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200 10$aIntegral mechanical attachment$b[electronic resource] $ea resurgence of the oldest method of joining /$fRobert W. Messler, Jr
210   $aAmsterdam ;$aBoston $cButterworth-Heinemann$dc2006
215   $a1 online resource (427 p.)
300   $aDescription based upon print version of record.
311   $a0-7506-7965-4 
320   $aIncludes bibliographical references and index.
327   $aFront cover; Title page; Copyright; Table of contents; Front matter; Preface; 1 Introduction to Integral Mechanical Attachment; 1.1 The Oldest Method of Joining: Using Natural Shapes and Forms; 1.2 The Process Evolves, But Not Much!; 1.3 Integral Attachment: A Form of Mechanical Joining; 1.4 Integral Mechanical Attachment vs. Mechanical Fastening and Fasteners; 1.5 Advantages of Integral Mechanical Attachment; 1.6 Potential Shortcomings of Integral Attachment; 1.7 Summary; References; 2 Classification and Characterization of Integral Mechanical Attachments; 2.1 Why Classify Things at All?
327   $a2.2 Integral Attachment's Place Within the Taxonomy of Joining Processes and Methods2.3 A Classification Scheme for Integral Attachments Based on Feature Character or Operation; 2.4 An Alternative Classification Scheme Based on Method of Feature or Joint Creation; 2.6 Forces and Motions for Assembly of Rigid and Elastic Interlocks; 2.7 Plastic Attachment Methods; 2.8 Attachment Methods Versus Materials: Is It That Simple?; 2.9 Summary; References; 3 Rigid Integral Mechanical Attachments or Interlocks; 3.1 How Rigid Interlocks Work; 3.2 Sub-Classification Schemes for Rigid Interlocks
327   $a3.3 Completely Rigid Interlocking Joint Elements or Completely Rigid Joints3.4 Integral Rigid Locking Features; 3.5 Integral Rigid Attachment Features; 3.6 Embedded Rigid Fasteners; 3.7 Rigid Couplings and Connectors; 3.8 Rigid Locating Features (or Locators) for Elastic Snap-Fit Assembly; 3.9 Joint and Attachment Feature Permanency; 3.10 Summary; References; 4 Elastic Integral Mechanical Attachments or Interlocks; 4.1 How Elastic Interlocks Work; 4.2 Sub-Classification of Elastic Interlocks; 4.3 Elastic Integral Snap-Fits Used in Assembly of Plastic Parts; 4.4 Design Analysis for Snap-Fits
327   $a4.5 Combining Assembly Motions for Snap-Fit Assembly Security4.6 Snap-Fit Feature Enhancements; 4.7 Hook-and-Loop Attachments; 4.8 Other Elastic Attachment Methods; References; 5 Plastic (Formed-In) Integral Mechanical Attachments or Interlocks; 5.1 How Plastic (Formed-In) Interlocks Work; 5.2 Sub-Classification of Plastic (Formed-In) Interlocks; 5.3 Setting and Staking; 5.4 Metal Stitching and Metal Clinching; 5.6 Crimping and Hemming; 5.7 Thermal Staking; 5.9 Summary; References; 6 Integral Mechanical Attachment Classification Revisited
327   $a6.1 Comparison of Methods: Relative Advantages and Disadvantages6.2 Classification of Integral Mechanical Attachment Methods; 6.3 Correlations Between Joint Materials and Attachment Methods; 6.4 Summary; 7 Metal Attachment Schemes and Attachments; 7.1 Properties of Metals That Facilitate Integral Mechanical Attachment; 7.2 Sheet-Metal Attachment Schemes and Attachments; 7.3 Casting Attachment Schemes and Attachments; 7.4 Extrusion Attachment Schemes and Attachments; 7.5 Forging Attachment Schemes and Attachments; 7.6 Machined Attachments; 7.7 Summary; References; Bibliography
327   $a8 Polymer Attachment Schemes and Attachments
330   $aIntegral Mechanical Attachment, highlights on one of the world's oldest technologies and makes it new again.  Think of buttons and toggles updated to innovative snaps, hooks, and interlocking industrial parts.  Mechanical fasteners have been around as long as mankind, but manufacturers of late have been re-discovering their quick, efficient and fail proof advantages when using them as interlocking individual components as compared with such traditional means of joining materials like welding, soldering, gluing and using nuts bolts, rivets and other similar devices.  For many years, it 
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606   $aAdhesive joints
608   $aElectronic books.
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200 00$aBiological chemistry of arsenic, antimony and bismuth$b[electronic resource] /$feditor, Hongzhe Sun
210   $aHoboken, N.J. $cWiley$d2011
215   $a1 online resource (401 p.)
300   $aDescription based upon print version of record.
311   $a0-470-71390-9 
320   $aIncludes bibliographical references and index.
327   $aBiological Chemistry of Arsenic, Antimony and Bismuth; Contents; List of Contributors; Preface; 1 The Chemistry of Arsenic, Antimony and Bismuth; 2 Arsenic's Interactions with Macromolecules and its Relationship to Carcinogenesis; 3 Biological Chemistry of Antimony and Bismuth; 4 Metallomics Research Related to Arsenic; 5 Arsenic in Traditional Chinese Medicine; 6 Microbial Transformations of Arsenic in Aquifers; 7 Biomethylation of Arsenic, Antimony and Bismuth; 8 Metalloid Transport Systems; 9 Bismuth Complexes of Porphyrins and their Potential in Medical Applications
327   $a10 Helicobacter pylori and Bismuth11 Application of Arsenic Trioxide Therapy for Patients with Leukemia; 12 Anticancer Activity of Molecular Compounds of Arsenic, Antimony and Bismuth; 13 Radiobismuth for Therapy; 14 Genetic Toxicology of Arsenic and Antimony; 15 Metalloproteomics of Arsenic, Antimony and Bismuth Based Drugs; Index
330   $aArsenic, antimony and bismuth, three related elements of group 15, are all found in trace quantities in nature and have interesting biological properties and uses. While arsenic is most well known as a poison - and indeed the contamination of groundwater by arsenic is becoming a major health problem in Asia - it also has uses for the treatment of blood cancer and has long been used in traditional Chinese medicine. Antimony and bismuth compounds are used in the clinic for the treatment of parasitic and bacterial infections. Biological Chemistry of Arsenic, Antimony and Bismuth is an es
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606   $aBismuth$xPhysiological effect
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615  0$aBismuth$xPhysiological effect.
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