Precipitation and its effect on the design of cast heat resistant alloys

R. I. Pankiw; D. P. Voke; G. Muralidharan; N. D. Evans; C. O. Stevens; K. C. Liu; M. L. Santella; P. J. Maziasz; V. K. Sikka

Precipitation and its effect on the design of cast heat resistant alloys

R. I. Pankiw
, D. P. Voke
, G. Muralidharan
, N. D. Evans
, C. O. Stevens
, K. C. Liu
, M. L. Santella
, P. J. Maziasz
, V. K. Sikka

Material Processing

Research output: Contribution to journal › Conference article › peer-review

4 Scopus citations

Abstract

Heat resistant cast alloy (H-Series) steels such as HP modified and micro-alloyed HP, are used extensively in the petrochemical industry for reformer furnace tubing and ethylene pyrolisis coils. The HP alloys have a microstructure consisting of an austenitic matrix with finely dispersed carbides. The H-Series steels have evolved over many years of alloy development by trial-and-error additions of alloying elements. It is possible to further improve the performance of these steels through the use of computational thermodynamics based on a detailed understanding of the composition- microstructure-property relationships. This paper highlights some of the progress made in understanding the relationship between precipitation and creep properties of these alloys through using a combination of thermodynamic modeling, microstructural characterization, and mechanical property measurements. It also provides information on the creep properties of a new alloy designed based upon the improved understanding of the structure- processing-property relationship in these alloys.

Original language	English
Pages (from-to)	74241-74249
Number of pages	9
Journal	NACE - International Corrosion Conference Series
State	Published - 2007
Event	Corrosion 2007 - Nashville, TN, United States Duration: Mar 11 2007 → Mar 15 2007

Keywords

Austenitic stainless steels
Catalyst tubes
Centrifugal cast tubing
Creep properties
Electron microscopy
Ethylene cracking tube
Ethylene pyrolisis tube
Heat resistant steels
Image analysis
Reformer tubes
Thermodynamic calculations

Cite this

@article{cb078ebb80214a3b813051fdbdfce479,

title = "Precipitation and its effect on the design of cast heat resistant alloys",

abstract = "Heat resistant cast alloy (H-Series) steels such as HP modified and micro-alloyed HP, are used extensively in the petrochemical industry for reformer furnace tubing and ethylene pyrolisis coils. The HP alloys have a microstructure consisting of an austenitic matrix with finely dispersed carbides. The H-Series steels have evolved over many years of alloy development by trial-and-error additions of alloying elements. It is possible to further improve the performance of these steels through the use of computational thermodynamics based on a detailed understanding of the composition- microstructure-property relationships. This paper highlights some of the progress made in understanding the relationship between precipitation and creep properties of these alloys through using a combination of thermodynamic modeling, microstructural characterization, and mechanical property measurements. It also provides information on the creep properties of a new alloy designed based upon the improved understanding of the structure- processing-property relationship in these alloys.",

keywords = "Austenitic stainless steels, Catalyst tubes, Centrifugal cast tubing, Creep properties, Electron microscopy, Ethylene cracking tube, Ethylene pyrolisis tube, Heat resistant steels, Image analysis, Reformer tubes, Thermodynamic calculations",

author = "Pankiw, \{R. I.\} and Voke, \{D. P.\} and G. Muralidharan and Evans, \{N. D.\} and Stevens, \{C. O.\} and Liu, \{K. C.\} and Santella, \{M. L.\} and Maziasz, \{P. J.\} and Sikka, \{V. K.\}",

year = "2007",

language = "English",

pages = "74241--74249",

journal = "NACE - International Corrosion Conference Series",

issn = "0361-4409",

note = "Corrosion 2007 ; Conference date: 11-03-2007 Through 15-03-2007",

}

TY - JOUR

T1 - Precipitation and its effect on the design of cast heat resistant alloys

AU - Pankiw, R. I.

AU - Voke, D. P.

AU - Muralidharan, G.

AU - Evans, N. D.

AU - Stevens, C. O.

AU - Liu, K. C.

AU - Santella, M. L.

AU - Maziasz, P. J.

AU - Sikka, V. K.

PY - 2007

Y1 - 2007

N2 - Heat resistant cast alloy (H-Series) steels such as HP modified and micro-alloyed HP, are used extensively in the petrochemical industry for reformer furnace tubing and ethylene pyrolisis coils. The HP alloys have a microstructure consisting of an austenitic matrix with finely dispersed carbides. The H-Series steels have evolved over many years of alloy development by trial-and-error additions of alloying elements. It is possible to further improve the performance of these steels through the use of computational thermodynamics based on a detailed understanding of the composition- microstructure-property relationships. This paper highlights some of the progress made in understanding the relationship between precipitation and creep properties of these alloys through using a combination of thermodynamic modeling, microstructural characterization, and mechanical property measurements. It also provides information on the creep properties of a new alloy designed based upon the improved understanding of the structure- processing-property relationship in these alloys.

AB - Heat resistant cast alloy (H-Series) steels such as HP modified and micro-alloyed HP, are used extensively in the petrochemical industry for reformer furnace tubing and ethylene pyrolisis coils. The HP alloys have a microstructure consisting of an austenitic matrix with finely dispersed carbides. The H-Series steels have evolved over many years of alloy development by trial-and-error additions of alloying elements. It is possible to further improve the performance of these steels through the use of computational thermodynamics based on a detailed understanding of the composition- microstructure-property relationships. This paper highlights some of the progress made in understanding the relationship between precipitation and creep properties of these alloys through using a combination of thermodynamic modeling, microstructural characterization, and mechanical property measurements. It also provides information on the creep properties of a new alloy designed based upon the improved understanding of the structure- processing-property relationship in these alloys.

KW - Austenitic stainless steels

KW - Catalyst tubes

KW - Centrifugal cast tubing

KW - Creep properties

KW - Electron microscopy

KW - Ethylene cracking tube

KW - Ethylene pyrolisis tube

KW - Heat resistant steels

KW - Image analysis

KW - Reformer tubes

KW - Thermodynamic calculations

UR - https://www.scopus.com/pages/publications/69249139509

M3 - Conference article

AN - SCOPUS:69249139509

SN - 0361-4409

SP - 74241

EP - 74249

JO - NACE - International Corrosion Conference Series

JF - NACE - International Corrosion Conference Series

T2 - Corrosion 2007

Y2 - 11 March 2007 through 15 March 2007

ER -

Precipitation and its effect on the design of cast heat resistant alloys

Abstract

Keywords

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