Book Description
Based on an EU project, 'Cyclic oxidation testing - development of a code of practice for the characterisation of high temperature materials performance' (COTEST), this volume provides the essential background to an appropriate code of practice. Drawing on its distinguished editor and a team of contributors, the book reviews the range of existing test procedures and summarizes research on the influence of various test parameters on thermal cycling oxidation behavior, including both long dwell and short dwell thermal cycling oxidation. It then describes the resulting code of practice that is being considered by the ISO/TC 156 Working Group 13 responsible for an appropriate international standard.
Table of Contents
Contributor contact details xi
Series introduction xv
Volumes in the EFC series xvii
Foreword xxiii
Preface xxxi
Acknowledgement xxxv
Part I Methods and procedures in thermal
cycling oxidation testing prior to COTEST
Survey of existing test procedures and 3 (8)
experimental facilities
S. Osgerby
Introduction 3 (1)
Summary of layout 4 (1)
Temperature control 4 (2)
Heating/cooling practice 6 (1)
Atmosphere 7 (1)
Test pieces - geometry, preparation and 8 (1)
handling
Measurement/evaluation techniques 9 (1)
Conclusions 9 (1)
References 10 (1)
Compilation of cyclic oxidation data 11 (6)
R. Pettersson
Introduction 11 (1)
Cycle length and test duration 11 (1)
Materials and environments 12 (2)
Variability of results 14 (1)
Influence of experimental variables 14 (1)
Conclusions 15 (2)
Statistical analysis of cyclic oxidation 17 (24)
data
S. Coleman
D. McGeeney
R. Pettersson
Test parameters 17 (1)
Comparing and summarising the mass change 17 (1)
data
Statistical analysis - within sources 17 (17)
Statistical analysis - across data sources 34 (2)
Number of replicates required for future 36 (1)
experiments
Conclusions 37 (1)
Recommendations 37 (1)
References 37 (4)
Part II Experimental investigations on the
influence of test parameter variation on
thermal cycling oxidation behaviour
Standardised test procedures, definitions 41 (8)
and statistical design of experiments for
investigation of test parameter variation
on thermal cycling oxidation testing
M. Schutze
M. Malessa
S. Coleman
Introduction 41 (1)
Preparation of corrosion test specimen 41 (3)
and equipment
Different thermal cycles investigated 44 (2)
Analysis of results and post-test 46 (1)
evaluation
Statistical design of experiments 47 (1)
References 48 (1)
The effect of heating on the total 49 (19)
oxidation time
G. Strehl
G. Borchardt
Introduction 49 (1)
Heating of the sample 49 (5)
Oxide growth under non-isothermal 54 (6)
conditions
Influence of the heating phase on the 60 (4)
oxidation time
Conclusion 64 (1)
Acknowledgements 65 (1)
References 66 (2)
Investigation of the influence of parameter 68 (42)
variation in long dwell thermal cycling
oxidation
L. Niewolak
W. J. Quadakkers
Introduction 68 (1)
Experimental set-up 68 (1)
Experimental results 69 (41)
Investigation of the influence of parameter 110 (14)
variation in short dwell thermal cycling
oxidation
M. Schutze
M. Malessa
Introduction 110 (1)
Experimental investigation of reference 110 (13)
materials under internally standardised
thermal cycling oxidation conditions
References 123 (1)
Investigation of the influence of parameter 124 (16)
variation in ultra-short dwell thermal
cycling oxidation
J. R. Nicholls
T. Rose
Introduction 124 (1)
Definition of suitable test conditions 124 (1)
Possible alternative test procedures 125 (1)
Design of a `focused light' rapid thermal 126 (2)
cycle test facility
Design of a Joule heating device for wire 128 (3)
and foil materials
Ultra-short dwell experiments 131 (7)
Conclusions 138 (2)
Burner rig thermal cycling oxidation testing 140 (11)
A. Kliewe
S. Osgerby
Introduction 140 (1)
Low-velocity burner rig 140 (5)
High-velocity burner rig 145 (5)
References 150 (1)
Thermal cycling oxidation testing in 151 (22)
sulphidising atmospheres
C. Rinaldi
L. Torri
H. P. Bossmann
Introduction 151 (1)
Fe-based materials 151 (9)
Ni-based materials 160 (12)
References 172 (1)
Thermal cycling oxidation testing under 173 (18)
deposits
M. Makipaa
Introduction 173 (1)
Definition of suitable test conditions 173 (1)
Deposit testing (WP5B) 174 (4)
Development of a draft Code of Practice 178 (1)
for thermal cycling oxidation testing
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