Buch, Englisch, 780 Seiten, Format (B × H): 192 mm x 254 mm, Gewicht: 1548 g
Buch, Englisch, 780 Seiten, Format (B × H): 192 mm x 254 mm, Gewicht: 1548 g
ISBN: 978-1-4557-3131-2
Verlag: Elsevier Science
High-precision cleaning is required across a wide range of sectors, including aerospace, defense, medical device manufacturing, pharmaceutical processing, semiconductor/electronics, etc.
Cleaning parts and surfaces with solvents is simple, effective and low-cost. Although health and safety and environmental concerns come into play with the use of solvents, this book explores how safe and compliant solvent-based cleaning techniques can be implemented. A key to this is the selection of the right solvent. The author also examines a range of newer "green" solvent cleaning options.
This book supplies scientific fundamentals and practical guidance supported by real-world examples. Durkee explains the three principal methods of solvent selection: matching of solubility parameters, reduction of potential for smog formation, and matching of physical properties. He also provides guidance on the safe use of aerosols, wipe-cleaning techniques, solvent stabilization, economics, and many other topics.
A compendium of blend rules is included, covering the physical, chemical, and environmental properties of solvents.
Zielgruppe
<p>Engineers and scientists involved in precision cleaning across sectors including aerospace, defense, medical device manufacturing, pharmaceutical processing, semiconductor / electronics, etc.</p>
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Preface
Acknowledgments
Disclaimer
What You Can Do with This Book
A Note on Organization
Units Used in This Book
External References Cited in This Book
Chapter 1. Relationship of Solvent Properties to Structure
Abstract
1.1 Background
1.2 The Elements of Cleaning Solvents
1.3 The Incredible Shrinking Periodic Table
1.4 A Solvent can be Elements Arranged in a Structure
1.5 A Solvent can also be a Structure Populated with Additional Elements
1.6 The Future of Solvent Design
1.7 Specific Relationships of Composition and Structure to Solvent Properties
1.8 Solvent Design is Multidimensional
1.9 Solvent Design Goals
1.10 Design of Non-Traditional Solvents
1.11 Solvent Selection
Chapter 2. Solubility Scales (Parameters)
Abstract
2.1 Absolute and Relative Information
2.2 Molecular Soup
2.3 May the Force(s) be With You
2.4 Solubility Parameters
2.5 Kauri Butanol (Kb) Value
2.6 Other Measures of Solvency
2.7 Hildebrand Solubility Parameter
2.8 Hansen Three-Dimensional Solubility Parameters
2.9 Numerical Values of Hansen Solubility Parameters
2.10 The Basic Approach - Comparison to Other Materials
Chapter 3. Solvent Selection for Specific Tasks
Abstract
3.1 Background
3.2 The Nature of Soils
3.3 The Basic Approach to Solvent Selection
3.4 This Author's Approach
3.5 Autopsy of Some Soils
3.6 Food-Derived Residue
3.7 Lubricants
3.8 Greases
3.9 Coolants or Hydraulic Fluids
3.10 Polymer-Derived Residues
3.11 Biological Residue(s)
3.12 General Observations about Soils
3.13 Use of Hansen Solubility Parameters in Solvent Selection
3.14 Analysis for Specific Soil Components
3.15 General Results from the Use of HSP
3.16 Approach using Mixtures of Identified Soil Components
3.17 Solvent Selection to Clean Collections of Soils
3.18 Food-Derived Residue as a Soil Collection
3.19 Soil Composition Really Doesn't Matter
3.20 Lubricants as a Soil Collection
3.21 Grease as a Soil Collection
3.22 Coolants or Hydraulic Fluids as a Soil Collection
3.23 Polymer-Derived Residues as a Soil Collection
3.24 Medical Residues as a Soil Collection
3.25 A Summary of Lessons Concerning Cleaning Soil Composites
3.26 Identification of the HSP Values of Industrial Soil Composites
3.27 Working without Numbers-Use of the HSP without Soil Identification
3.28 Limitations of HSP Separation (RA) for Good Solvent Cleaning Performance
3.29 About Cleaning of All Soils
3.30 The Effect of Normal Boiling Temperature
3.31 Vapor Degreasing vs. Cold Cleaning
3.32 HSP for Vapor Degreasing vs. Cold Cleaning
Chapter 4. SHE Management (Solvent Substitution)
Abstract
4.1 Background
4.2 Why Substitute Solvents?
4.3 REACH for the Stars
4.4 Becoming Globally Harmonized
4.5 Game Playing
4.6 The Key Element in Successful Solvent Substitution
4.7 What's Important in Solvent Substitution?
4.8 Examples of Practical Solvent Substitution
4.9 Substitute Solvents for Trichloroethylene
4.10 Enclosed Cleaning Machines
4.11 Solvent Substitution and Use in Non-US Countries
4.12 Summary: Solvent Substitution
4.13 The Right to Know
4.14 Hazardous Air Pollutants (HAPS)
4.15 The Superfund
4.16 Exposure Limits
4.17 Future Impact of SHE Regulation
Chapter 5. Toxicology of Cleaning Solvents
Abstract
5.1 Background
5.2 Sources of Information
5.3 A Prime Substitute for an MSDS
5.4 Specific Hazard Information
5.5 Analysis of Hazard Ratings
5.6 Odor as a Protective Way to Avoid Toxicological Hazards
Chapter 6. The VOC Exemption Game
Abstract
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