Improving Roughness Using Toroidal Milling for Complex Surface Processing
Journal Title: HIDRAULICA - Year 2018, Vol 0, Issue 1
Abstract
The paper aims to study the processing of complex and convex surfaces using a cutting tool in a milling radius called toroidal end milling in terms of roughness. Roughness presents important influences on machine parts and not only be in operation contact surfaces are either fixed or mobile. This paper includes a series of 11 experiments in which different regimes are tested with the main purpose of finding the optimum regimen for the work to be subjected to the toroidal milling using the roughness value Ra and Rt as the comparison criterion. For roughness determination, the TR200 is used as a measuring tool and data is loaded into a software called Time Surf. At the end of this paper a point of view will be determined regarding the roughness obtained with the toroidal milling.
Authors and Affiliations
Andrei OSAN
Design Details of a Turbine Model Used for Energy Conversion in Low Flow Rate Water Streams
The potential of water flows has been used since ancient times. Today more than ever, the water streams are used for energy production. Depending on the three essential parameters of water flow represented by flow veloci...
Using the Pressure Intensifiers in Hydraulic Units of Heavy Duty Machine Tools
This paper presents some applications of the pressure intensifiers used in the hydraulic units of the clamping/unclamping systems and unloading systems for the guideways of HBM and GANTRY type heavy duty machine tools. T...
Estimation of Water Infiltration at a Given Embankment Dam with Sealing Deficiencies by a 3D Numerical Model
The paper presents a way of studying the water infiltration at the Motru embankment Dam (river ballast fill, clay core sealing) by a 3D numerical model covering the deficient right supporting bank. Since due to sealing i...
The Optimal CAD Design of a 3D Hexagonal Toroid with Regular Hexagonal Cross-Section Used in Manufacturing of LPG Storage Tanks
The objective in this paper is to optimal CAD design of a 3D hexagonal toroid with regular hexagonal cross-section used in manufacturing of LPG storage tanks used in automotive industry based on the finite element analys...
The Influence of Corrosion and Temperature Variation on the Minimum Safety Factor of a 3D Hexagonal Toroid with Regular Hexagonal Cross-Section Used in Manufacturing of LPG Storage Tanks
In this paper we investigate the minimum safety factor (SF) values of a three-dimensional (3D) hexagonal toroid with regular hexagonal cross-section used in manufacturing of LPG storage tanks from the automotive industry...