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The sections in this article are Introduction and Definitions Introduction Historical Aspects Definition of Quality: Product Functionality Quality Control Quality Assurance Management and Strategy PAT Initiative PAT Toolbox The Concept of Quality by Design ( Qb D ) ICH The Concept of a Design Space Implications for Other Branches of the Life Sciences General Remarks Biotechnology Food Industry Summary and Outlook Toolboxes for Process Control and Understanding Introduction: Causality Sampling Process Validation Role of Design of Experiments ( Do E ) Role of Failure Mode and Effects Analysis ( FMEA ) Measurement Technologies (How to Measure) Selection of the Appropriate Technique Working in Aqueous Systems Trace Analysis Qualification of a Spectrometer Data Analysis and Calibration (How to Process Data and How to Calibrate) Introduction Spectral Data Pretreatments and Data Cleaning Chemometrics Regression Analysis Process Control (How to Control a Process) Specific Problems Encountered in Industrial Process Analytics Moisture Measurements ( NIR , MW ) NIR Spectroscopy Microwave Resonance Technique ( MWR ) Process Analytics of Solids and Surfaces: Specular and Diffuse Reflectance Working in Multiple Scattering Systems: Separating Scatter from Absorbance Basics in the Measurement of Opaque Systems Separation of Scatter from Absorption Optical Penetration Depth Spectral Imaging and Multipoint Spectroscopy Survey Through Industrial Applications Selection of Applications Pharmaceutical Industry UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Food and Agriculture UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Polymers UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Perspectives Technology Roadmap 2015+ Medical Applications and Tomographic Imaging Multi‐ Point‐Information Systems in Manufacturing Multimodal Spatially Resolved Spectroscopy Microreactor Control and Reaction Tomography
The sections in this article are Introduction and Definitions Introduction Historical Aspects Definition of Quality: Product Functionality Quality Control Quality Assurance Management and Strategy PAT Initiative PAT Toolbox The Concept of Quality by Design ( Qb D ) ICH The Concept of a Design Space Implications for Other Branches of the Life Sciences General Remarks Biotechnology Food Industry Summary and Outlook Toolboxes for Process Control and Understanding Introduction: Causality Sampling Process Validation Role of Design of Experiments ( Do E ) Role of Failure Mode and Effects Analysis ( FMEA ) Measurement Technologies (How to Measure) Selection of the Appropriate Technique Working in Aqueous Systems Trace Analysis Qualification of a Spectrometer Data Analysis and Calibration (How to Process Data and How to Calibrate) Introduction Spectral Data Pretreatments and Data Cleaning Chemometrics Regression Analysis Process Control (How to Control a Process) Specific Problems Encountered in Industrial Process Analytics Moisture Measurements ( NIR , MW ) NIR Spectroscopy Microwave Resonance Technique ( MWR ) Process Analytics of Solids and Surfaces: Specular and Diffuse Reflectance Working in Multiple Scattering Systems: Separating Scatter from Absorbance Basics in the Measurement of Opaque Systems Separation of Scatter from Absorption Optical Penetration Depth Spectral Imaging and Multipoint Spectroscopy Survey Through Industrial Applications Selection of Applications Pharmaceutical Industry UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Food and Agriculture UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Polymers UV /Vis Spectroscopy NIR Spectroscopy Raman Spectroscopy Imaging Techniques Perspectives Technology Roadmap 2015+ Medical Applications and Tomographic Imaging Multi‐ Point‐Information Systems in Manufacturing Multimodal Spatially Resolved Spectroscopy Microreactor Control and Reaction Tomography
Residual stress is inherent in any fiber reinforced composite, created by the laminates processing route and high levels of anisotropy. The aim of this article is to provide an up to date review of the current state of the art in experimental techniques for the determination of residual stress in thermosetting fiber reinforced composites. Residual stress is considered at a micro-mechanical, macro-mechanical, and global scale as each require specific techniques to investigate and offer their own unique challenges to the designer. Many advances have been made in the experimental determination of residual stress in fiber reinforced composites since the last comprehensive review of the topic by Shokrieh in 2014. However, more work still needs to be done to develop a method that is applicable to all cases and can be applied as a universal standard. It remains a significant challenge to experimentally determine residual stress in thermosetting composites.
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