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دانلود کتاب Coatings Technology Handbook
دانلود کتاب کتابچه راهنمای فناوری پوشش ها
مشخصات کتاب
Coatings Technology Handbook
ویرایش: 3
نویسندگان: Arthur A. Tracton
سری:
ISBN (شابک) : 1574446495, 9781574446494
ناشر: CRC Press
سال نشر: 2005
تعداد صفحات: 930
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 8 مگابایت
قیمت کتاب (تومان) : 59,000
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توضیحاتی در مورد کتاب کتابچه راهنمای فناوری پوشش ها
این مرجع دایرهالمعارفی که به عنوان راهنمای همهجانبه برای کل حوزه فناوری پوششها خدمت میکند، طیف متنوعی از موضوعات را پوشش میدهد - از جمله مفاهیم اساسی، انواع پوشش، مواد، فرآیندها، آزمایشها و کاربردها - و خلاصهای از آخرین پیشرفتها و روش های استاندارد پوشش. از بینش و تجربه بیش از 100 متخصص شناخته شده در بیش از 100 فصل برای انتخاب و اعمال بهترین پوشش ها برای نیازهای محصول خود استفاده کنید.
با تاکید بر تبادل بین رشتهای ایدهها و رویکردها، کتابچه فناوری پوششها، ویرایش دوم جدیدترین روشهای آزمایش، از جمله طیفسنجی مادون قرمز، آنالیز حرارتی را بررسی میکند. مانیتورینگ هوازدگی و درمان ... به طور گسترده جزئیات انواع فرآیندهای معاصر مانند فلکسوگرافی، آبکاری الکترولس، عملیات سطح شعله، برجسته سازی و تقویم ... تجزیه و تحلیل مواد فعلی و پوشش های سطحی از رزین ها و الاستومرهای ترموپلاستیک تا چرم های پزشکی قابل لایه برداری، درمان شده با تشعشع. ، و پوشش های فلزی ... و خیلی بیشتر.
توضیحاتی درمورد کتاب به خارجی
Serving as an all-in-one guide to the entire field of coatings technology, this encyclopedic reference covers a diverse range of topics-including basic concepts, coating types, materials, processes, testing and applications—summarizing both the latest developments and standard coatings methods. Take advantage of the insights and experience of over 100 recognized experts in over 100 chapters to select and apply the best coatings for your own product needs.
Emphasizing an interdisciplinary exchange of ideas and approaches, the Coatings Technology Handbook, Second Edition review the most recent testing methods, including infrared spectroscopy, thermal analysis, weathering, and cure monitoring…extensively details a variety of contemporary processes such as flexography, electroless plating, flame surface treatment, embossing, and calendaring …analyses current materials and surface coatings from resins and thermoplastic elastomers to peelable medical, radiation-cured, leather, and metal coatings…and much more.
فهرست مطالب
Cover......Page 1
Preface to Third Edition......Page 7
Contributors......Page 9
Contents......Page 13
Fundamentals and Testing......Page 21
1.1 Introduction......Page 23
1.2 Rheology......Page 24
1.2.1.1 Plasticity......Page 25
1.2.1.2 Pseudoplasticity......Page 26
1.2.4 Viscosity Measurement......Page 28
1.2.5 Yield Value......Page 29
1.3.3 Wetting......Page 30
1.3.4 Surfactants......Page 32
1.3.5 Leveling......Page 33
Bibliography......Page 34
2.2.1 Surface Tension......Page 35
2.2.2 Viscosity......Page 37
2.2.3 Thixotropy......Page 38
2.3 Rheological Phenomena in Coating......Page 39
2.3.3 Sagging and Slumping......Page 40
2.3.4 Leveling......Page 42
2.3.5 Viscosity Changes after Application......Page 43
2.3.6 Edge and Corner Effects......Page 44
2.3.7 Depressions: Bernard Cells and Craters......Page 45
References......Page 47
3.2 Yield Value......Page 49
3.3 Leveling and Viscosity......Page 50
3.4 Leveling and Surface Tension......Page 51
Bibliography......Page 52
4.1.1 Molecular-Weight Averages......Page 53
4.2.1.1 Dependence on Molecular Weight......Page 54
4.2.1.2 Concentration Dependence of the Viscosity......Page 55
4.3.1 The Glass Transition Temperature......Page 56
4.3.2 Tensile and Shear Moduli......Page 57
References......Page 58
5.1 Contact Angle Equilibrium......Page 59
5.2 Forces of Attraction......Page 61
5.3 Real and Ideal Adhesive Bond Strengths......Page 66
References......Page 67
6.1.1 Components at the Interface......Page 69
6.1.2 Causes of Failure......Page 70
6.2.1 Cross-Cut Test......Page 71
6.3 Delamination Procedures......Page 72
6.3.1 Knife-Cutting Method......Page 73
6.3.2 Peel Test......Page 74
6.4.1 Scratch Technique......Page 75
6.4.2 Indentation Debonding......Page 76
6.4.3 Impact Tests......Page 77
6.5.1 Ultrasonic Pulse-Echo System......Page 78
6.5.3 Thermographic Detection of Defects......Page 79
6.6 Outlook......Page 80
References......Page 81
7.2 Resins......Page 83
7.7.2 Formulation Volume......Page 84
7.9 Cost......Page 86
Bibliography......Page 87
8.2 Principles......Page 89
8.3 Instrumentation......Page 90
8.4.1 Separation......Page 91
8.4.4 Infrared Photoacoustic Spectroscopy and Depth Profiling......Page 92
8.5 Data Interpretation......Page 93
8.6 Applications......Page 94
References......Page 95
9.3 Techniques......Page 97
9.4 Applications......Page 98
Bibliography......Page 99
Color Measurement for the Coatings Industry......Page 101
Bibliography......Page 102
11.2 Technique......Page 103
11.3 Method......Page 104
11.5 Repeatability and Reproducibility......Page 105
11.6 Conclusion......Page 107
12.2 Sunlight......Page 109
12.3 Accelerated Light Sources Compared to Sunlight......Page 110
12.4.2 Sunshine Carbon Arc (Open Flame Carbon Arc: ASTM G 152)......Page 112
12.4.3.1 Effect of Xenon Filters......Page 113
12.4.3.3 Effect of Irradiance Setting......Page 114
12.5.1 FS-40 Lamps (F40-UVB) (ASTM G 154)......Page 115
12.5.2 UVB-313 Lamp (ASTM G 154)......Page 116
Acknowledgments......Page 117
References......Page 118
13.1 The Dielectric Response......Page 119
13.2 Changes In Resistivity During Cure......Page 120
13.2.1 Process Control through Dielectric Feedback......Page 121
References......Page 123
14.1 Cold Rolled Steel Panels......Page 125
14.1.1 Surface Profile......Page 126
14.1.3 Surface Preparation......Page 127
14.2 Aluminum Panels......Page 128
14.2.2 Pretreatment......Page 129
14.3.1 Surface Preparation......Page 130
Bibliography......Page 131
15.1 Introduction......Page 133
15.2 Standard Two-Level Factorial Designs......Page 134
15.2.1 Case study - Screening Factors thought to Affect a Spin Coater......Page 135
15.3 Optimization via Response Surface Methods (RSMs)......Page 136
15.4 Mixture Designs for Optimal Formulation......Page 137
References......Page 138
16.1 Light Spectra......Page 139
16.1.1 Fluorescent Lamps......Page 140
16.1.2 Xenon Arc Lamps......Page 141
16.3.2 Humidity......Page 142
16.7 Light Stability Testing Standards......Page 143
References......Page 144
17.3 Title 29 (Labor)......Page 145
17.4 Protection......Page 146
17.8 Food and Drug Administration (FDA)......Page 147
17.9 Which Regulation?......Page 148
Coating and Processing Techniques......Page 149
18.1 Introduction......Page 151
18.2 History......Page 152
18.3 Theory and Principle......Page 153
18.5 The Rod Coating Station......Page 154
18.6.3 Lower Setup Cost......Page 157
18.6.5 Limitations......Page 158
19.2 Manifold Theory and Design......Page 159
19.4.1 Lip Adjustment Design......Page 162
19.4.2 Lip Wiping Face Design......Page 163
19.9 Proximity versus Contact Coating......Page 164
19.10.1 Slot Head-to-Roll Position and Angle of Contact......Page 166
19.10.4 Support and Adjustment System Design Specifications......Page 167
19.10.7 Lip Opening Setup......Page 169
19.12.1 Die Control......Page 170
19.14 Die Cleanup......Page 172
20.1 Product Considerations......Page 175
20.2.2 Heat Seal Characteristics......Page 177
20.3.1 Melt Temperatures......Page 179
20.3.2 Other Considerations......Page 180
21.2.1 Development......Page 181
21.2.2 Details and Disadvantages......Page 182
22.3 Products......Page 193
22.3.2 Dot Coating......Page 194
22.3.4 Foam Coatings......Page 195
22.4 Advantages......Page 196
23.1 Introduction......Page 199
23.2 Geometry of the Printing Screen......Page 200
23.4 Dynamics of the Squeegee......Page 201
References......Page 202
24.1.1 Historical Development of the Aniline and Flexographic Printing Process......Page 203
24.2 Flexo Press Systems......Page 204
24.2.2 Stack Presses......Page 205
24.2.3 In-Line Systems......Page 206
24.3 The Most Important Flexo Deck System......Page 207
24.3.1 Three-Roller System (Fountain Roller Color Deck)......Page 208
24.4 Printing Forms or Plates......Page 209
24.4.2 Printing Plate Mounting and Proofing......Page 210
24.5.2 Flexo Inks......Page 211
25.2 Continuous Jet Printing......Page 213
25.3 Impulse Jet (Drop-On-Demand) Printing......Page 214
25.4 Ink-Jet Inks......Page 215
Bibliography......Page 216
26.2 Advantages......Page 217
26.4 Process......Page 218
26.5 Equipment......Page 219
26.5.6 Counterelectrodes......Page 220
References......Page 221
Bibliography......Page 222
27.1 Introduction......Page 223
27.2 Plating Systems......Page 224
27.3.1 Deposition Rate......Page 225
27.4 Practical Applications2-4......Page 226
27.5 Mechanisms of Autocatalytic Metal Ion Reduction......Page 227
27.7.1 Copper Deposition......Page 229
27.7.2 Nickel Plating......Page 230
27.7.4 Deposition of Precious Metals......Page 231
27.8 Properties of Chemically Deposited Metal Coatings......Page 232
References......Page 233
28.1 General Definition......Page 235
28.2.2 Specific......Page 236
28.3 Surface Preparation......Page 238
28.5.1 Thickness......Page 239
28.5.4 Wear Resistance (Surface Hardness)......Page 240
28.5.7 Heat Resistance......Page 241
28.5.9 Hydrogen Embrittlement......Page 242
29.2.1 General Applications......Page 243
29.4.1 Thickness......Page 244
29.4.5 Lubricity......Page 245
29.4.9 Hydrogen Embrittlement......Page 246
30.2 General Principles of Sputtering......Page 249
30.3.1 Direct Current Diode Sputtering......Page 251
30.3.4 Magnetron Sputtering......Page 252
30.3.4.1 Planar Magnetron......Page 253
30.3.5 Beam Sputtering......Page 254
30.3.6 Reactive Sputtering......Page 255
30.5 Properties of Sputtered Thin Film Coatings......Page 256
30.7.1 Electrical......Page 257
Bibliography......Page 258
31.1 Introduction......Page 259
31.2.2 Electron Beam Evaporation......Page 261
31.2.3 Sputter Deposition in Plasma......Page 262
31.2.3.1 Diode Plasmas......Page 263
31.2.3.2 Magnetically Enhanced Plasmas......Page 264
31.2.3.3 Unbalanced Magnetron Deposition......Page 267
31.2.4 Reactive Sputter Deposition......Page 269
31.2.5 Cathodic Arc Deposition......Page 271
31.3.1 Thermal Chemical Vapor Deposition......Page 274
31.3.2 Plasma-Enhanced Chemical Vapor Deposition (PECVD)......Page 275
31.4.1 Decorative Coatings......Page 280
31.4.2 Barrier Coatings......Page 284
References......Page 286
32.2 Cathodic Arc Plasma Deposition Process......Page 289
32.4 Cathodic Arc Emission Characteristics......Page 291
32.5 Microdroplets......Page 292
32.6 Recent Developments......Page 293
References......Page 295
33.2 Diamond and Diamondlike Films......Page 297
33.3.1 Plasma-Assisted Chemical Vapor Deposition (PACVD) Techniques......Page 298
33.4 Diamond and Diamondlike Film Properties......Page 299
33.5 Potential Applications......Page 300
References......Page 301
34.1 Introduction......Page 303
34.2 What Are Synergistic Coatings?......Page 304
34.4.1 Polymer Coatings (Lectrofluor)......Page 305
34.4.3 Titanium Nitride (Magnagold)......Page 306
35.2 Process......Page 315
35.3 Applications......Page 317
35.4 Summary......Page 323
Bibliography......Page 324
36.1 Regulatory Background......Page 327
36.2.1 Safety......Page 328
36.3 Vapor Oxidation......Page 329
36.4.2 Direct Vapor Condensation......Page 331
37.2 Functions of Surface Preparation......Page 333
37.3.3 Initial and Ultimate Strength Requirements......Page 334
37.4.1 Solvent Cleaning......Page 335
37.4.4 Chemical Treatment......Page 336
37.4.4.6 Sodium Hypochlorite......Page 337
37.5 Evaluation of Surface Preparation......Page 338
Bibliography......Page 339
38.2 Surface Treatment......Page 341
38.3.2 Power Burners......Page 342
38.4 Film Treatment......Page 344
39.2 Types of Plasma......Page 349
39.4 Plasma Chemistry......Page 350
39.5 Surface Treatment Approaches......Page 351
39.6 Plasma Activation of Plastics......Page 352
39.7 Adhesion......Page 353
References......Page 354
40.2 The Fluorination Process......Page 355
40.2.2 Plant for Continuous Surface Fluorination......Page 356
40.2.3 Safety Precautions......Page 357
40.3.3 Air Cushion Sheeting......Page 358
40.3.4 Terpolymer Rubber......Page 359
References......Page 360
41.2 Calendering Magnetic Media Products......Page 361
41.3 Calender Design......Page 362
References......Page 363
42.2 Thermoplastic Webs......Page 365
42.2.1 Embossing Machines for Thermoplastic Webs......Page 367
42.3 Nonthermoplastic Embossing......Page 369
43.1 Introduction......Page 371
43.2.2 Foiling......Page 372
43.2.3 New Materials......Page 373
43.3 Conclusion......Page 374
44.2 The Benefits of HVLP......Page 375
44.4 HVLP versus Airless and Air-Assist/Airless......Page 377
44.7 Components of an HVLP System......Page 378
44.8 Differences between HVLP Systems......Page 379
44.10 The Use of Air Cap Test Kits......Page 381
45.2 How Does It Work?......Page 383
45.3 What Is the Difference between a Disperser and an Agitator?......Page 384
45.5 What Are the Limitations of a Disperser?......Page 385
45.6 What Different Types of Dispersers Are Available, and What Type Is Best for Me?......Page 386
45.9.1 How Do I Know When It Is Time to Replace My Blade?......Page 387
45.10 What Other Factors Affect the Performance of My Disperser?......Page 388
45.12 What Safety Measures Must I Follow and Why?......Page 389
Materials......Page 391
46.2.1 Monomers......Page 393
46.3.1 Glass Transition Temperature......Page 394
46.3.2.1 Physical Properties......Page 395
46.4.1 Coatings......Page 396
46.4.2 Adhesives......Page 397
46.4.2.3 Pressure-Sensitive Adhesives......Page 398
46.4.3 Inks......Page 399
46.5.1 Gravure Coaters......Page 400
46.5.5 Reverse Roll Coaters......Page 401
References......Page 402
47.3 Production of Polymers......Page 403
47.5 Properties......Page 404
Bibliography......Page 405
48.2 Emulsion Polymerization......Page 407
48.4 Uses......Page 409
Bibliography......Page 410
49.3 Commercial Liquid Polymers......Page 411
49.3.2 Telechelic Polymers......Page 412
49.4 Applications......Page 413
References......Page 415
50.1 Introduction and Scope......Page 417
50.2 Classification of Saturated Polyesters......Page 418
50.3.2 Technical Manufacturing Processes......Page 419
50.4.2 Solubility......Page 420
50.4.4 Functionality and Reactivity......Page 421
50.4.7 Chemical Properties......Page 422
50.6 Preparation of Polyester Coatings20......Page 423
50.6.4 Solvent-Free Coatings......Page 424
50.7.2 Can Coating......Page 425
50.7.6 Powder Coating......Page 426
50.7.8 Adhesives......Page 427
References......Page 428
51.1.1 Oil Length and Type of Oil......Page 431
51.2 Principle of Alkyd Synthesis......Page 432
51.3.1 Actual Functionality......Page 434
51.3.3 Alkyd Calculations......Page 435
51.4.2 Polyols......Page 436
51.5.2 Monoglyceride versus Fatty Acid Process......Page 437
51.6.2 Emulsion-Based Coatings......Page 439
51.7.3 Other Modifications......Page 440
References......Page 441
52.2 Polyureas versus Polyurethanes/Chemistry......Page 443
52.6 Chemical, Water, and Corrosion Resistance......Page 444
52.7 Safety......Page 445
52.8 Conclusion......Page 446
Phenolic Resins......Page 447
53.1 Rigid Packaging......Page 448
53.3 Printing Inks......Page 449
53.5 Summary......Page 450
References......Page 451
54.1 Coal Tar Types......Page 453
54.2 Asphaltic Types......Page 455
Bibliography......Page 456
55.2 Properties......Page 457
55.4 Uses of TPV......Page 458
56.1 Introduction......Page 461
56.3.1 Coating Applications......Page 462
56.3.2 Primer Systems......Page 463
57.2 Barrier Properties......Page 465
57.4 Fabrication Methods......Page 468
58.1 Properties......Page 471
58.3 Uses of Elastomeric Alloys......Page 472
59.2.1 Resins......Page 475
59.2.2 Plasticizers......Page 476
59.2.4 Other Additives......Page 477
59.3.3 Coating Application......Page 478
59.3.4 Continuous Thin Film Applications......Page 479
60.2 Availability, Economics......Page 481
60.3.1 Reactivity and Compatibility......Page 482
60.3.2 Physical and Chemical Properties......Page 484
60.3.3 Solution Viscosity......Page 486
60.3.4 Plasticizers......Page 487
60.3.5 Toxicology......Page 488
60.4.1 Polyvinyl Butyral2,8......Page 489
60.4.2 Polyvinyl Butyral Dispersions......Page 490
References......Page 491
61.1 Chemistry and Properties......Page 493
Bibliography......Page 494
62.1 Process......Page 495
62.2 Properties......Page 496
References......Page 497
63.1.1 Degree of Substitution......Page 499
63.2.1 Solvents and Diluents......Page 500
63.3 Film Properties......Page 501
63.3.3 Cross-Linkable Coating Systems......Page 502
Appendix: Typical Properties of RS Nitrocellulose......Page 503
64.1.1 Preparation......Page 505
64.1.2 Wood Glues......Page 506
64.1.3 Blends......Page 507
64.2.2 Formulation......Page 508
64.3.1 Preparation......Page 511
64.3.2 Formulation......Page 512
References......Page 514
65.2 Properties......Page 517
65.3.3 Dyed Patterns on Glass......Page 518
65.3.9 Gelatin Capsules......Page 519
References......Page 520
66.2 Definition......Page 521
66.3.2.1 Leaf Waxes......Page 522
66.3.4.1 Polyethylene and Polypropylene Waxes......Page 523
66.4.2.2 Matting......Page 524
66.4.3.2 Micronized Powders......Page 525
References......Page 526
67.2 Coating Application......Page 527
67.3 Coating Formulation......Page 528
References......Page 530
68.1 Introduction......Page 531
68.3 Types and Grades of Hydroxyethylcellulose......Page 532
68.5 Incorporating Hydroxyethylcellulose into Latex Paints......Page 533
68.6.1 Leveling and Sag Resistance......Page 534
Reference......Page 535
69.2 Antistatic Additives for Plastic Materials......Page 537
References......Page 539
Silane Adhesion Promoters......Page 541
References......Page 543
71.3 Methacrylic Acid Types......Page 545
71.4.1.1 Bakery Liners......Page 546
71.5 Application Methods......Page 547
71.6 Governmental and Other Regulations......Page 548
72.1 Introduction......Page 549
72.3 Experimental......Page 550
72.4.1.1 Acrylobutyl Nitrile......Page 551
72.4.1.3 Polybutylene Terephthalate......Page 552
72.4.2.2 High-Density Polyethylene......Page 553
72.4.2.3 Linear Low-Density Polyethylene......Page 554
Acknowledgment......Page 555
73.2 Types and Properties......Page 557
73.2.1 Peroxide Selection......Page 558
73.2.2 Radical Types......Page 559
73.3 Application in Coatings......Page 560
References......Page 561
74.2 Chemistry......Page 563
74.3 Theory......Page 564
74.4 Foam Control......Page 565
74.5 Wetting......Page 566
74.6 Conclusion......Page 567
75.1 Introduction......Page 569
75.2.1 The Wetting and Dispersing Process......Page 570
75.2.2.2 Dispersing Additives for Waterborne Systems......Page 571
75.2.4 Classification......Page 572
75.2.4.2 Controlled Flocculation Additives......Page 573
75.3.2 Chemical Structure of “Silicones”......Page 574
75.3.3.3 Slip Improvement......Page 575
75.3.3.6 Controlled Incompatibility......Page 576
75.4.1 The Nature of Foam......Page 577
75.4.3 The Mechanisms of Defoaming and Air Release......Page 578
75.4.5 Defoamers for Solvent-Based Systems......Page 579
References......Page 580
76.1 Introduction......Page 583
76.2.2 Pigment Particles......Page 584
76.3 The Dispersion Process......Page 586
76.3.2 Particle Deaggregation and Deagglomeration......Page 587
76.4.2 Surface Energy and Pigment Wetting......Page 588
76.4.4 Surface Energy and the Acid-Base Concept......Page 589
76.5.2 Steric or Entropic Stabilization......Page 590
76.6.2 Polymeric Dispersants......Page 591
76.7 Surface Treatment during Pigment Manufacture......Page 592
76.8.1 Organic Pigments......Page 593
76.8.2 Inorganic Pigments......Page 598
76.10 Conclusion......Page 599
References......Page 600
77.1 The Colour Index System......Page 603
77.3.1 Iron Blue......Page 604
77.4 Inorganic Browns......Page 605
77.4.2 Iron Oxide Browns......Page 606
77.5.4 Mixed Metal Oxide Greens......Page 607
77.7.1 Iron Oxide Reds......Page 608
77.7.3 Cadmium Red......Page 609
77.8.3 Mixed Metal Oxide Violets......Page 610
77.9.3 Cadmium Zinc Yellow......Page 611
77.9.7 Mixed Metal Oxide Yellows......Page 612
77.9.8 Bismuth Vanadate/Molybdate Yellow......Page 613
78.2 The Colour Index System......Page 615
78.3 Pigment Selection......Page 616
78.3.1.1 Copper Phthalocyanine Blue......Page 617
78.3.2.1 Copper Phthalocyanine Green......Page 618
78.3.2.2 Miscellaneous Greens......Page 619
78.3.3.1 Azo-Based Oranges......Page 620
78.3.3.2 Benzamidazolone-Derived Oranges......Page 622
78.3.4.1 Metallized Azo Reds......Page 623
78.3.4.3 High Performance Reds......Page 625
78.3.5.1 Monoarylide Yellows......Page 631
78.3.5.2 Diarylide Yellows......Page 632
78.3.5.4 Heterocyclic Yellows......Page 633
79.1.1 History......Page 639
79.2.2.1 Types of High-Solids Melamine-Formaldehyde Resins......Page 640
79.3.1 Film Formation - Cross-Linking......Page 641
79.3.2 Catalysts......Page 642
79.3.3 Automotive Coatings - Clear Coats......Page 643
References......Page 644
Driers......Page 647
References......Page 649
81.2 In-Can Preservatives......Page 651
81.3 Dry-Film Preservatives......Page 652
References......Page 653
82.1 Kaolin......Page 655
82.1.2 Kaolin Categories......Page 656
82.2 Attapulgite......Page 657
82.2.2 Application in Paints......Page 658
82.3 Smectite......Page 659
References......Page 660
83.1 General......Page 661
83.2 Poly(Vinylidene Fluoride) (PVDF) Resins for Coatings......Page 662
83.3 Fluorinated Ethylene Vinyl Ether (FEVE) Resins for Coatings......Page 663
83.5 Other Fluorinated Resins for Coatings and Inks......Page 664
Bibliography......Page 665
84.1 Introduction......Page 667
84.2.3 Production Methods......Page 668
84.3.2 Spinel Pigments......Page 670
84.4 Pigment Properties......Page 671
84.5.1 Surface Coatings......Page 672
84.5.2.2 Decorative Color......Page 673
Bibliography......Page 674
85.1 Introduction......Page 675
85.2.2 Thickening Mechanism......Page 676
85.3 Flow Behavior and Related Properties Given by PEUPU Thickeners......Page 677
85.4.1 Influence of Cosolvents......Page 678
85.4.3 Influence of Latex Particle Size......Page 679
85.6 Examples of Applications......Page 680
References......Page 681
Surface Coatings......Page 683
86.2 Process......Page 685
86.4 Vehicles......Page 686
86.6 Formulations......Page 687
87.2.1 Continuous Phase......Page 689
References......Page 690
88.2 Effect of Varnishes......Page 691
88.3 Types of Varnishes......Page 692
References......Page 693
89.1.1 Powder Coatings Defined......Page 695
89.1.4 The Beginning of Growth......Page 696
89.2.1 Premixture......Page 697
89.2.2.1 Extruders......Page 698
89.2.3.1 Grinders......Page 699
89.3.1 Epoxy Systems......Page 700
89.3.1.3 Epoxy-Polyester (Hybrid)......Page 701
89.3.2.1 Polyester-Triglycidyl Isocyanurate (TGIC or Polyester)......Page 702
89.3.2.2 Polyester-Isocyanate (Polyurethane)......Page 703
89.3.3.2 Acrylic-Diacid (Glycidyl-Acrylic)......Page 704
89.4.3.2 Debubbling (Degassing)......Page 705
References......Page 706
90.1 Introduction......Page 707
90.3 Heat-Seal Coatings......Page 708
91.1 Introduction......Page 711
91.2.2 Filled Polymeric......Page 712
91.2.3 Polymeric......Page 713
91.2.4 Organometallic......Page 714
91.3 Commercially Available Conductive Coatings......Page 715
91.4.2 The Stealth......Page 716
91.5 New Developments......Page 717
References......Page 718
92.1 Introduction......Page 721
92.2 Thermal-Cured Silicone Release Agents......Page 722
92.3 Radiation-Curable Silicone Release Agents......Page 727
References......Page 729
93.1 Introduction......Page 731
93.4 Application of the Coating......Page 732
93.5 Conclusions......Page 733
94.2 Adhesives......Page 735
94.3.2 Peel Adhesion......Page 736
94.3.3 Shear Resistance......Page 737
94.3.5 Dynamic Mechanical Analysis......Page 738
94.5 Processing......Page 739
94.5.3 Slitting and Die-Cutting......Page 740
References......Page 741
95.1.1 Adhesion and Cohesion......Page 743
95.1.2 Seal Performance......Page 744
95.2.1 Handling......Page 745
95.2.2 Procedures......Page 746
96.2 The Solgel Process......Page 749
96.3.2 Electronic Coatings......Page 750
96.4 Advantages......Page 751
Bibliography......Page 752
97.1 Introduction......Page 753
97.2.2 Ultraviolet Light......Page 754
97.3.1.1 Free Radical Type......Page 755
97.3.1.3 Dual-Mechanism Curing......Page 757
97.3.2.1 Free Radical Systems......Page 758
97.3.2.2 Cationic or Epoxy Systems......Page 759
References......Page 760
98.2.1 Latex......Page 763
98.2.2.2 Amorphous Copolymer......Page 764
98.2.4 Netting......Page 765
Bibliography......Page 766
99.2 Fire-Retardant Paints......Page 767
99.3 Fire-Retardation Mechanism......Page 768
99.4 Fire-Resistive Intumescent Coatings......Page 769
99.5 Miscellaneous Coatings......Page 770
References......Page 771
100.1 Introduction......Page 773
100.2.2 Unpigmented Ground Coatings......Page 774
100.2.3 Aqueous Pigmented Coatings......Page 775
100.2.3.4 Pigment Concentrates......Page 776
100.2.3.6 Polyurethane Coating Compositions......Page 777
100.3 Technology of Decoration of Skins of Large Hoofed Animals with Artificial Grain......Page 778
100.4 Some Nonstandard Coating Applications......Page 779
101.1.1.1 Galvanizing......Page 781
101.1.3.1 Vacuum Evaporation......Page 782
101.1.3.3 Chemical Vapor Deposition......Page 783
101.2.2 Protection......Page 784
References......Page 786
102.1.2 The Electrochemical Nature of Corrosion......Page 789
102.1.3 Electrode Reactions......Page 790
102.1.5 Electrode Film Breakdown and Depolarization......Page 792
102.1.7 Area Effects......Page 793
102.2.2 Barrier Coatings......Page 794
102.2.3 Inhibitive Coatings......Page 795
102.2.4 Zinc-Rich Coatings......Page 796
References......Page 797
Marine Coatings Industry......Page 799
Bibliography......Page 800
104.2 History......Page 801
104.3.1 Primary Substrate or Base Sheet......Page 802
104.3.3 Release Paper......Page 803
104.3.4 Release Coatings......Page 804
104.4.1 Application of Release Coatings......Page 805
104.4.3 Finishing......Page 806
104.5 Applications......Page 807
References......Page 808
105.2 Protection from What?......Page 809
105.3.2 Method of Application......Page 810
105.3.3.1 Nonmetallic Coatings......Page 811
Bibliography......Page 812
106.1 The Physiology of Heat Regulation......Page 813
106.2.1 Breathable Films......Page 814
Bibliography......Page 815
107.2 Products......Page 817
108.2 Products......Page 821
108.3 Manufacturing......Page 822
109.1 Introduction......Page 825
109.2 Attributes of a Transdermal System......Page 826
109.3 Future Approaches to Transdermal Delivery Systems......Page 828
110.1.1 Optical Waveguide Principles......Page 831
110.2.2 Coating Requirements......Page 832
110.2.3 Composition of Fiber Coatings......Page 833
References......Page 834
111.1 Introduction......Page 835
111.2.1 Wood Properties and Weathering......Page 837
111.2.2.2 Plywood......Page 839
111.2.3 Water-Soluble Extractives......Page 840
111.3.1 Natural Weathering......Page 841
111.3.2 Applied Finishes......Page 842
111.3.2.3 Semitransparent Penetrating Stains......Page 843
111.3.2.5 Oils and Varnishes......Page 844
References......Page 845
112.2 Reasons for Coating Tablets......Page 847
112.3.1 The Sugar-Coated Tablet......Page 848
Bibliography......Page 849
113.1 Yarns......Page 851
113.2.1 Woven Fabrics......Page 852
113.2.2 Knitted Fabrics......Page 856
113.2.3 Nonwovens......Page 858
113.2.3.2 Spunbonded Fabrics......Page 860
113.2.3.5 Stitchbonded Fabrics......Page 861
Bibliography......Page 862
114.1 Introduction......Page 865
114.2.4 Air-Lay Needlepunched Webs......Page 866
114.2.7 Wet-Lay Mats......Page 867
114.3.1.3 Draperies......Page 868
114.3.5 Filtration: Microporous Membrane Substrates......Page 869
Bibliography......Page 870
115.1 Ink-Jet Inks......Page 871
115.2 Marker Inks for Children......Page 872
115.3 Writing Inks......Page 873
115.6 Current and Future Aspects......Page 874
116.1 Introduction......Page 877
116.4 Vehicles......Page 878
116.6 Formulations......Page 879
Artist’s Paints: Their Composition and History......Page 881
Fade Resistance of Lithographic Inks - A New Path Forward: Real World Exposures in Florida and Arizona Compared to Accelerated Xenon Arc Exposures......Page 889
118.1.1 Test Program......Page 890
118.2 Accelerated Xenon Arc Exposures......Page 893
118.2.4 Relative Humidity......Page 895
118.3 Conclusions......Page 897
Further Reading......Page 898
Index......Page 901
