WHITE BEAM STOP • Water-cooled and constructed of copper material • Maximum stopping power ~1,580 watts • Optical aperture area: 120 mm (H) x 18 mm (V) • Mask grazing incident angle: 90.0 degrees

16. P7-90 vs. Other P5 & P7 Shutters • Stops and shutters are on separate tables • Consists of a white beam stop and safety stop • Both are fixed to block white beam and pass mono beam • Typically followed by P8 double redundant mono beam shutters

17. P5 and P7 Shutter Failure Modes • Failure of bellows surrounding shaft, resulting in vacuum leaks • Example: recent repairs at 8-BM and 8-ID • Failure of cylinder cup seals, resulting in excess friction and/or air leaks • Due to improper lubrication or incompatible parts • All shutters are designed to fail safe • Piston has fixed stop to prevent tungsten block from dropping below beam path • Plate welded along bottom of shutter chamber in case of shaft breakage