Šroubové spojení turbínového kola s hřídelem turbodmychadla / Design of thread connection of turbocharger turbine wheel and rotor shaft

Oboňa, Matúš

January 2020

This diploma thesis is focused on the concept of threaded connection of the turbine wheel and shaft. At the beginning are described current welding methods of the turbine wheel and shaft connections as well as methods of the compressor wheel and shaft connections. Four possible concepts were designed and evaluated, and the best concept was chosen. For this concept was calculated tightening torque and concept was evaluated in terms of turbocharger operating conditions.

Omnidirectional Mobile Mechanisms and Integrated Motor Mechanisms for Wheeled Locomotion Devices / 車輪式移動装置用の全方向移動機構と統合型モータ機構の研究

Terakawa, Tatsuro

25 March 2019

付記する学位プログラム名: デザイン学大学院連携プログラム / 京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21755号 / 工博第4572号 / 新制||工||1713(附属図書館) / 京都大学大学院工学研究科機械理工学専攻 / (主査)教授 小森 雅晴, 教授 松野 文俊, 教授 松原 厚 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

wheel

motor

omnidirectional mobile mechanism

mechanism

kinematics

500

The Cannabinoid System Regulates Circadian Clock Function

Niepokny, Timothy Douglas

07 June 2023

No description available.

Neurobiology

Circadian Rhythms

Endocannabinoids

Wheel-running

Sex-differences

Investigation of Factors Influencing Design and Performance of Soil Cement Pavement Layers

Anderson, Brennan Kenneth

11 May 2013

Soil cement has been used as a means of stabilizing highway pavement layers, airport pavement layers, embankments, and foundations for decades. The technology uses a compacted mixture of soil, cement, and water to form a hardened material layer that has specific strength and durability properties. Even after decades of utilization, however, design of soil cement pavement layers has room for enhancement. This thesis investigates factors that influence the design and performance of cement stabilized pavement layers in Mississippi. A survey was conducted to collect information about soil cement design procedures from across the U.S. The factors examined in the laboratory investigation are strength gain with time, unconfined compressive strength variability, elastic modulus, and wheel tracking. More than 1,100 specimens were tested to determine the influence of these factors on the design and performance of soil cement pavement layers.

performance

design

wheel tracking

elastic modulus

compressive strength

soil cement

Energy Optimization of an In-Wheel-Motor Electric Ground Vehicle over a Given Terrain with Considerations of Various Traffic Elements

Wiet, Christopher J.

28 August 2014

No description available.

Mechanical Engineering

Development of a Traction Control System for a Parallel-Series PHEV

Hyde, Amanda N.

01 August 2014

No description available.

Mechanical Engineering

Exploring the Properties of Host-[2]Rotaxanes: From Intracellular Delivery to Molecular Machinery

DIALLO, MAMADOU CHERIF

25 August 2008

No description available.

Chemistry

rotaxanes

intracellular delivery

wheel release

antibody

sensors

A Pneumatic Sensor for Grinding Wheel Condition Monitoring

Tanaka, Kevin M.

31 July 2014

<p>Changes to the surface condition of a grinding wheel caused by excessive wear can result in geometric inaccuracy and severe thermal damage to a workpiece. As a precision metal removal process, grinding is typically a finishing operation and such errors are costly in both materials and lost time. Unfortunately grinding wheel performance is difficult to predict, and workpiece damage is commonly prevented by frequent dressing of the wheel surface. However, such over dressing is also costly in unnecessary machine down time and consumption of the grinding wheel. Monitoring systems have been developed in an effort to prevent damage to the workpiece and unnecessary dressing, but various difficulties have prevented any single system from achieving widespread application.</p> <p>The following body of research focuses on the investigation and development of a pneumatic sensor for monitoring the surface condition of a grinding wheel. These sensors are relatively simple, robust and inexpensive, and well suited to in situ applications. While these sensors are traditionally used to measure displacement of static or quasi-static surfaces, research into dynamic applications has shown they can detect the features or topography of a moving surface. Inspired by these developments, a monitoring method employing both the static and dynamic measurement capabilities of the sensor is proposed with applications to both metal-bonded and vitrified grinding wheels.</p> / Master of Applied Science (MASc)

wheel wear

dressing

vitrified

diamond abrasive

surface condition

Manufacturing

Manufacturing

Statistical Characterization of Vehicle and Track Interaction Using Rail Vehicle Response and Track Geometry Measurements

White, Darris L.

14 July 1998

This study evaluates the dynamic interaction between rail vehicles and the track on which they travel. The measurements were analyzed in the time and frequency domain. The effects of external parameters such as the vehicle design, subgrade stiffness, and degree of curvature were analyzed and compared for both the vehicle response and the track geometry data. This study was conducted in close cooperation with the Transportation Technology Center, Inc. (TTCI) in Pueblo, Colorado. The track and vehicle response data was collected on the High Tonnage Loop at TTCI over a span of approximately ten years. For the purpose of this study, TTCI provided this data to the Advanced Vehicle Dynamics Laboratories (AVDL) at Virginia Tech. The analysis of the data was first completed for the vehicle response and track geometry measurements separately. In this manner, the effects of the subgrade stiffness, the degree of curvature, and the vehicle design could be evaluated for each of the measurements. The analysis of the track and rail vehicle response was successfully completed, and the results from this analysis are presented in the following chapters. The analysis showed that the subgrade stiffness had a significant effect on the vertical wheel loads, the track crosslevel, and the track gauge. For an increase in the degree of curvature, the variation of the crosslevel increased. The dynamic response of the vertical and lateral wheel loads showed a significant dependence on the alignment of the rails. Improvements for future studies of the interaction between the track and rail vehicles have been recommended. / Master of Science

track geometry

wheel loads

interaction

instrumented wheelsets

rail vehicles

Experimental Evaluation and Semi-Empirical Modeling of the Tractive Performance of Rigid and Flexible Wheels on Lunar Soil Simulant

Taylor, Benjamin Paul

21 July 2009

Understanding the effects of various wheel parameters on tractive performance is not completely understood. In order to properly quantify the individual effects of wheel parameters on the mobility of rigid and flexible wheels in soft soil, tests were performed, in cooperation with NASA Glenn Research Center (NASA-GRC), using the terramechanics rig at the Virginia Tech Advanced Vehicle Dynamics Lab (AVDL). To conduct such a study, four different wheels were evaluated under similar normal loads, slip ratios, and soil density. The first wheel represents the baseline, against which all the others were benchmarked. The remaining three wheels included the following parameter changes: 1) same diameter as the baseline but wider, 2) same width as the baseline but smaller in diameter, and 3) same width and diameter as the baseline but with a longer contact length. For each test the normal load, drawbar pull, and driving torque were measured and recorded for further analysis. To measure the effect of the changes in the wheels' parameters on the contact patch under different loads, a pressure pad was embedded below the surface of the Lunar simulant to measure the contact patch shape, size, and pressure distribution. Analysis of the experimental results showed that the drawbar pull was more significantly affected by the wheel diameter than by the contact width, and that same trend followed suit for the driving torque. Overall, the greater contact patch area resulted in a higher drawbar pull and torque. / Master of Science

wheel mobility

off-road testing

Lunar soil simulant