Arama Sonuçları - (mechanics OR mechanical), (analytical. OR (catalytical. OR catalytical. ))~

Advanced Catalytic Materials: Current Status and Future Progress

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Advances in Medium and High Temperature Solid Oxide Fuel Cell Technology

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Electrochemistry of N4 Macrocyclic Metal Complexes Volume 2: Biomimesis, Electroanalysis and Electrosynthesis of MN4 Metal Complexes /

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Topics in Modal Analysis & Testing, Volume 10 Proceedings of the 34th IMAC, A Conference and Exposition on Structural Dynamics 2016 /

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31st International Symposium on Shock Waves 1 Fundamentals /

İçindekiler: “…. -- Chapter9.Propagation Behavior and Mitigation of Shock Wave along Water inside a Rectangular Tube -- Chapter10.Dust Lofting behind shock waves what is the dominate Lofting Mechanism -- Chapter11.Development of a fast running method for blast wave propagation -- Chapter12.On the Energy Exchange Mechanisms Controlling Blast and Fragment Evolution in a Responding Stone Pipe -- Chapter13.Interaction of a Blast Wave with a Material Interface -- Chapter14.Laboratory simulation of explosions using conical shock tubes -- Chapter15.Shock Tube Study of the Effect of Nitric Oxide Addition on Ignition Delay Times of n-Dodecane/Air Mixtures -- Chapter16.Ignition Delay Times of Methane and Hydrogen Highly Diluted in Carbon Dioxide -- Chapter17.A Study of the Chemiluminescence of СН*, ОН*, С2* and СО2* during the Oxidation of C2H2 behind Reflected Shock Waves -- Chapter18.A Study on Soot Formation Characteristics of a Gasoline Surrogate Fuel Using a Shock Tube -- Chapter19.Effect of Dimethyl Methylphosphonate (DMMP) Addition on H2, CH4, and C2H4 ignition Behind Reflected Shock Waves -- Chapter20.CO and H2O Time-histories in a Shock-heated H2S/CH4 Blend near Atmospheric Pressure -- Chapter21.Thermochemical nonequilibrium modeling of O2 -- Chapter22.State-Resolved Transport Properties of Electronically Excited High-Temperature Flows behind Strong Shock Waves -- Chapter23.Oxygen Catalytic Recombination on Titanium Surface -- Chapter24.Computations of a Shock Layer Flow with a Vibrational-Specific Kinetics Model -- Chapter25.A One-dimensional Modeling of Seed-electron Generation and Electron Avalanche in Laser-supported Detonation -- Chapter26.PLIF-based concentration measurement of OH behind the blast wave emanating from an oxy-hydrogen detonation-driven shock tube -- Chapter27.Flame Propagation over the Heat Absorbing Substrate -- Chapter28.Propagation Mechanism of Detonations in Rough Walled Tube -- Chapter29.Effect of hydrodynamic instabilities on the development of hydrogen-air flame -- Chapter30.Characteristics of Crumpling Behavior of Graphene Oxide and Its Effects on Deflagration-to-Detonation Transition -- Chapter31.Detonation decay and flame propagation through a channel with porous walls -- Chapter32.Gas Flow with Stabilized Detonation in a Plane Channel -- Chapter33.Numerical Investigation on Vibrational Nonequilibrium Effect on ZND detonation model -- Chapter34.Stabilities of Rotating Detonation -- Chapter35.The influence of shock reflections on detonation re-initiation -- Chapter36.Experimental studies around shock tube for dynamic calibrations of high-frequency pressure transducers -- Chapter37.Effect of Imaging Blurring on 3D Computed Tomography of Chemiluminescence -- Chapter38.Time-Resolved Optical Flow of Supersonic Beveled Nozzles -- Chapter39.The Effect of Adaptive Sampling on Fluorescence Velocimetry Measurements in High-Speed Flows -- Chapter40.High-resolution background oriented schlieren technique for a laser-induced underwater shock wave -- Chapter41.Evaluation of the effect of an air plasma on the degradation of metallic coatings based on an analysis of the emission from the air behind the front of strong shock waves in the spectral range of 120－400 nm -- Chapter42.Application of NO Laser Induced Fluorescence in JF-10 Detonation-Driven Shock Tunnel -- Chapter43.Molecular Tagging Velocimetry of NH Fluorescence ina High-enthalpy Rarefied Gas Flow -- Chapter44.Measurements of Jet A-1 Vapor Concentration Using Quantum Cascade Laser -- Chapter45.Temperature Measurement in a Shock Tunnel Using Tunable Diode Laser Absorption Spectroscopy -- Chapter46.Measurement and Formulation of Velocity, Attitude and Trajectory of Moving Object Using Magnet-Coil Method for High-Speed Penetration Experiment -- Chapter47.Investigations of density field on a flat plate shock-boundary layer interaction at Hypersonic speeds using BOS -- Chapter48.Schlieren Tomography to Visualise Three Dimensional Supersonic Flows -- Chapter49.Interaction of a planar shock wave with a water surface -- Chapter50.Basic Experiment on Focusing Schieren PIV Method with LED Light Source -- Chapter51.Boundary-Layer Transition Detection at High Enthalpy Flow Conditions using Temperature-Sensitive Paint -- Chapter52.Development of Sprayable Ultrafast-PSP for Unsteady Flow -- Chapter53.Three-Dimensional Measurement of the Lateral Jet / Cross FlowInteraction Field by Colored-Grid Background Oriented Schlieren (CGBOS) Technique -- Chapter54.Numerical Investigation of Dust Lifting Induced by Vertical Shock Wave -- Chapter55.Gas Surface Interaction of Carbon Ablator in a Shock Tube -- Chapter56.Numerical Simulations of Shock Wave Interaction with a Water Droplet by Sharp Interface Methods -- Chapter57.High Order Hybrid Compact-WENO-Z Finite Difference Scheme for Hyperbolic Conservation Laws -- Chapter58.A fast mathematical modelling method for aerodynamic-heating predictions -- Chapter59.A Multi-Space Interrelation Theory for Correlating Aerodynamic Data from Hypersonic Ground Testing -- Chapter60.Reynolds Stress Models for Shock ? …”
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Nanozymes: Next Wave of Artificial Enzymes Yazar: Wang, Xiaoyu, Guo, Wenjing, Hu, Yihui, Wu, Jiangjiexing, Wei, Hui

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Solid-State NMR in Zeolite Catalysis Yazar: Xu, Jun, Wang, Qiang, Li, Shenhui, Deng, Feng

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Synthesis, Structure and Properties of Poly(lactic acid)

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Materials Processing Fundamentals 2018

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Materials Processing Fundamentals 2019

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Handbook of Gas Sensor Materials : Properties, Advantages and Shortcomings for Applications Volume 1: Conventional Approaches. Yazar: Korotcenkov, Ghenadii

İçindekiler: “…References -- Chapter 10: Surface Modifiers for Metal Oxides in Conductometric Gas Sensors -- 10.1 General Consideration -- 10.2 Sensitization Mechanisms -- 10.3 Bimetallic Catalysts -- 10.4 Approaches to Noble Metal Cluster Forming -- References -- Chapter 11: Catalysts Used in Calorimetric (Combustion-Type) Gas Sensors -- References -- Chapter 12: Filters in Gas Sensors -- 12.1 Passive Filters -- 12.2 Catalytically Active Filters -- 12.3 Sorbents for Gas Preconcentrators -- References -- Part III: Materials for Specific Gas Sensors -- Chapter 13: Materials for Piezoelectric-Based Gas Sensors -- 13.1 Piezoelectric Materials -- 13.2 Saw Devices -- 13.2.1 Materials for Interdigital Transducers -- 13.3 High-Temperature Devices -- 13.4 Miniaturization of Piezoelectric Sensors -- 13.5 Sensing Layers -- 13.5.1 General Requirements -- 13.5.2 Features of Sensing Materials Used in Acoustic Wave Gas Sensors -- References -- Chapter 14: Materials for Optical, Fiber Optic, and Integrated Optical Sensors -- 14.1 General View on Optical Gas Sensing -- 14.2 Fibers for Optical Gas Sensors -- 14.3 Planar Waveguide and Integrated Optical Sensors -- 14.4 Light Sources for Optical Gas Sensors -- 14.5 Detectors for Optical Gas Sensors -- 14.6 Other Elements of Optical Gas Sensors -- References -- Chapter 15: Materials for Electrochemical Gas Sensors with Liquid and Polymer Electrolytes -- 15.1 Membranes -- 15.2 Electrolytes -- 15.3 Electrodes -- 15.4 Gas Diffusion Electrodes -- References -- Chapter 16: Materials for Capacitance-Based Gas Sensors -- 16.1 General Discussions -- 16.2 Polymer-Based Capacitance Gas Sensors -- 16.3 Other Materials -- References -- Chapter 17: Sensing Layers in Work-Function-Type Gas Sensors -- 17.1 Work-Function-Type Gas Sensors -- 17.2 Materials Tested by KP -- 17.2.1 Metallic Layers -- 17.2.2 Inorganic Layers -- 17.2.3 Organic Layers.…”
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