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  • 1
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    Advanced Approaches Applied to Materials Development and Design Predictions (2021)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-04-11
    Description: This thematic issue on advanced simulation tools applied to materials development and design predictions gathers selected extended papers related to power generation systems, presented at the XIX International Colloquium on Mechanical Fatigue of Metals (ICMFM XIX), organized at University of Porto, Portugal, in 2018. In this issue, the limits of the current generation of materials are explored, which are continuously being reached according to the frontier of hostile environments, whether in the aerospace, nuclear, or petrochemistry industry, or in the design of gas turbines where efficiency of energy production and transformation demands increased temperatures and pressures. Thus, advanced methods and applications for theoretical, numerical, and experimental contributions that address these issues on failure mechanism modeling and simulation of materials are covered. As the Guest Editors, we would like to thank all the authors who submitted papers to this Special Issue. All the papers published were peer-reviewed by experts in the field whose comments helped to improve the quality of the edition. We also would like to thank the Editorial Board of Materials for their assistance in managing this Special Issue.
    Keywords: TA1-2040 ; T1-995 ; delamination ; ultrahigh strain-rate plastic deformation ; amorphization ; indentation behavior ; fatigue crack growth ; mean stress effect ; sintering temperature ; dual-phase TC11 titanium alloy ; Bi4Ti3O12 ceramics ; fatigue ; probabilistic optimization ; generalized regression neural network ; wind turbine blade ; power generation systems and technologies ; strain prediction ; adsorption ; materials technology ; bladed disk ; fatigue creep ; extremum response surface method ; R-ratio ; mechanical properties ; laser shock peening ; copper current collector ; reliability analysis ; alternating current potential drop (ACPD) ; mixed-mode fracture ; turbine blisk ; advanced testing and statistics ; fuzzy theory ; low cycle fatigue life ; polyurea ; damage/degradation ; generalized Paris’ Law ; first-principles method ; full-scale static test ; lithium-ion batteries ; energy approach ; hot extrusion ; intermittent computed tomography ; AISI 304 ; crack paths ; probabilistic physics ; crack propagation ; aluminum chip solid state recycling ; crack closure ; fractography ; crack growth rate ; adhesion ; finite element analysis ; composite coating ; J-integral ; impact resistance ; nanocrystallization ; PSO-BP Neural Network ; fatigue development ; multi-extremum response surface method ; failure mechanisms ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
    Language: English
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  • 2
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    Structural Prognostics and Health Management in Power & Energy Systems (2021)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-04-05
    Description: The idea of preparing an Energies Special Issue on “Structural Prognostics and Health Management in Power & Energy Systems” is to compile information on the recent advances in structural prognostics and health management (SPHM). Continued improvements on SPHM have been made possible through advanced signature analysis, performance degradation assessment, as well as accurate modeling of failure mechanisms by introducing advanced mathematical approaches/tools. Through combining deterministic and probabilistic modeling techniques, research on SPHM can provide assurance for new structures at a design stage and ensure construction integrity at a fabrication phase. Specifically, power and energy system failures occur under multiple sources of uncertainty/variability resulting from load variations in usage, material properties, geometry variations within tolerances, and other uncontrolled variations. Thus, advanced methods and applications for theoretical, numerical, and experimental contributions that address these issues on SPHM are desired and expected, which attempt to prevent overdesign and unnecessary inspection and provide tools to enable a balance between safety and economy to be achieved. This Special Issue has attracted submissions from China, USA, Portugal, and Italy. A total of 26 submissions were received and 11 articles finally published.
    Keywords: B1-5802 ; empirical mode decomposition ; underground powerhouse ; sensitivity analysis ; DNN ; fault detection ; neural networks ; structural health monitoring ; analysis mode decomposition ; dynamic analysis of the structure ; residual useful life ; renewable energy ; remaining useful life ; retrofitting activities ; wind turbine blade ; optimized deep belief networks ; strain prediction ; offshore wind turbines ; low frequency tail fluctuation ; oil and gas platforms ; supporting vector machine (SVM) ; wave–structure interaction (WSI) ; sifting stop criterion ; probabilistic analyses of stochastic processes and frequency ; mode mixing ; non-probabilistic reliability index ; data-driven ; prognostics ; turbine blisk ; wind turbines ; supervisory control and data acquisition system ; fuzzy safety criterion ; analysis-empirical mode decomposition ; rotation of hydraulic generator ; life cycle cost ; health monitoring ; reliability ; wavelet decomposition ; weighted regression ; similarity-based approach ; vibration transmission mechanism ; wind and wave analysis ; full-scale static test ; deep learning ; multioperation condition ; extremum surface response method ; lithium-ion battery ; vibration test ; lateral-river vibration ; operational modal analysis ; dynamic analysis ; regeneration phenomenon ; machine learning ; prognostic and Health Management ; offshore structures ; NAR neural network ; techno-economic assessments ; stochastic subspace identification ; vertical axis wind turbine ; dynamic fuzzy reliability analysis ; thema EDItEUR::Q Philosophy and Religion::QD Philosophy
    Language: English
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  • 3
    Electronic Resource
    Electronic Resource
    Determination of Sintering Temperature of Nanocomposite WC-Co (2007)
    s.l. ; Stafa-Zurich, Switzerland
    Key engineering materials Vol. 280-283 (Feb. 2007), p. 1485-1488 
    Details
    ISSN: 1013-9826
    Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008
    Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
    Notes: The need for WC-Co with improved properties, particularly increased hardness and strength combined with increased ductility and toughness, has focused attention on the development of grades with finer and finer-grained powders and cemented carbides. The aim of this study is to determine the sintering temperature of nanocomposite WC-6Co (wt.%) sample by using an optical microscope underhigh temperature and a DSC / TG apparatus. The WC-Co sample was prepared from nanocomposite powder by hot-press-sintering at the determined sintering temperature. The phase structure of the powder and sintered samples was investigated. The SEM imaging was performed on fracture surfaces of sinteredsamples. The density and the HRA of sintered samples were also measured
    Type of Medium: Electronic Resource
    URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/49/transtech_doi~10.4028%252Fwww.scientific.net%252FKEM.280-283.1485.pdf
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    Paper (German National Licenses)
    Fulltext
  • 4
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    Sensors, Vol. 19, Pages 3585: Comparison of Active Electrode Materials for Non-Contact ECG Measurement (2019)
    MDPI
    In: Sensors
    Details
    Publication Date: 2019
    Description: For long-term and more convenience electrocardiograph (ECG) monitoring, an active- electrode-based ECG monitoring system, which can measure ECG through clothes, is proposed in this paper. The hardware of the system includes active electrodes, signal processing and data transmission modules and the software mainly includes a denoising algorithm based on empirical mode decomposition (EMD). Then the proposed system was verified using the comparison of the ECG signals measured synchronously by active electrodes and Ag/AgCl electrodes. In addition, three flexible materials, including conductive textile, copper foil tape and a flexible printed circuit (FPC) are developed for the sensing layer with active electrodes. To compare the performance of these three materials for the sensing layer, the ECG signals of 10 subjects were measured by different materials in three postures and several indexes for quality evaluation were calculated. Results show that effective and clear ECG waveforms can be measured by all three kinds of materials and the quality of ECG signals measured by FPC is the best by conducting a significant t-test for signal quality indexes of three materials.
    Electronic ISSN: 1424-8220
    Topics: Chemistry and Pharmacology , Electrical Engineering, Measurement and Control Technology
    Published by MDPI
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  • 5
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    Degradation of Cyhalofop-butyl (CyB) by Pseudomonas azotoformans Strain QDZ-1 and Cloning of a Novel Gene Encoding CyB-Hydrolyzing Esterase (2011)
    American Chemical Society
    Details
    Publication Date: 2011-06-08
    Print ISSN: 0021-8561
    Electronic ISSN: 1520-5118
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Process Engineering, Biotechnology, Nutrition Technology
    Published by American Chemical Society
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  • 6
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    Materials, Vol. 12, Pages 1889: PSO-BP Neural Network-Based Strain Prediction of Wind Turbine Blades (2019)
    MDPI
    In: Materials
    Details
    Publication Date: 2019
    Description: The full-scale static testing of wind turbine blades is an effective means to verify the accuracy and rationality of the blade design, and it is an indispensable part in the blade certification process. In the full-scale static experiments, the strain of the wind turbine blade is related to the applied loads, loading positions, stiffness, deflection, and other factors. At present, researches focus on the analysis of blade failure causes, blade load-bearing capacity, and parameter measurement methods in addition to the correlation analysis between the strain and the applied loads primarily. However, they neglect the loading positions and blade displacements. The correlation among the strain and applied loads, loading positions, displacements, etc. is nonlinear; besides that, the number of design variables is numerous, and thus the calculation and prediction of the blade strain are quite complicated and difficult using traditional numerical methods. Moreover, in full-scale static testing, the number of measuring points and strain gauges are limited, so the test data have insufficient significance to the calibration of the blade design. This paper has performed a study on the new strain prediction method by introducing intelligent algorithms. Back propagation neural network (BPNN) improved by Particle Swarm Optimization (PSO) has significant advantages in dealing with non-linear fitting and multi-input parameters. Models based on BPNN improved by PSO (PSO-BPNN) have better robustness and accuracy. Based on the advantages of the neural network in dealing with complex problems, a strain-predictive PSO-BPNN model for full-scale static experiment of a certain wind turbine blade was established. In addition, the strain values for the unmeasured points were predicted. The accuracy of the PSO-BPNN prediction model was verified by comparing with the BPNN model and the simulation test. Both the applicability and usability of strain-predictive neural network models were verified by comparing the prediction results with simulation outcomes. The comparison results show that PSO-BPNN can be utilized to predict the strain of unmeasured points of wind turbine blades during static testing, and this provides more data for characteristic structural parameters calculation.
    Electronic ISSN: 1996-1944
    Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
    Published by MDPI
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  • 7
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    Identification and Evaluation of Strain B37 of Bacillus subtilis Antagonistic to Sapstain Fungi on Poplar Wood (2014)
    Hindawi
    Details
    Publication Date: 2014-10-22
    Description: Devaluation of poplar products by sapstain accounts for huge and unpredictable losses each year in China. We had isolated four poplar sapstain fungi, Ceratocystis adiposa Hz91, Lasiodiplodia theobromae YM0737, L. theobromae Fx46, and Fusarium sp. YM05, from five poplar varieties and 13 antagonistic bacteria from nine diverse varieties. After being experimented with agar plates, wood chips, and enzyme activities, strain B37 was identified as the best poplar sapstain biocontrol bacterium. The strain B37 was identified as Bacillus subtilis using sequences of the 16S rRNA gene, physiological biochemical, and morphological characteristics.
    Electronic ISSN: 1537-744X
    Topics: Natural Sciences in General
    Published by Hindawi
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  • 8
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    Materials, Vol. 10, Pages 923: Multiaxial Fatigue Damage Parameter and Life Prediction without Any Additional Material Constants (2017)
    MDPI Publishing
    In: Materials
    Details
    Publication Date: 2017-08-10
    Description: Materials, Vol. 10, Pages 923: Multiaxial Fatigue Damage Parameter and Life Prediction without Any Additional Material Constants Materials doi: 10.3390/ma10080923 Authors: Zheng-Yong Yu Shun-Peng Zhu Qiang Liu Yunhan Liu Based on the critical plane approach, a simple and efficient multiaxial fatigue damage parameter with no additional material constants is proposed for life prediction under uniaxial/multiaxial proportional and/or non-proportional loadings for titanium alloy TC4 and nickel-based superalloy GH4169. Moreover, two modified Ince-Glinka fatigue damage parameters are put forward and evaluated under different load paths. Results show that the generalized strain amplitude model provides less accurate life predictions in the high cycle life regime and is better for life prediction in the low cycle life regime; however, the generalized strain energy model is relatively better for high cycle life prediction and is conservative for low cycle life prediction under multiaxial loadings. In addition, the Fatemi–Socie model is introduced for model comparison and its additional material parameter k is found to not be a constant and its usage is discussed. Finally, model comparison and prediction error analysis are used to illustrate the superiority of the proposed damage parameter in multiaxial fatigue life prediction of the two aviation alloys under various loadings.
    Electronic ISSN: 1996-1944
    Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
    Published by MDPI Publishing
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  • 9
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    Materials, Vol. 10, Pages 698: A Combined High and Low Cycle Fatigue Model for Life Prediction of Turbine Blades (2017)
    MDPI Publishing
    In: Materials
    Details
    Publication Date: 2017-06-27
    Description: Combined high and low cycle fatigue (CCF) generally induces the failure of aircraft gas turbine attachments. Based on the aero-engine load spectrum, accurate assessment of fatigue damage due to the interaction of high cycle fatigue (HCF) resulting from high frequency vibrations and low cycle fatigue (LCF) from ground-air-ground engine cycles is of critical importance for ensuring structural integrity of engine components, like turbine blades. In this paper, the influence of combined damage accumulation on the expected CCF life are investigated for turbine blades. The CCF behavior of a turbine blade is usually studied by testing with four load-controlled parameters, including high cycle stress amplitude and frequency, and low cycle stress amplitude and frequency. According to this, a new damage accumulation model is proposed based on Miner’s rule to consider the coupled damage due to HCF-LCF interaction by introducing the four load parameters. Five experimental datasets of turbine blade alloys and turbine blades were introduced for model validation and comparison between the proposed Miner, Manson-Halford, and Trufyakov-Kovalchuk models. Results show that the proposed model provides more accurate predictions than others with lower mean and standard deviation values of model prediction errors.
    Electronic ISSN: 1996-1944
    Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
    Published by MDPI Publishing
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  • 10
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    Materials, Vol. 10, Pages 513: A New Energy-Critical Plane Damage Parameter for Multiaxial Fatigue Life Prediction of Turbine Blades (2017)
    MDPI Publishing
    In: Materials
    Details
    Publication Date: 2017-05-09
    Description: As one of fracture critical components of an aircraft engine, accurate life prediction of a turbine blade to disk attachment is significant for ensuring the engine structural integrity and reliability. Fatigue failure of a turbine blade is often caused under multiaxial cyclic loadings at high temperatures. In this paper, considering different failure types, a new energy-critical plane damage parameter is proposed for multiaxial fatigue life prediction, and no extra fitted material constants will be needed for practical applications. Moreover, three multiaxial models with maximum damage parameters on the critical plane are evaluated under tension-compression and tension-torsion loadings. Experimental data of GH4169 under proportional and non-proportional fatigue loadings and a case study of a turbine disk-blade contact system are introduced for model validation. Results show that model predictions by Wang-Brown (WB) and Fatemi-Socie (FS) models with maximum damage parameters are conservative and acceptable. For the turbine disk-blade contact system, both of the proposed damage parameters and Smith-Watson-Topper (SWT) model show reasonably acceptable correlations with its field number of flight cycles. However, life estimations of the turbine blade reveal that the definition of the maximum damage parameter is not reasonable for the WB model but effective for both the FS and SWT models.
    Electronic ISSN: 1996-1944
    Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
    Published by MDPI Publishing
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