I. Ferreres scite author profile

& The establishment of adequate machining guidelines requires the study of several factors (residual stresses, roughness, hardness, microstructural changes, etc.) that define the surface integrity generated in the part by a machining operation. This work studies the surface integrity generated in AISI O1 tool steel by four hard turning (conventional, laser assisted, MQL and conventional with worn tool) and two grinding (production and finishing) processes, as well as by a combined machining process (conventional hard turning þ finishing grinding). Hard turning generates tensile stresses and strong structural changes in the machined surface while grinding causes compressive stresses and negligible structural changes. Below the surface, grinding generates slightly tensile or nearly null stresses whereas turning generates strong compressive stresses. The results obtained show that an optimum machining process would imply the combination of hard turning plus a slight final grinding.

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Tensiones residuales generadas en acero F-522 por distintos tipos de mecanizado

García-Navas

Ferreres²,

Marañón³

et al. 2005

REVMETAL

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Pseudoquistes pulmonares postraumaticos

Beltrán¹,

Lloret²,

Ferreres³

1981

Archivos de Bronconeumología

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White layers generated in AISI O1 tool steel by hard turning or by EDM

Navas

Ferreres²,

Marañón³

et al. 2008

IJMMM

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I. Ferreres

Electro-discharge machining (EDM) versus hard turning and grinding—Comparison of residual stresses and surface integrity generated in AISI O1 tool steel

Hard Turning Plus Grinding–a Combination to Obtain Good Surface Integrity in Aisi O1 Tool Steel Machined Parts

Tensiones residuales generadas en acero F-522 por distintos tipos de mecanizado

Pseudoquistes pulmonares postraumaticos

White layers generated in AISI O1 tool steel by hard turning or by EDM

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