Computer analysis of gamma-gamma angular correlations of cascade gamma rays from radioactive elements

Chaikul, Narong

03 June 2011

A Fortran IV language computer program has been written by the author for the analysis of gamma-gamma directional correlations obtained using radioactive sources. In this program the multipole-mixing ratio parameter, A, for the mixed multipole transition in the cascade is varied and the theoretical correlation is calculated for one hundred fifty-seven values of the mixing ratio for each trial spin sequence. The normalized chi-square test, Q2, is used to compare the theoretical and experimental results.The study of the effect of the multipole-mixing ratio and the attenuation factors on gamma-gamma directional correlation shapes has been investigated forsequence sets. The study has been separated into two parts: first, the effect of the attenuation factors when the multipole-mixing ratio is fixed; second, the effect of the multipole-mixing ratio for fixed attenuation factors.The results show the smoothing effect of the attenuation factors on the correlation function and it is illustrated graphically. The effect of the multipole-mixing ratio on the correlation function, with is a quadratic function in S, is also shown graphically.Ball State UniversityMuncie, IN 47306

Angular correlations (Nuclear physics)

Ball State University. Thesis (M.S.)

Construction and use of a multidetector coincidence spectrometer for angular correlation measurements

Weeber, Winton L.

03 June 2011

A multi-detector spectrometer was constructed to measure garmia-gamma angular correlations in 154Gd from the decay of 154Eu. Gamma-ray multipole mixing ratios were extracted from the data. A modified fast-slow coincidence electronics arrangement with selective routing of data was used. One Ge(Li) detector and three NaI detectors were used in the system for rapid data acquisition. "Real-plus-random" and "random" coincidences were accumulated simultaneously with detectors set at selected angles. Mixing ratios for the first transition in the cascades of 1274-123--keV (2--2+-0+), 1005-123-keV (3+-2+-0+), and 723-996-keV (2--2+-O+) were measured as '5(1274) = 0.02 0.02, '5(1005) = -28+10' '5(723) = 0.02 0.02.'The measured correlation for the 592-1005 keV cascade (2--3+-2+) was analyzed by searching a 157 by 157 array of values for '5(592) and 8(1005); agreement was tested using a Q2 criterion. The best agreement for the mixing ratio of the 592-keV transition was 8(592) = 0.08 0:22; for the 1005-keV transition 8(1005) = -9.5+7. The value 8(1005) _ -9.5+7 is taken to be the better value as a result of experimental considerations. The value for the 592-keV transition had not been previously measured.Ball State UniversityMuncie, IN 47306

Spectrometer -- Design and construction.

Angular correlations (Nuclear physics)

Ball State University. Thesis (M.S.)

Total and angular cross-section for 15.8 GEV/C negative muons in nuclear emulsion

Guima, Ali M.

03 June 2011

Inelastic muon-nucleon interactions will be studied using the nuclear emulsion technique. The momentum of the primary muon beam is 15.8 GeV/C. Muons and other leptons of high energy make excellent probes to study mucleon structure. Muon beams of small contamination, using accelerators, became available in 1965, but the data is limited.In this experiment, we will scan several nuclear emulsion pellicles for muon-nucleon inelastic scatters and study the angular distribution of the scattered muon at 15.8 GeV/C. The results will be compared with previous data and also with the theoretical form factor predictions at this momentum.Ball State UniversityMuncie, IN 47306

Muons.

Angular momentum (Nuclear physics)

Scattering (Physics)

Ball State University. Thesis (M.S.)

Focus controlled image coding based on angular and depth perception / Fokusstyrd bildkodning baserad på vinkel och djup perception

Grangert, Oskar

January 2003

In normal image coding the image quality is the same in all parts of the image. When it is known where in the image a single viewer is focusing it is possible to lower the image quality in other parts of the image without lowering the perceived image quality. This master's thesis introduces a coding scheme based on depth perception where the quality of the parts of the image that correspond to out-of-focus scene objects is lowered to obtain data reduction. To obtain further data reduction the method is combined with angular perception coding where the quality is lowered in parts of the image corresponding to the peripheral visual field. It is concluded that depth perception coding can be done without lowering the perceived image quality and that the coding gain increases as the two methods are combined.

Technology

Image coding

Focus control

Angular percetion

Depth perception

DCT transform

TEKNIKVETENSKAP

TECHNOLOGY

TEKNIKVETENSKAP

The Effect of Dislocation Slip on Superplastic Behavior of AZ31 Magnesium Alloy

Chen, Kuan-Lun

13 July 2011

This thesis describes the effect of dislocation slip on superplastic deformation of AZ31 magnesium alloy. Through two different routes of ECAE (equal channel angular extrusion), two types of specimens having the same grain size but different texture were obtained. One is favorable for basal slip and the other is not. Under the same condition of deformation, the strain rate sensitivity and contribution of grain boundary sliding to total elongation in these two different specimens are almost the same. As for elongation, not much difference was found. The present results demonstrate that the relationship between dislocation slip and grain boundary sliding in superplastic AZ31 magnesium alloy is non-obvious.

grain boundary sliding

superplasticity

dislocation slip

texture

ECAE (equal channel angular extrusion)

Effect of Equal Channel Angular Extrusion on the Microstructure Evolution and Mechanical Properties of Al-15wt%Zn Alloy

Huang, Yi-Chia

01 August 2011

The deformation mechanism of an ultrafine grained (UFG) Al-Zn alloy has been studied. In this work, Al-15wt%Zn alloy was processed by equal channel angular extrusion (ECAE) route A at 100oC to achieve UFG structure. The deformation mechanism was studied by performing tensile test with various strain rates. Scanning electron microscopy and transmission electron microscopy were used to investigate the microstructure evolution in Al-15wt%Zn alloy with increasing ECAE passes. The observation indicated that the super saturated Al-Zn alloy would decompose and precipitate Zn particles during ECAE process. Increasing ECAE passes, the aluminum grain size was reduced, but the size of Zn particles was increased. However, the net effect of increasing ECAE passes is softening of this Al-Zn alloy. The tensile properties of the UFG Al-Zn alloy can be summarized as follows. (1)The UFG Al-Zn alloy possesses higher tensile strength and elongation as compared to commercial purity Al (AA1050). (2)The strain rate sensitivity of the UFG Al-Zn alloy increases significantly with increasing number of ECAE pass, which might be related to the refined aluminum grain size. After processed by 4-16 ECAE passes, the activation volume of the UFG Al-Zn alloy falls in the range of 25 b3~40 b3, which remains nearly constant value with increasing tensile strain. It is suggested that the controlling mechanism responsible for the tensile deformation of the UFG Al-Zn alloy might be related to a grain boundary mediated mechanism. (3)With increasing ECAE passes, the total tensile elongation of the UFG Al-Zn alloy increases but the uniform elongation show little change. This indicates that the increase in total elongation is mainly due to the contribution from an enhanced post-uniform elongation (PUE). It is suggested that the enhanced PUE might be related to the increase in strain rate sensitivity, which is resulted from the refinement of grain size. More detailed studies are needed to understand the deformation mechanism.

microstructure

strain rate sensitivity

activation volume

post-uniform elongation

equal channel angular extrusion

Al-Zn alloy

The Production and Deformation Behaviour of Ultrafine-Grained AZ31 Mg Alloy

Lee, Wen-Tu

31 August 2011

Ultrafine-grained(UFG) AZ31 Mg alloy was obtained by equal-channel angular extrusion(ECAE) and subsequent annealing at elevated temperatures. The basal texture component for ECAEed material is located on the Z plane of the ECAEed billets. Tensile tests were performed at temperatures between room temperature and 125¢J, and strain rates used ranging from 3*10-5 to 6*10-2 s-1. The experimental results showed that a high tensile yield stress of 394 MPa was obtained at room temperature under a strain rate of 3*10-3 s-1. Strengths of UFG AZ31 specimens were greatly improved due to grain refinement. It was found that strain rate sensitivity of UFG AZ31 alloy increased significantly from 0.024 to 0.321 with increasing temperature. The constant k of Hall-Petch equation, £m=£m0 +kd-1/2, decreased with increasing temperature, and decreasing strain rate. Negative k values were ontained at 75¢J and 100¢J under a strain rate 3*10-5 s-1. When compressed along X, Y and X45Z billet orientations, strain localization within shear bands was found in UFG AZ31 specimens. Shear bands are formed inclined near 45 to the compression axis. The smaller the grain size, the thinner the shear band. Different Hall-Petch constant k were found in specimens deformed along different orientations, which is caused by different deformation mechanisms. The formation of tension twins is the primary deformation mechanism for compressed X and Y samples, and basal slip is responsible for the deformation of X45Z sample. tension twins were found in 0.46 £gm grain size specimens.

Equal-channel angular extrusion(ECAE)

Grain refinement

Ultra-Fined Grain

Mg alloy

Shear Band

An Analysis of the Impact of Flexible Coupling Misalignment on Rotordynamics

Avendano Ovalle, Raul David

2010 August 1900

Misalignment in turbomachinery has been commonly known to produce twotimes- running-speed (2N) response. This project aimed to investigate the source of the 2N vibration response seen in misaligned vibrating machinery by simulating misalignment through a coupling. Three flexible disc-pack couplings (4-bolt, 6-bolt, and 8-bolt coupling) were modeled, and parallel and angular misalignments were simulated using a finite element program. The stiffness terms obtained from the coupling simulations had 1N, 2N, and 3N harmonic components. The 4-bolt coupling had large 1N reaction components under angular and parallel misalignment. The 6-bolt coupling model only had a 1N reaction component under angular misalignment, and both cases of parallel misalignment showed a strong 2N reaction component, larger than both the 1N and 3N components. The 8-bolt coupling model under angular misalignment produced large 1N reaction components. Under parallel misalignment, it produced 1N, 2N, and 3N components that were similar in magnitude. All the couplings behaved linearly in the range studied. A simple model predicted that the 2N frequency seen in the response is caused by the harmonic (1N) term in the stiffness. The amplitude of the 2N component in the response depends on the amplitude of the 1N term in the stiffness compared to the average value of the stiffness and the frequency ratio. The rotordynamic response of a parallel and angular misaligned system was completed in XLTRC2. When the frequency ratio was 0.5, the system response with the 4-bolt and 6-bolt coupling had a synchronous 1N component that was much larger than the 2N component. The response did not have a 2N component when the 8-bolt coupling was used but the response did have a 1.6N component that was considerably larger than the 1N component. When the frequency ratio was 2, the system response with the 4-bolt and 6-bolt coupling had a synchronous 1N component and a relatively small ½ frequency component. The response with the 8-bolt coupling had a 0.4N component that was larger than the 1N component. A 5-tilting pad journal bearing was also tested to better understand its behavior under misalignment because some experts attribute the 2N response to the nonlinear forces produced by bearings with high unit loads. The response of the 5-tilting pad bearing did not produce any 2N components while the bearing was subjected to unit loads of up to 34.5 bars.

Flexible Couplings

Disc-pack Couplings

Rotordynamics

Misalignment

Vibrations

Parallel Misalignment

Angular Misalignment

Two-time (2N) response

Influence of Deformation Temperature on the Microstructure Development in Al-Mg Alloy Processed by Equal Channel Angular Extrusion

Shen, Shin-yan

02 August 2005

none

Equal Channel Angular Extrusion

high angle grain boundary

misorientation angle

lamellar structure

Computer-Aided Design for High Speed Spindle System with Angular Contact Ball Bearing

Lin, Jui-De

02 July 2002

The aim of this thesis is to develop a Computer-aided Design software for high speed angular contact ball bearing system. First, to analyze the interaction of among the characteristics and parameters of a high-speed spindle system with angular contact ball bearing. These analyses were based on the kinematics of bearing systems and rotor dynamics. According to these analyses, several design charts for bearing system will be established by computer simulations. Secondly, an optimum design for high speed spindle system will also be proposed. After these analyses, an Computer-Aided Design software for high speed bearing system will be established. From the study, preliminary design trends about high speed spindle system will be proposed.

high speed spindle

computer-aided design

optimal design

design chart

Angular Contact Ball Bearing