The control of numerical machining accuracy in the drilling and milling of aluminum and magnesium modules

McCarthy, John Patrick.

January 1966

Thesis (M.S.)--University of Wisconsin--Madison, 1966. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Development of an end-effector for robotic drilling with on-line sensing and diagnosis

Horng, Shi-Yuan.

January 1983

Thesis (Ph. D.)--University of Wisconsin--Madison, 1983. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 240-244).

An investigation of drill stresses by three dimensional photoelasticity

Amin, Ashok Kumar J.,

January 1969

Thesis (M.S.)--University of Wisconsin--Madison, 1969. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Investigation and development of oil-injection nozzles for high-cycle fatigue rotor spin test /

Moreno, Oscar Ray.

January 2005

Thesis (M.S. in Mechanical Engineering)--Naval Postgraduate School, March 2005. / Thesis Advisor(s): Raymond Shreeve, Garth Hobson. Includes bibliographical references (p. 91-93). Also available online.

The temperature factor in rotary drilling of Indiana limestone

Karfakis, Mario G.

January 1983

Thesis (Ph. D.)--University of Wisconsin--Madison, 1983. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 150-164).

Drilling process and hole quality relationship

Poustie, Ashley Scott

22 August 2012

M.Ing. / In the drilling process, the majority of hole inaccuracies can be corrected with the use of secondary hole operations. Hole location errors cannot be corrected as their magnitude is determined at the beginning of penetration of the drill point into the material. This thesis investigates the influence of the drill bending stiffness on the hole location error when drilling with ordinary twist drills. Infrared sensors were developed for the drill point location measurements, the initial wandering of the drill and the final hole location error. Also investigations were made into the on-line monitoring of the drilling process using acoustic emission in the audio range. The acoustic signal was transformed to the frequency domain and related to the torque and the thrust magnitudes. The relationships in the acoustic emission, torque and thrust and chip formation between drilling low carbon steel and aluminium were determined.

Drilling and boring.

Drilling and boring machinery - Testing.

Holes

Development of a vibration absorbing handle for rock drills

Strydom, Johannes Petrus De Wet

12 January 2007

Excessive vibration exerted on the human body can cause many harmful phenomena that can result in permanent bodily damage or permanent disability. Human vibration is classified into two main categories: Hand,arm vibration and whole,body vibration. Hand,arm vibration is vibration transmitted through a percussive tool handle via the hand,arm system to the rest of the body. The main diseases concerning hand,arm vibration are Vibration White Finger (VWF), neurological diseases in the hand and fingers and musculoskeletal diseases like carpal tunnel syndrome. These diseases, especially VWF and musculoskeletal disorders, are mainly associated with lower frequencies. VWF in particular is more likely to occur when an operator is subjected to vibrations with high magnitudes in the 25-40 Hz region. The operating frequencies of most rock drills vary between 30 and 50 Hz. Although there are many other contributing factors like grip force, hand temperature and subject variability, prevalence of VWF among rock drill operators is relatively high in the world. The situation in South Africa is not yet very clear, and further research must be done to evaluate the current status of VWF in South Africa. Vibration energy at higher frequencies can be attenuated with rubber grips or gloves, and these types of dampers are already available on the market. The problem concerning the operating frequency of the drill has not yet been successfully addressed, and thus remains a problem in the rock drill industry as it is at the moment. The main objective of this thesis was the development and testing of a concept that can potentially be implemented on a rock drill to attenuate the operating frequency of a rock drill. The concept must be able to account for minor changes in operating frequency on a specific drill. In addition to that, the drill operating frequency varies from one drill to another. The thesis also aims to lay the mathematical foundation to design an attenuating handle for a specific drill with a specific operating frequency. All the objectives must be obtained without noticeable sacrifices in drill control or performance. The thesis includes the concept generation, optimisation, design and manufacture of a rock drill vibration absorber. The absorber has been tested, and the results are presented. / Dissertation (M Eng (Mechanical Engineering))--University of Pretoria, 2007. / Mechanical and Aeronautical Engineering / unrestricted

Pneumatics technology

Drilling and boring machinery

UCTD

The development of a standard drilling test for machinability

Smorczewski, William T., Swensson, Sigurd S.

January 1948

The purpose of this thesis might be subdivided under two headings - modification of the testing machine so that it would be suitable for drilling tests and development of a standard drilling test for machinability which would employ the modified machine. The first mission was accomplished by the substitution of a specimen-holder in the form of an angle iron for the tool holder already attached to the carriage. One other modification consisted of replacing the timing circuit of the machine with a 1 rpm indicator card mount which, together with a recording pen, gave a pictorial record of the progress of the drill through test specimens. The second purpose of the investigation was fulfilled when the straight line portion of the machinability curve was found, proved, and defined by equation. Also of equal interest with regards to this machinability concept was the establishment of confidence limits showing the relative variability of the materials tested. Perhaps the statement should be made that the exact values of these confidence limits depend on the number of test specimens being included in the index determination. The investigators based their calculations on a sub-group containing four specimens. This sub-group size was believed sufficiently high to detect any test equipment defect, such as a feather edge on the drill or an incorrectly set speed, without requiring an excessive number of drilling operations. Although the index values calculated and listed in Table #13 are correct for the materials tested, they are not recommended for general use since they are based on test specimens all coming from one source. A larger number of tests on specimens from a large number of foundries and steel mills would be necessary for a true estimate of the machinability of the test materials. / M.S.

LD5655.V855 1948.S667

Drilling and boring machinery

Heat loss calculations for small subterrene penetrators

Murphy, Daniel John, 1944-

January 1973

No description available.

Drilling and boring machinery.

Temperature measurements.

Obsidian -- Thermal properties.

Predictive models for forces, power and hole oversize in drilling operations

Zhao, Hualin

Unknown Date

Drilling is one of the most commonly used material removal processes for producing holes in the manufacturing industry. Despite the long history of design and developments of hole making tools, the modern twist drill, which undertakes most of the hole making tasks, is largely based on Morse’s geometrical design patented in 1863. however, considerable improvements in the technological performance of drilling operations as assessed by the forces, power, drill-life and hole quality have been achieved through the use of stronger and more wear resistant tool materials, better selection of the salient drill point features and improvements in drill manufacturing methods involving increased automation and geometrical control of drill variability. A variety of drill point modifications and designs have also been proposed and made commercially available although the modern conventional general purpose twist drill design still remains the standard product of drill manufacturers commonly available in stock. The improvement of the technological performance of twist drills has traditionally been the domain of the drill manufacturers who provide technical information and advice often in the form of machining feed and speed recommendations for use in practice. Such machining recommendations or data may also be found in special handbooks which sometimes include drilling performance data such as thrust, torque and power requirements or the expected drill-life in the form of tables, monographs or empirical equations which include the obvious process variables such as the feed and speed. (For complete introduction open document)