Experimental Investigation on Creep Deformation Behavior of Medium-strength  Marble Rock

Creep deformation behavior of SA387Gr91Cl2 heat-resistant steel used for steam cooler has been investigated. Creep tests were carried out using flat creep specimens machined from the normalized and tempered plate at 973K with stresses of 100, 125 and 150MPa. The minimum creep rate and rupture time dependence on applied stress was analyzed. The analysis showed that the heat-resistant steel obey Monkman-Grant and modified Monkman-Grant relationships.

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Creep in Ordered Nickel Base Alloys

MRS Proceedings ◽

10.1557/proc-39-279 ◽

1984 ◽

Vol 39 ◽

Cited By ~ 7

Author(s):

P. R. Strutt ◽

B. H. Kear

Keyword(s):

Creep Behavior ◽

Creep Deformation ◽

Crystallographic Orientation ◽

Deformation Behavior ◽

Strong Influence ◽

Deformation Mode ◽

Two Phase ◽

Effects Of Temperature ◽

Nickel Base ◽

Relative Creep

ABSTRACTThis paper examines the fundamentals of deformation behavior in ordered y′ (Ni3Al), β (NiAl) and β′ (Ni2AITi) phases, and specific two phase y/y′ and B/B′ alloys. The relative creep strengths of these ordered nickel-base alloys are discussed. Differences in creep behavior are explained in terms of the effects of temperature, crystallographic orientation and alloying on creep deformation mode. In particular, it is shown that trace additions of boron and carbon to y/y′ alloys, or deviations from stoichiometry in β′ -type alloys can exert a strong influence on creep behavior.

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Creep Deformation Behavior and Microstructural Degradation During Creep of Pre-Strained 25Cr-20Ni-Nb-N Steel

Volume 9: Eighth International Conference on Creep and Fatigue at Elevated Temperatures ◽

10.1115/creep2007-26764 ◽

2007 ◽

Cited By ~ 1

Author(s):

Nobuhiko Saito ◽

Nobuyoshi Komai

Keyword(s):

Creep Rate ◽

Creep Deformation ◽

Deformation Behavior ◽

Minimum Creep Rate ◽

Strengthening Mechanism ◽

Creep Rupture ◽

Microstructural Degradation ◽

Solution Treated ◽

Long Time ◽

Strained Materials

The purpose of this study is to clarify the creep deformation behavior and microstructural degradation during creep of pre-strained 25Cr-20Ni-Nb-N steel (TP310HCbN), which has the highest creep strength among austenite stainless steels used for boiler tubes. The creep rupture strengths of the 20% pre-strained materials tested at 650°C under 210 MPa and 180 MPa were higher than those of solution-treated materials. However, the long time creep rupture strengths of the 20% pre-strained materials tested at 700°C and 750°C were lower than those of solution-treated materials. Thus, the creep strengths of the prestrained materials depend on test temperature and stress. Furthermore, the minimum creep rate of the 20% pre-strained materials and re-solution-treated materials tested at 650°C under 300MPa were 1.2 × 10−9 and 1.6 × 10−8 s−1, respectively. Thus, the minimum creep rate of the 20% pre-strained materials was lower than for re-solution-treated materials. The creep strengthening mechanism of the pre-strained materials at 650°C was considered to be that high-density dislocations were maintained until the late stage of creep. On the other hand, the creep rupture strengths of the 20% pre-strained materials were lower than those of solution-treated materials tested at over 700°C because of agglomeration and coarsening of precipitates and the recovery of dislocations.

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Advances in Ambient Temperature Creep Deformation Behavior of Two-Phase Titanium Alloys

Materials Science Forum ◽

10.4028/www.scientific.net/msf.475-479.779 ◽

2005 ◽

Vol 475-479 ◽

pp. 779-784 ◽

Cited By ~ 2

Author(s):

A. Jaworski ◽

Sreeramamurthy Ankem

Keyword(s):

Titanium Alloys ◽

Creep Deformation ◽

Deformation Behavior ◽

Creep Resistance ◽

Volume Fraction ◽

Beta Phase ◽

Two Phase ◽

Number Of Factors ◽

Strength Difference ◽

The Stability

In recent years, significant advances have been made in regard to the creep deformation behavior of two phase titanium alloys. It has been shown that the creep resistance depends on a number of factors, including the shape of the component phases, the strength difference between the phases, and the stability of the beta phase. For example, in two-phase materials with a similar volume fraction and morphology of phases, if the beta phase is less stable, then the creep resistance is lower. These developments will be reviewed and the reasons for such effects will be suggested.

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