Two-Dimensional Characterization of Topographies of Geomaterial Particles and Surfaces

Sozer, Zeynep Bade

15 April 2005

The soil-structure interface is fundamental to the performance of many geotechnical engineering systems; including penetration test devices, deep foundations, and retaining structures. In geotechnical engineering structures, the counterface may range from a polymer in the case of a geosynthetically reinforced earth retaining structure to steel for cone penetration testing or pile foundations. Interface strength is affected by many factors, among which surface roughness is the most dominant. To date common practice has been to characterize counterface surface roughness by a roughness parameter based on only its spatial properties and soil roughness separately by various incompatible means resulting in two roughness values unrelated to each other. The vast number of analyzing methods and developed parameters reveal the general confusion regarding this concept. Rather than analyzing the particulate and continuum media separately, it is compulsory to coalesce the analysis and quantify the relative nature of interface behavior. This can be accomplished by examining the particulate and continuum media through the same powerful tools. The motive of this study is to develop a unified approach to determining the index properties of particles and surfaces in a particle-surface interface. This is accomplished by examining several particle shape and surface roughness parameters in terms of their ability to uniquely describe and distinguish particulate medium and continuum roughness, respectively. In this study, surfaces are analyzed as derived particles by wrapping surface profiles and particles are evaluated as derived surfaces via unrolling particle outlines. In addition, particle shape parameters are modified to allow surface roughness analysis and surface roughness parameters are modified to characterize particle shape. A unified approach for particulate shape and continuum roughness would ultimately lead to a better understanding of micro-scale interaction mechanism and better quantification of macro-scale mobilized resistance for soil and engineering surface interaction.

Two-dimensional

Surface roughness

Particle shape

Particle-surface interface

Particles Mechanical properties

Surface roughness Measurement

Engineering geology

Interfaces (Physical sciences)

Soil mechanics

Continuum mechanics

Effect of Process Parameters on the Surface Roughness and Mechanical Performance of Additively Manufactured Alloy 718

Whip, Bo Ryan

01 June 2018

No description available.

Mechanical Engineering

Additive Manufacturing

AM

Laser powder bed fusion

process parameters

surface roughness

alloy 718

mechanical performance

finite element analysis

stress concentration

Development of PDI plates for Industrial Applications

Siddiqui, Muhammad Saad, Iqbal, Tahseen

January 2010

The aim of this Master’s Degree thesis project is to design and develop point diffraction interferometer plates. In this project the PDI plates are re-designed, changing the design which was used in previous projects in Halmstad University. The transparency of PDI plates can be controlled by coating them with NiCr film. Firstly, four plates with coating of different thickness of NiCr were developed. The relationship between transmittance and the thickness of NiCr was established by testing these plates for transmittance and reflectance with the help of a laser and an optical power meter. The absorption coefficient of clear substrates and reflection of light is also taken into account to achieve the correct results. The parameters like the diameter of semi-transparent area around the pinholes and the size of pinholes is chosen after fully understanding its application. The lay-out and description of design is also included in the report.

point diffraction interferometer

point diffraction interferometry

PDI

PDI plates

semi-transparent plates

nickel chromium coating

surface roughness

surface roughness measurement

Electrophysics

Elektrofysik

Photonics

Fotonik

Surface engineering

Ytbehandlingsteknik

Material physics with surface physics

Materialfysik med ytfysik