Add to ORKGMany surfaces in nature are rough. A rough surface can be defined as a surface that has a fractal dimension. In fact, one measure of roughness is the fractal dimension [1, 14]. Rough surfaces are observed at all scales independent of their origin; for example, a microscopic view of metal substrate, a cauliflower
n many engineering fields surface topography is of crucial importance solving problems o...
A new method, called directional blanket covering (DBC) method, was developed in this study to quant...
A lot of natural structures in industry applications can be hardly described by conventional methods...
Most natural surfaces and surfaces of engineering interest, e.g., polished or sandblasted surfaces, ...
The Scattering and Emissivity of rough surfaces involve solutions to non-linear differential equatio...
The concept of "surface modeling" generally describes the process of representing a physical or arti...
AbstractBased on a function represented by the Cantor series and a binary fraction of real numbers, ...
This article examines fractals with reference to random models of natural surfaces, highlighting the...
In this paper, after the fractal conditions knowledge of some rough metallic surface, on can determi...
Structured and complex data can be found in many applications in research and development, and also ...
In this article, simulated/artificial surfaces consisting of perfectly ordered and mounded (perfect)...
The surface roughness is important design factor for the adhesive bonds. Thus, in this work we have ...
The surface finish of machined parts determines the functionality of the product including how it fi...
A machines surface appears irregular and is recognised as a non stationary random system. Therefore...
[Objectives]How the fractal theory as an efficient tool to describe rough and irregular geometrical ...
n many engineering fields surface topography is of crucial importance solving problems o...
A new method, called directional blanket covering (DBC) method, was developed in this study to quant...
A lot of natural structures in industry applications can be hardly described by conventional methods...
Most natural surfaces and surfaces of engineering interest, e.g., polished or sandblasted surfaces, ...
The Scattering and Emissivity of rough surfaces involve solutions to non-linear differential equatio...
The concept of "surface modeling" generally describes the process of representing a physical or arti...
AbstractBased on a function represented by the Cantor series and a binary fraction of real numbers, ...
This article examines fractals with reference to random models of natural surfaces, highlighting the...
In this paper, after the fractal conditions knowledge of some rough metallic surface, on can determi...
Structured and complex data can be found in many applications in research and development, and also ...
In this article, simulated/artificial surfaces consisting of perfectly ordered and mounded (perfect)...
The surface roughness is important design factor for the adhesive bonds. Thus, in this work we have ...
The surface finish of machined parts determines the functionality of the product including how it fi...
A machines surface appears irregular and is recognised as a non stationary random system. Therefore...
[Objectives]How the fractal theory as an efficient tool to describe rough and irregular geometrical ...
n many engineering fields surface topography is of crucial importance solving problems o...
A new method, called directional blanket covering (DBC) method, was developed in this study to quant...
A lot of natural structures in industry applications can be hardly described by conventional methods...