Failure mechanisms in VLSI bonds subjected to mechanical and environmental stresses

Maguire, Dawn Laurel

05 1900

No description available.

Strength of materials

Materials Fatigue

The effect of surface modification by ion implantation on the fatigue behavior in metastable B-phase Ti-24V alloy

Han, Jeon Geon

12 1900

No description available.

Alloys Fatigue

Ion implantation

Compression behavior of linear cellular steel

Hayes, Alethea M.

08 1900

No description available.

Alloys Fatigue

Honeycomb structures

The effect of weight and weight distribution on upper extremity muscular fatigue during static rifle aiming

SELINGER, JESSICA

08 June 2010

Modern weapon-mounted technologies, such as novel sighting devices, detachable grenade launchers, and telescopic butt stocks, add considerable weight to weapons and alter the center of mass (COM). Currently, few objective studies have investigated the effects of these alterations on soldiers’ rifle handling. The purpose of this study was to examine the effect of weight and weight distribution on upper extremity muscular fatigue during static rifle aiming. Custom testing rigs were designed to allow the weight and COM of the in-service C7A2 assault rifle to be altered using supplementary weights and an adjustable rail system. Seven rifle configurations, each of which represented the weight and COM of a potential future design, were assessed. Soldiers performed static rifle holds with each of the rifle configurations. Upper extremity muscle activity was monitored using surface electromyography (EMG) and a subjective scale of perceived exertion. Dependent measures included muscular activity level (integrated EMG), rate of muscular fatigue (slope of the median power frequency), and subjective ratings of perceived exertion (Borg CR10 scale). The body areas exhibiting the most muscular strain throughout testing were also subjectively assessed using a body map. The results revealed that the muscle activation levels of the supporting arm were substantially greater (>30% increase) when the COM was shifted forward 7cm. This objective finding was supported by the soldiers’ subjective perceptions of muscle effort. Conversely, muscle activity levels did not make evident the effects of added weight; although this may have been largely due to the fact that muscle activity from the lower back was not captured. Rates of muscle fatigue were found to be greater in the anterior deltoid than other extremity muscles and fatigue levels were greater in the supporting arm than the trigger arm. However, using rates of fatigue it was not possible to differentiate between weight conditions and COM positions. Despite the limitations of this study, it has provided a starting point toward developing a standardized protocol for assessing muscular demands during rifle aiming. / Thesis (Master, Kinesiology & Health Studies) -- Queen's University, 2009-09-18 10:24:26.909

Electromyography

Fatigue

Rifle

Stress Concentration in Built-Up Steel Members

Wokem, Christian

Unknown Date

No description available.

Stress concentration, fatigue

Fatigue behaviour of a barely visible impact damaged carbon fibre reinforced epoxy laminate

Komus, Alastair

19 January 2011

Composite materials have high in-plane mechanical properties, but are susceptible to out-of-plane impact damage. The use of non-destructive evaluation techniques, combined with mechanical testing, was investigated to characterize the progression of post-impact static and fatigue damage of composite laminates. Quasi-isotropic carbon/epoxy specimens were impacted at energy levels of 35 J and 50 J. The initial damage was characterized using ultrasonic C-scan and thermography. Residual strength testing revealed that the compressive static strength of the test specimens was reduced by over 50%. Digital image correlation was used to characterize the growth of damage and the local strain during compression-compression fatigue tests. Initially, no significant statistical trend could be measured when the fatigue data was plotted as a stress-life curve. When stress concentration factors were used to calculate and plot the local stress amplitude, a correlation with fatigue life was observed. The undamaged fatigue data was altered using damage factors which allowed for post-impact fatigue life predictions.

Fatigue

Composite

Impact

Investigation of the effect of microstructure and texture on the fatigue properties and deformation modes of an alpha + beta titanium alloy, Ti-6Al-2Nb-1Ta-0.8Mo by Donald Shengduen Shih.

Shih, Donald Shengduen

08 1900

No description available.

Alloys Fatigue

Microstructure

The effect of temperature, microstructure and stress state on the low cycle fatigue behavior of waspaloy

Stahl, Douglas Ray

12 1900

No description available.

Materials Fatigue

Microstructure

Metallography

Low cycle fatigue of modified 9Cr-1Mo weldments

Payne, R. Kelly

05 1900

No description available.

Welded joints Fatigue

Crack propagation in high chromium white cast iron

Crepeau, Paul Noles

12 1900

No description available.

Iron Fatigue

Metallography