| Paper |
Title |
Page |
| TUPD034 |
Review of the Mechanical Engineering Challenges Associated with the SNS Power Ramp Up
|
1500 |
| |
- G. R. Murdoch, D. W. Crisp, M. Holding, P. Ladd, K. G. Potter, R. T. Roseberry
ORNL, Oak Ridge, Tennessee
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| |
Since commissioning of the SNS in April 2006 the beam power has been steadily increasing towards the design intensity of 1.4 MW. Several areas of the accelerator have been shown to require modifications, upgrades or new designs of mechanical equipment to support the power ramp schedule. This paper presents mechanical engineering design work implemented since initial commissioning along with a review of current projects and discussion of mechanical engineering issues being addressed that are a direct result of design decisions made early in the project.
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| TUPD037 |
Design and Development of Intercepting Devices at the Spallation Neutron Source
|
1508 |
| |
- R. T. Roseberry, S. Assadi, D. W. Crisp, K. R. Gawne
ORNL, Oak Ridge, Tennessee
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Beam measurements in the LINAC and transport lines of the Spallation Neutron Source at Oak Ridge National Laboratory utilize a variety of intercepting instruments such as in-line emittance systems, wire scanners, scrapers and scintillation view screens. All of these devices require linear actuators with vacuum feedthroughs. The majority of the actuators acquired during the construction phase of the SNS were of commercial origin and have proven unable to meet long-term physics and engineering requirements. The predominant difficulties with these devices were lack of precision, reliability and longevity. Three new families of linear actuators have been developed at the SNS to address these deficiencies. The approach used in their development, has been to utilize a combination of commercially available linear motion components in custom built chassis to address the needs of a given set of applications. This approach has yielded devices that have met or exceeded expectations for accuracy, precision, radiation resistance, longevity and economy. Aspects of the underlying design of these actuators and their implementation will be presented at this conference.
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