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200 00$aAntimicrobial peptides$b[electronic resource] /$f[editors, Joan Marsh and Jamie A. Goode]
210   $aChichester, England ;$aNew York $cWiley$d1994
215   $a1 online resource (293 p.)
225 1 $aCiba Foundation symposium ;$v186
300   $a"Symposium on Antimicrobial Peptides, held at the Ciba Foundation, London, 18-20 January 1994."
311   $a0-471-95025-4 
320   $aIncludes bibliographical references and indexes.
327   $aANTIMICROBIAL PEPTIDES; Chairman's opening remarks; Design and synthesis of antimicrobial peptides; Gene-encoded antibiotics made in bacteria; General discussion I; Biosynthesis of defensins and other antimicrobial peptides; Antimicrobial peptides from amphibian skin: an overview; Gene-encoded antimicrobial peptides from plants; Drosophila as a model system for antibacterial peptides; Function of antimicrobial proteins in insects; General discussion I I; Anti bacterial peptides in insect vectors of tropical parasitic disease
327   $aStructu re-f u nction relationships of tachyplesins and their analoguesBactericidal permeability-increasing protein in host defence against Gram- negative bacteria and endotoxin; General discussion I I I; Potential therapeutic applications of magainins and other antimicrobial agents of animal origin; Primitive vertebrate immunity: what is the evolutionary derivation of molecules that define the adaptive immune system?; Antimicrobial proteins with homology to serine proteases; Antimicrobial peptides as agents of mucosal immunity; Closing remarks; Index of contributors; Subject index
330   $aDescribes the structure and function of important peptides from several different organisms. An exciting development is the use of these peptides or their analogues in the treatment and prevention of infectious diseases. Considers ways in which these peptides may be used to control the insect vectors of key pathogens including the malarial parasite. Discusses the role of antimicrobial peptides in the mammalian immune system and their interaction with other components of that system.
410  0$aCiba Foundation symposium ;$v186.
606   $aPeptide antibiotics$vCongresses
606   $aProtein drugs$vCongresses
606   $aPeptides$xTherapeutic use$vCongresses
606   $aMicrobial peptides$vCongresses
608   $aElectronic books.
615  0$aPeptide antibiotics
615  0$aProtein drugs
615  0$aPeptides$xTherapeutic use
615  0$aMicrobial peptides
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712 12$aSymposium on Antimicrobial Peptides$f(1994 :$eCiba Foundation)
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200 10$aHandbook of molded part shrinkage and warpage /$fJerry M. Fischer
210   $aNorwich, NY $cPlastics Design Library/William Andrew Pub.$dc2003
215   $a1 online resource (265 p.)
225 1 $aPlastics Design Library
300   $aDescription based upon print version of record.
311   $a1-884207-72-3 
320   $aIncludes bibliographical references (p. [237]-239) and index.
327   $aFront Cover; Handbook of Molded Part Shrinkage and Warpage; Copyright Page; Table of Contents; Chapter 1. Introduction to Plastics Processing; 1.0 Introduction; 1.1 Interactivity Basics; 1.2 Thermodynamic Principles Governing Injection Molding; Chapter 2. Shrinkage and Warpage; 2.1 In-Mold Shrinkage; 2.2 Warpage; 2.3 Post-Mold Shrinkage; Chapter 3. Causes of Molded-Part Variation: Part Design; 3.1 Wall Thickness; 3.2 Ribs; 3.3 Bosses; 3.4 Example of Proper Part Design; 3.5 Other Design Considerations; Chapter 4. Causes of Molded-Part Variation: Material
327   $a4.1 Amorphous and Semicrystalline Resins4.2 Effects of Fillers, Reinforcements, Pigments, Time, and Stress; 4.3 Shrinkage Predictions: Using Pressure-Volume-Temperature (PVT) Relationships; Chapter 5. Causes of Molded-Part Variation: Mold Design; 5.1 Cavity Dimensions and Design Factors; 5.2 Gate Types; 5.3 Gate Location; 5.4 Gate Size; 5.5 Gate-Design Systems; 5.6 Runner Design; 5.7 Mold-Cooling Design; 5.8 Mold Construction Materials; 5.9 Prototype Molding with SLA or Similar Type Molds; 5.10 Pitfalls to Avoid; Chapter 6. Causes of Molded-Part Variation: Processing; 6.1 Molding Conditions
327   $a6.2 Injection Melt Temperature6.3 Injection Rate and Pressure; 6.4 Holding Pressure and Time; 6.5 Mold Temperature; 6.6 Demolding Temperature; 6.7 Molded-In Stresses; 6.8 Other Molding Processes; Chapter 7. Factors Affecting Post-Mold Shrinkage and Warpage; 7.1 Effects of Temperature on Dimensions; 7.2 Effects of Moisture on Dimensions; 7.3 Creep; Chapter 8. Controlling Mold and Post-Mold Shrinkage and Warpage; 8.1 Finding the Cause; 8.2 Processing Considerations; 8.3 Material Considerations; 8.4 Tooling Considerations; 8.5 Part Geometry; 8.6 Controlling Warpage
327   $aChapter 9. Computer-Aided Analysis9.1 Capabilities of CAA; 9.2 Limitations of CAA; 9.3 Selecting a CAA Program; 9.4 Customer Requirements; 9.5 Management Tools; 9.6 Filling Analysis; 9.7 Packing and Holding Simulation; 9.8 Shrinkage/Warpage Simulation; 9.9 Cooling Analysis; 9.10 Costs; 9.11 Conclusions; Chapter 10. Case Studies; 10.1 Unexpected Housing Shrink; 10.2 Changing Materials Triggers Warpage; 10.3 Creep in a Water Heater Stand; 10.4 Oversize Part Injection-Molding Alkyd Thermoset; 10.5 Inadequate Baby Dish Mold; 10.6 Gas Entrapment in Baby Dish Mold; 10.7 Warpage in a Molded Spool
327   $a10.8 Daisy-Wheel Breakage10.9 PVC Part-Flashing Problems; 10.10 Polycarbonate Switch Failure; 10.11 Square Poker Chip Tray, Inadequate Shot Size; 10.12 Problem Ejecting Square Poker Chips; 10.13 Military Cup Material "Shrinkage"; 10.14 Core-Deflection Problems; 10.15 Elevator Gib Warpage; 10.16 Sucker-Rod Guide Brittleness; 10.17 Bottle-Cap Thread Distortion; 10.18 Plastic Post Creep; 10.19 Excessive Shrinkage of Glass-Filled Nylon; 10.20 Preventing Warpage in Thin Molded Lids; Chapter 11. Data; 11.1 Unfilled Materials; 11.2 Effects of Fillers; 11.3 Shrinkage vs Various Parameters
327   $a11.4 Moisture Absorption Curves
330   $aThe handbook explains in plain terms why moldings shrink and warp, shows how additives and reinforcements change the picture, sets out the effect of molding process conditions, and tells why you never can have a single """"correct"""" shrinkage value. But that's not all. The handbook shows how to alleviate the problem by careful design of the molded part and the mold and by proper material selection. It also examines computer-aided methods of forecasting shrinkage and warpage. And most important of all, the handbook gives you the data you need to work with.  This is the most complete c
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606   $aPlastics$xMolding$vHandbooks, manuals, etc
615  0$aPlastics$xMolding
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