Search Results - Special 26

Speciality chemicals in mineral processing

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Clean technology for the manufacture of speciality chemicals

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Geo-Congress 2014 keynote lectures : geo-characterization and modeling for sustainability : proceedings of the 2014 Congress, February 23-26, 2014, Atlanta, Georgia /

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Operation and diagnostics of machines and production systems operational states II : special topic volume with invited peer reviewed papers only /

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Classical and modern engineering methods in fluid flow and heat transfer an introduction for engineers and students / by Dorfman, A. Sh. (Abram Shlemovich)

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Cryptosporidium the analytical challenge /

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Wear and contact mechanics /

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Digital privacy in the marketplace : perspectives on the information exchange / by Milne, George R.

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Heat transfer applications for the practicing engineer by Theodore, Louis

Table of Contents: “…Ethics.26. Numerical Methods.27. Economics and Finance.28. …”
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Nanotechnology in textiles advances and developments in polymer nanocomposites /

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Mathematics and physics for nanotechnology : technical tools and modelling / by Sia, Paolo Di

Table of Contents: “…1.5.6 Physics of Computation1.5.7 Quantum Signal Propagation in Nanosystems; 2: Vector Analysis; 2.1 Vectors and Scalars; 2.2 Direction Angles and Direction Cosines; 2.3 Equality of Vectors; 2.4 Vector Addition and Subtraction; 2.5 Multiplication by a Scalar; 2.6 Scalar Product; 2.7 Vector Product; 2.8 Triple Scalar Product; 2.9 Triple Vector Product; 2.10 Linear Vector Space V; 3: Vector Differentiation; 3.1 Introduction; 3.2 The Gradient Operator; 3.3 Directional Derivative; 3.4 The Divergence Operator; 3.5 The Laplacian Operator; 3.6 The Curl Operator…”
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High Energy Ecologically Safe HF/DF Lasers Physics of Self Initiated Volume Discharge Based HF/DF Lasers / by Apollonov, Victor V.

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System health management with aerospace applications /

Table of Contents: “…Mackey Overview 9.1 Introduction 9.2 Motivating Maturity Assessment 9.3 Review of Technology Readiness Levels 9.4 Special Needs of SHM 9.5 Mitigation Approaches 9.6 TRLs for SHM 9.7 A Sample Maturation Effort 9.8 Summary Bibliography10 Verification and Validation Lawrence Z. …”
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Advanced Simulation of Alternative Energy Simulation with Simulink® and SimPowerSystems(tm). by Perelʹmuter, V. M. (Viktor Moiseevich)

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Fatigue of materials and structures application to design and damage /

Table of Contents: “…Machine generated contents note: ch. 1 Multiaxial Fatigue / Marc Blétry and Georges Cailletaud -- 1.1.Introduction -- 1.1.1.Variables in a plane -- 1.1.2.Invariants -- 1.1.3.Classification of the cracking modes -- 1.2.Experimental aspects -- 1.2.1.Multiaxial fatigue experiments -- 1.2.2.Main results -- 1.2.3.Notations -- 1.3.Criteria specific to the unlimited endurance domain -- 1.3.1.Background -- 1.3.2.Global criteria -- 1.3.3.Critical plane criteria -- 1.3.4.Relationship between energetic and mesoscopic criteria -- 1.4.Low cycle fatigue criteria -- 1.4.1.Brown-Miller -- 1.4.2.SWT criteria -- 1.4.3.Jacquelin criterion -- 1.4.4.Additive criteria under sliding and stress amplitude -- 1.4.5.Onera model -- 1.5.Calculating methods of the lifetime under multiaxial conditions -- 1.5.1.Lifetime at N cycles for a periodic loading -- 1.5.2.Damage cumulation -- 1.5.3.Calculation methods -- 1.6.Conclusion -- 1.7.Bibliography -- ch. 2 Cumulative Damage / Jean-Louis Chaboche -- 2.1.Introduction -- 2.2.Nonlinear fatigue cumulative damage -- 2.2.1.Main observations -- 2.2.2.Various types of nonlinear cumulative damage models -- 2.2.3.Possible definitions of the damage variable -- 2.3.A nonlinear cumulative fatigue damage model -- 2.3.1.General form -- 2.3.2.Special forms of functions F and G -- 2.3.3.Application under complex loadings -- 2.4.Damage law of incremental type -- 2.4.1.Damage accumulation in strain or energy -- 2.4.2.Lemaitre's formulation -- 2.4.3.Other incremental models -- 2.5.Cumulative damage under fatigue-creep conditions -- 2.5.1.Rabotnov-Kachanov creep damage law -- 2.5.2.Fatigue damage -- 2.5.3.Creep-fatigue interaction -- 2.5.4.Practical application -- 2.5.5.Fatigue-oxidation-creep interaction -- 2.6.Conclusion -- 2.7.Bibliography -- ch. 3 Damage Tolerance Design / Raphael Cazes -- 3.1.Background -- 3.2.Evolution of the design concept of "fatigue" phenomenon -- 3.2.1.First approach to fatigue resistance -- 3.2.2.The "damage tolerance" concept -- 3.2.3.Consideration of "damage tolerance" -- 3.3.Impact of damage tolerance on design -- 3.3.1."…”
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Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

Table of Contents: “…Devices and sensors for linear acceleration measurement -- 5.1 Introduction -- 5.2 Types of accelerometers -- 5.2.1 Linear and pendulous accelerometers -- 5.2.2 Direct conversion accelerometers and compensating accelerometers -- 5.2.2.1 Direct conversion accelerometers -- 5.2.2.2 Compensating accelerometers -- 5.3 Accelerometer parameters -- 5.3.1 Acceleration measurement range azmax -- 5.3.2 Resolution azmin -- 5.3.3 Zero signal (bias) a0 -- 5.3.4 Scale factor Ka -- 5.3.5 Biasing error (misalignment) -- 5.3.6 Accelerometer frequency characteristics -- 5.3.7 Special accelerometer parameters -- 5.3.7.1 Magnetic leakage -- 5.3.7.2 Electromagnetic noise -- 5.3.7.3 Readiness time -- 5.3.7.4 Noise level in the accelerometer output -- 5.3.7.5 Sensitivity to external constant and variable magnetic fields -- 5.3.7.6 Sensitivity to changes in power supply voltage -- 5.3.7.7 Sensitivity to external pressure, humidity, and radiation -- 5.4 Float pendulous accelerometer (FPA) -- 5.4.1 Basic EMU design schemes -- 5.4.1.1 Advantages -- 5.4.1.2 Disadvantages -- 5.4.2 Hydrostatic accelerometer suspensions -- 5.4.3 FPA float balancing -- 5.4.4 Hydrodynamic forces and moments in the FPA -- 5.4.5 Movement of FPA float under vibration -- 5.5 Micromechanical accelerometers (MMAS) -- 5.5.1 The single-axis MMA -- 5.5.2 The three-axis MMA -- 5.5.3 The compensating type MMA -- 5.5.4 Solid-state MMA manufacturing techniques -- References --…”
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