Optimisation of Shot Peening for 12Cr Steel in Steam Turbine Blade Applications PDF Download
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Author: Mark Newby
Publisher:
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Category :
Languages : en
Pages :
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Book Description
Power generation in thermal stations typically relies on large steam turbines. The corrosion resistant steel blades used in the last stage of a typical low pressure rotor set are approximately 1m long and experience high centrifugal loading during service. They operate in a wet steam environment, at approximately 60°C while rotating at 3000rpm, and failure modes include high and low cycle fatigue, stress corrosion cracking or corrosion fatigue. The blades are retained by a fir tree root which is normally shot-peened to generate compressive residual stresses that resist crack initiation. Finite element (FE) modelling has indicated that, in the absence of shot-peening, stresses above yield are induced at the fir tree root during operation. In a shot-peened blade these lead to relaxation of the shot peening residual stresses. To date, no systematic information has been obtained on the level of residual stresses induced in the fir tree by shot-peening and their subsequent relaxation during service loading, nor are there any guidelines as to the magnitude of residual stresses necessary to ensure integrity of the turbine over a life span of at least twenty years. At least one of these blades has suffered catastrophic failure in recent years causing severe damage, in excess of €100M, to the turbine-generator set on a South African power station [1]. This thesis reports results from a comprehensive program of residual stress measurements at the shot-peened fir tree roots of service blades, and in specimens that simulate the root conditions, using diffraction data from laboratory and synchrotron X-ray radiation (SXRD). Shot-peening coverage between 75% and 200% was used and stresses were measured over a depth of 5mm into the blades/specimens. Measurements were made in the as-peened condition and after applying cyclic stresses representative of overspeed proof testing and of service operation. The results were used to calibrate FE modelling of residual stresses and as input into fatigue life prediction.
Author: Mark Newby
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Power generation in thermal stations typically relies on large steam turbines. The corrosion resistant steel blades used in the last stage of a typical low pressure rotor set are approximately 1m long and experience high centrifugal loading during service. They operate in a wet steam environment, at approximately 60°C while rotating at 3000rpm, and failure modes include high and low cycle fatigue, stress corrosion cracking or corrosion fatigue. The blades are retained by a fir tree root which is normally shot-peened to generate compressive residual stresses that resist crack initiation. Finite element (FE) modelling has indicated that, in the absence of shot-peening, stresses above yield are induced at the fir tree root during operation. In a shot-peened blade these lead to relaxation of the shot peening residual stresses. To date, no systematic information has been obtained on the level of residual stresses induced in the fir tree by shot-peening and their subsequent relaxation during service loading, nor are there any guidelines as to the magnitude of residual stresses necessary to ensure integrity of the turbine over a life span of at least twenty years. At least one of these blades has suffered catastrophic failure in recent years causing severe damage, in excess of €100M, to the turbine-generator set on a South African power station [1]. This thesis reports results from a comprehensive program of residual stress measurements at the shot-peened fir tree roots of service blades, and in specimens that simulate the root conditions, using diffraction data from laboratory and synchrotron X-ray radiation (SXRD). Shot-peening coverage between 75% and 200% was used and stresses were measured over a depth of 5mm into the blades/specimens. Measurements were made in the as-peened condition and after applying cyclic stresses representative of overspeed proof testing and of service operation. The results were used to calibrate FE modelling of residual stresses and as input into fatigue life prediction.
Author:
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Category : Dissertations, Academic
Languages : en
Pages : 0
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Book Description
The failure of the key components of steam turbines, specifically the low-pressure steam turbine blades, results in dire consequences from a safety, operational and financial perspective. Fatigue failures are some of the most common failure modes associated with turbine blades. These are sometimes initiated by the nucleation and growth of cracks from regions of localised stress amplification across the cross-section of the turbine blade. Laser shot peening is an emerging surface engineering and re-engineering technique growing in its industrial application for mitigating the initiation of these failure mechanisms. It is employed to induce compressive residual stresses on and beneath the surface of the blades to counter the effects of tensile forces in the blades. Secondary effects like surface roughness and cold working are detrimental effects that weaken the beneficial effects of laser shock peening. Fortunately, these outcomes of laser shock peening can be influenced by a methodical control of process parameters such as the intensity of the laser shots, the shot size, shot angle, degree of shot overlaps, and the temporal profile of the laser beam. Several investigations have been conducted on the laser peening process since it matured from a mere academic curiosity, into a method that has proven to be effective at lengthening of useful life of machine components. However, laser peening parameter optimisation problems remain unsolved, especially using a numerical approach. Independent testing of influential parameters and hierarchy of influence of input variables remain unestablished. Physics-based modelling of laser peening and multi-objective determination of process parameter combinations that yield the best possible outcomes are also not yet available.This research applies a numerical approach to optimising laser shock peening parameters for residual stress enhancement in low pressure steam turbine blades. The laser shock peening of a cut-out sample of an out-of-service X12Cr martensitic steel turbine blade has been modelled in a novel attempt, by finite element analysis, using a fully physics-based constitutive model, the mechanical threshold stress (MTS) model. The MTS model describes strain-rate behaviour of the material undergoing nanoscale temporal shock loading, and its structural evolution during deformation, thereby providing an appropriate framework for capturing loading history effects. The finite element model, validated experimentally, was transformed, by linear regression, into simple empirical models which approximate the finite element model. The approximations (surrogates) allow the efficient solution of single and multiple objectives optimisation problems, to determine optimal process parameters. The robustness and reliability of the optimisation process was verified and established by six-sigma analyses, with all the process capability and reliability indices confirming a reliable and reproducible process of less than four defects per million attempts. Numerically optimising the process parameters has yielded a range of optimum input parameters for each desired output when taken as priority, and non-dominating set of inputs for multiple objectives simultaneously. The hierarchy of influential parameters for these desired outcomes has also been established while the effects of increase or decrease in any of the input parameters on the outcomes have also been quantified. The outcomes of this study offer engineers a roadmap for effective application of laser shot peening as a technique for improving the fatigue-life of steam turbine components, such as turbine blades.
Author: John S. Eckersley
Publisher:
ISBN:
Category : Shot peening
Languages : en
Pages : 284
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Author: K. A. Soady
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Lauralice de Campos Franceschini Canale
Publisher: ASM International
ISBN: 1615030980
Category : Technology & Engineering
Languages : en
Pages : 651
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Author: Roger C. Reed
Publisher: Cambridge University Press
ISBN: 1139458639
Category : Technology & Engineering
Languages : en
Pages : 363
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Book Description
Superalloys are unique high-temperature materials used in gas turbine engines, which display excellent resistance to mechanical and chemical degradation. This book introduces the metallurgical principles which have guided their development. Suitable for graduate students and researchers, it includes exercises and additional resources at www.cambridge.org/9780521859042.
Author:
Publisher:
ISBN:
Category : Metallurgy
Languages : en
Pages : 1586
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Author: Ramaswamy Viswanathan
Publisher: ASM International
ISBN: 9780871703583
Category : Science
Languages : en
Pages : 497
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Author: Erhard Klar
Publisher: ASM International
ISBN: 1615030522
Category : Technology & Engineering
Languages : en
Pages : 247
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Author: United States. Interagency Task Force on Synthetic Fuels from Coal
Publisher:
ISBN:
Category : Coal gasification
Languages : en
Pages : 380
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Book Description
This report provides a data base for Project Independence Blueprint in the area of synthetic fuels from coal. This area involves both industrial practice and a relatively large amount of advanced coal conversion technology, much of which is on an advanced pilot plant level. It must be emphasized that the report simply identifies representative resources (financial, raw materials, manpower) needed in case a decision is made to achieve given synthetic fuel production rates. The report does not suggest or imply that the resources identified herein, either financial in terms of capital or raw resources in terms of the needed coal mine capacities, are currently available. By simply identifying the critical resources, this report provides a needed data base for decision in the area of synthetic fuels.
