Experimental and Mathematical Considerations on Roughness Resulting from "ATSi12CuMgNi" Turning Alloys Using Poly-Crystalline Diamond Tools

Aurel Zapciu; Iulian Sorin Munteanu; Aurelian Zapciu

doi:10.4028/www.scientific.net/AMM.371.328

Paper Titles

Diminishing Shape Errors at Electrical Discharge Machining of External Cylindrical Surfaces
p.305

Comparative Analysis of the Quality of Parts Made by an Aluminum Alloy Processed by Unconventional Cutting Methods
p.310

Direct Moulding of Rubber Granules and Powders from Tyre Recycling
p.315

Drying Process Modelling for Heavy Clay Products Using a New Thin Layer Drying Model
p.323

Experimental and Mathematical Considerations on Roughness Resulting from "ATSi12CuMgNi" Turning Alloys Using Poly-Crystalline Diamond Tools
p.328

Spring-Back of Pre-Strained High Strength Steel Stripes
p.333

Studies Concerning the Corrosion Behaviour of the Cast Stainless Steel Used for Chemical Industry
p.338

Studies Concerning Variation of the Friction Coefficient in Case of Polymeric Composite Materials Reinforced with Carbon Fibers
p.343

Experimental Studies Regarding Mechanical Behaviour of Textile Reinforcements Laminated Composite Materials
p.348

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 371Experimental and Mathematical Considerations on...

Experimental and Mathematical Considerations on Roughness Resulting from "ATSi12CuMgNi" Turning Alloys Using Poly-Crystalline Diamond Tools

Abstract:

The importance of using silicon aluminum alloys - with composite structure, on large scale, in the production of vehicle parts (in automotive industry like: pistons, cylinder heads, cylinders, water pumps body, stirrups, etc.), is very high, when it comes to industrial purposes. One of the most used methods of processing by cutting with production tools with the working part of made of poly-crystalline diamond is turning, thus, systemic analysis is necessary to study the dynamics of the process. The paper presents results of experimental research regarding the roughness resulting in the process of turning "ATSi12CuMgNi" alloys using poly-crystalline diamond tools, in order to determine all the parameters involved in the mathematical modelling of roughness, the importance of this parameters from quantitative and intrinsic point of view, and the evaluation of resulted roughness based on experimental results, in order to improving the machinability of silicon aluminum alloys.

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Periodical:

Applied Mechanics and Materials (Volume 371)

Pages:

328-332

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.371.328

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Online since:

August 2013

Authors:

Aurel Zapciu, Iulian Sorin Munteanu, Aurelian Zapciu

Keywords:

Aluminium-Silicon Alloys, Poly-Crystalline Diamond Tools, Roughness, Turning

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