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200 10$aEngine combustion $epressure measurement and analysis /$fDavid R. Rogers
205   $a1st ed.
210  1$aWarrendale, Pa. (400 Commonwealth Dr., Wallendale PA USA) :$cSociety of Automotive Engineers,$dc2010.
210  2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2010]
215   $a1 PDF (viii, 322 pages) $cillustrations, digital file
225 1 $aSociety of Automotive Engineers. Electronic publications.
311   $a0-7680-1963-X 
311   $a0-7680-3442-6 
320   $aIncludes bibliographical references (p. 305-308).
327   $a1. A Brief History of Engine Indicators -- 2. The Measurement Chain: Encoders -- 3. The Measurement Chain: Combustion Pressure Transducers -- 4. The Measurement Chain: Additional and Alternative Transducers -- 5. The Measurement Chain: Measurement Hardware -- 6. The Measurement Chain: Measurement System Software -- 7. Applications -- 8. Abnormal Combustion: Measurement and Evaluation -- 9. Successful Measurements -- 10. Specification and Integration into the Test Environment.
330 3 $aEngine combustion pressure analysis is a fundamental measurement technique applied universally in the research and development of reciprocating combustion engines. As combustion pressure measurement systems have become almost standard equipment in engine test environments, technicians and engineers need to have a solid understanding of this technique and the associated equipment.
330 8 $aThis book provides practical information on measuring, analyzing, and qualifying combustion data, as well as details on hardware and software requirements and system components. Describing the principles of a successful combustion measurement process, the book will enable technicians and engineers to efficiently generate the required data to complete their development tasks.
410  0$aSociety of Automotive Engineers. Electronic publications.
606   $aAutomobiles$xMotors$xCylinders
606   $aAutomobiles$xMotors$xCombustion
606   $aPressure$xMeasurement
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615  0$aAutomobiles$xMotors$xCombustion.
615  0$aPressure$xMeasurement.
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200 10$aSmart light-responsive materials $eazobenzene-containing polymers and liquid crystals /$fYue Zhao And Tomiki Ikeda
210   $aHoboken, N.J. $cWiley$dc2009
215   $a1 online resource (542 p.)
300   $aIncludes index.
311 08$a9780470175781 
311 08$a0470175788 
327   $aSMART LIGHT-RESPONSIVE MATERIALS; CONTENTS; Preface; Contributors; 1 AZOBENZENE POLYMERS FOR PHOTONIC APPLICATIONS; 1.1. Introduction to Azobenzene; 1.1.1. Azobenzene Chromophores; 1.1.2. Azobenzene Photochemistry; 1.1.3. Classes of Azobenzene Systems; 1.2. Photoinduced Motions and Modulations; 1.2.1. Molecular Motion; 1.2.2. Photobiological Experiments; 1.2.3. Photoorientation; 1.2.4. Domain Motion; 1.2.5. Macroscopic Motion; 1.2.6. Other Applications of Azobenzenes; Acknowledgment; References; 2 PHOTO-INDUCED PHENOMENA IN SUPRAMOLECULAR AZOBENZENE MATERIALS; 2.1. Introduction
327   $a2.2. Photoorientation2.3. Surface Relief Gratings; 2.4. Conclusion and Outlook; References; 3 PHOTODEFORMABLE MATERIALS AND PHOTOMECHANICAL EFFECTS BASED ON AZOBENZENE-CONTAINING POLYMERS AND LIQUID CRYSTALS; 3.1. Introduction; 3.2. Photodeformable Materials Based on Azobenzene-Containing Polymer Gels; 3.3. Photodeformable Materials Based on Azobenzene-Containing Solid Films; 3.4. Photodeformable Materials Based on Azobenzene-Containing LCs; 3.4.1. LCs and LCEs; 3.4.2. General Methods of Preparation of LCEs; 3.4.3. Temperature-/Electricity-/pH-Responsive LCEs
327   $a3.4.4. Photoresponsive Behavior of Chromophore-Containing LCs3.4.5. Light-Responsive LCEs; 3.5. Summary and Outlook; References; 4 AMORPHOUS AZOBENZENE POLYMERS FOR LIGHT-INDUCED SURFACE PATTERNING; 4.1. Surface Mass Transport; 4.1.1. Experimental Observations; 4.1.2. Patterning; 4.1.3. Dependence on Material Properties; 4.1.4. Photosoftening; 4.1.5. Photomechanical Effects; 4.1.6. Measuring Gratings; 4.1.7. Dynamics; 4.2. Mechanism; 4.2.1. Thermal Considerations; 4.2.2. Asymmetric Diffusion; 4.2.3. Mean-Field Theory; 4.2.4. Permittivity Gradient Theory; 4.2.5. Gradient Electric Force
327   $a4.2.6. Isomerization Pressure4.2.7. Applications of Surface Mass Transport; 4.3. Conclusions; Acknowledgment; References; 5 AZO POLYMER COLLOIDAL SPHERES: FORMATION, TWO-DIMENSIONAL ARRAY, AND PHOTORESPONSIVE PROPERTIES; 5.1. Introduction; 5.2. Azo Polymer Synthesis; 5.3. Self-Assembly of Polydispersed Amphiphilic Azo Polymers in Solutions; 5.3.1. Characteristics of Polydispersed Azo Polymer Self-Assembly; 5.3.2. Colloidal Sphere Formation and Characterization; 5.3.3. Colloidal Sphere Formation Mechanism; 5.3.4. Hybrid Colloids Composed of Two Types of Amphiphilic Azo Polymers
327   $a5.4. Photoresponsive Properties of Azo Polymer Colloidal Spheres5.4.1. Deformation Induced by Interfering Ar(+) Laser Beams; 5.4.2. Deformation Induced by a Single Ar(+) Laser Beam; 5.4.3. Photoresponsive Porperties of Hybrid Colloids; 5.5. Photoresponsive 2-D Colloidal Array and Its in situ Structure Inversion; 5.5.1. Colloidal Array and Photoinduced Dichroism; 5.5.2. Porous Structure from in situ Colloidal Array Structure Inversion; 5.6. Closing Remarks; References; 6 AZOBENZENE-CONTAINING BLOCK COPOLYMER MICELLES: TOWARD LIGHT-CONTROLLABLE NANOCARRIERS
327   $a6.1. What is the Use of Light-Controllable Polymer Micelles?
330   $aThis book reviews the cutting-edge significant research in the field of smart light-responsive materials based on azobenzene polymers and liquid crystals. Emphasis is placed on the discovery of new phenomena from the past 5 years, their underlying mechanisms, new functionalities, and properties achieved through rational design. Edited by leading authorities in the field, Zhao and Ikeda, the chapters are authored by an internationally-recognized team of experts from North America, Europe, and Asia. Smart Light-Responsive Materials will serve to catalyze new research that will lead this field ov
606   $aSmart materials
606   $aPolymers$xOptical properties
606   $aAzo compounds
606   $aLiquid crystals
615  0$aSmart materials.
615  0$aPolymers$xOptical properties.
615  0$aAzo compounds.
615  0$aLiquid crystals.
676   $a620.1/1295
700   $aZhao$b Yue$f1961-$01841822
701   $aIkeda$b Tomiki$01841823
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