The Activation Energy of the Static Fatigue (Creep of Steel)

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Volume 34, Issue 2 (March 2006)

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ISSN: 0090-3973
Published Online: 1 December 2005
Page Count: 6

The Activation Energy of the Static Fatigue (Creep of Steel)
Graefe, W
Dr. sc. nat,

(Received 26 January 2005; accepted 4 August 2005)

Abstract

In an earlier paper [1] the relation σ^B = σ^∞ + const. t^B^−1/4 has been deduced for the time dependence of the strength decrease under a static load. In the formula σ^∞ means the fatigue limit and σ^B is the stress causing a fracture after the loading period t^B. By application of this formula the activation energy of the static fatigue of glass and of the creep of steel is calculated from experimental data at different temperatures. The activation energy determined for steel corresponds to activation energy for the diffusion of sulfur in iron but corresponds also to the half of the sublimation enthalpy for iron. Therefore, the rate limiting step of the creep of steel at elevated temperatures may be a diffusion of interstitial atoms as well as a quasi-sublimation. A theoretical model is given for the defect growth due to a quasi-sublimation.

Keywords:
activation energy, creep, glass, iron, static fatigue, steel

Paper ID: JTE14068
DOI: 10.1520/JTE14068
ASTM International is a member of CrossRef.

Author Title The Activation Energy of the Static Fatigue (Creep of Steel) Symposium , 0000-00-00 Committee D30

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Testing and Evaluation (JTE) / Citation Page Volume 34, Issue 2 (March 2006) Click here to download this paper now for $25 PDF (144K) View License Agreement ISSN: 0090-3973 Published Online: 1 December 2005 Page Count: 6 The Activation Energy of the Static Fatigue (Creep of Steel) Graefe, W Dr. sc. nat, (Received 26 January 2005; accepted 4 August 2005) Abstract In an earlier paper [1] the relation σ^B = σ^∞ + const. t^B^−1/4 has been deduced for the time dependence of the strength decrease under a static load. In the formula σ^∞ means the fatigue limit and σ^B is the stress causing a fracture after the loading period t^B. By application of this formula the activation energy of the static fatigue of glass and of the creep of steel is calculated from experimental data at different temperatures. The activation energy determined for steel corresponds to activation energy for the diffusion of sulfur in iron but corresponds also to the half of the sublimation enthalpy for iron. Therefore, the rate limiting step of the creep of steel at elevated temperatures may be a diffusion of interstitial atoms as well as a quasi-sublimation. A theoretical model is given for the defect growth due to a quasi-sublimation. Keywords: activation energy, creep, glass, iron, static fatigue, steel Paper ID: JTE14068 DOI: 10.1520/JTE14068 ASTM International is a member of CrossRef. Author Title The Activation Energy of the Static Fatigue (Creep of Steel) Symposium , 0000-00-00 Committee D30