Mechanical Engineering ETDs
Publication Date
5-23-1961
Abstract
The primary purpose of this thesis was the solution of several special problems relating to the establishment, adjustment, and measurement of small elastic curvatures and the associated strains in a metal shaft. The solution of these problems was an important link in the development of a new type of seismometer for measuring extremely long periods with vibrations (up to 60 seconds). To achieve the sensitivity and long natural period of vibration required for accurate measurements of long-period waves, the seismometer employs a seismic mass which is suspended on an air film and constrained to follow an essentially horizontal guide rod. The guide rod, which was originally straight, is bowed elastically through use of a straining frame to form a plane curve which is concave upward. This combination of guidance and support forms a lightly damped gravity pendulum in which the seismic mass always seeks the lowest point on the curve. The natural period of this pendulum must be adjustable between the limits of 20 and 200 seconds to allow both ease of setup and high-fidelity performance. This is equivalent to saying that the guide-shaft radius of curvature must be adjustable from about 327 feet up to about 32,700 feet.
Degree Name
Mechanical Engineering
Level of Degree
Masters
Department Name
Mechanical Engineering
First Committee Member (Chair)
Richard Charles Dove
Second Committee Member
Frederick Dsuin Ju
Third Committee Member
Charles Theron Grace
Document Type
Thesis
Language
English
Recommended Citation
Wilkes, Donald F.. "The Control and Measurement of Minute Curvatures In a Steel Shaft." (1961). https://digitalrepository.unm.edu/me_etds/155