Page 14 - Handbook of Adhesives and Sealants
P. 14
Index 877
chloroprene (neoprene), 499 corner, 124
chlorosulfonated polyethylene, 488 efficiency, 115–122
cyanosilicone, 702, 706 lap, 122
epoxy, 484 lip, 125
fluoroalkyarylenesiloxanylene, 702, 706 shear, 121
fluoropolymer, 489–490 stress distribution, 115–121
hydrocarbon rubber based, 485–487 threaded joints, 508–509
nitrile, 499–500 Secondary ion mass spectroscopy, 194
oil and resin based, 482 Selection, 424–425
polybutene, 485 analysis form, 340
polyether, 491–492 factors, 6–8
polyisobutylene, 486 by computer, 760–761
polyolefin foam, 500 Setting, 69–75
polysulfide, 490–491, 706 Setting methods, 44
polyurethane, 493–497, 706 Shear joints
polyvinyl acetate, 483–484 adhesive, 105
polyvinyl chloride foam, 500 sealant, 121
polyvinyl chloride plastisol, 484 Shelf life, 139–140, 729–730
silicone, 497–498, 698, 706 Silicone, adhesive, 401–403
styrene butadiene copolymer, 498–499 sealant, 497–498, 698, 706
thioether, 499 Silicone, bonding of, 625–626
Sealant, form Soap, 325
bulk materials, 518–522 Sodium silicate, adhesive, 412–413
foam, 523–524 Solidification, 36, 37, 69–75
preformed gaskets, 523–524 Solids content, 143
tape, 522–523 Solvent, 321
Sealant, properties Solvent cementing, 577–580
abrasion resistance, 530 Solvent cleaning, 217–221
adhesion, 531–532 Solvent resistance, 719–722
adhesive properties, 34 Sources of information, 47, 589–590
appearance, 534 Specifications, 173–177
chemical effects, 36 Spin welding, 566–569
compressive strength, 531 Spraying equipment, 741–743
cure, 457–460 Stabilizer, 325
cure rate, 525–526 Standards, 173–175
durability, 532–534 Static mixer, 733–735
hardness, 530 Steel and iron, bonding of, 612–615
high temperature resistance, 693–702 Stiffening joints, 109
low temperature resistance, 703–707 Stone, sealing of, 516
mechanical properties, 530–531 Storage, 728–731
modulus, 530 Storage life, 30
movement capability, 527–530 Strap joints, 107
performance classification, 476 Stress
performance properties, 473–474 cleavage, 97–98
properties, 478–481 combined with moisture and
rheology, 524–525 temperature, 713–717
stress relaxation, 531 compressive, 94–96
tensile strength, 530 due to service environment, 75–79
Sealant failure mechanisms, 79–81 due to setting, 71, 74–75, 334–335
Sealant joint design due to thermal expansion, 71–76
angle, 123 localized, 70
backup materials, 508 peel, 97–98
butt, 122 shear, 96–97
compound butt, 124 tensile, 94–96
