Abstract
A complete approach to modeling adhesives and sealants needs to include considerations for: deformation theories and viscoelasticity with linearity and nonlinearity considerations, rubber elasticity, singularity methods, bulk adhesive as composite material, damage models, the effects of cure and processing conditions on the mechanical behavior, and the concept of the “interphase.”
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Agarwal BD, Broutman LJ (1990) Analysis and performance of fiber composites, 2nd edn. Wiley, New York, p 131
Agrawal R, Drzal LT (1989) J Adhes 29:63
Ahlonis JJ, MacKnight WJ, Shen M (1972) Introduction to polymer viscoelasticity. Wiley-Interscience, New York
Ashton JE, Halpin JC, Petit PH (1969) Primer on composite materials. Analysis Technomic, Stamford, p 77
Barsoum RS (1989) J Adhes 29:149
Brinson HF (1974) In: Kausch H et al (eds) Deformation and fracture of high polymers. Plenum, New York
Brinson HF, Renieri MP, Herakovich CT (1975) Fracture mechanics of composites. ASTM SPT 593:177
Budiansky B (1965) J Mech Phys Solids 13:223
Castro JM, Macosko CW, Perry SJ (1984) Polym Commun 25:82
Chase KW, Goldsmith W (1974) Exp Mech 14:20
Chow TS (1978a) J Polym Sci Polym Phys Ed 16:959
Chow TS (1978b) J Polym Sci Polym Phys Ed 16:967
Chow TS, Hermans JJ (1969) J Compos Mater 3:382
Darlington MW, Turner S (1978) Creep of engineering materials. Mechanical Engineering, London
Davis JL (1964) J Polym Sci Part A 2:1311
Dempsey JP (1995) J Adhes Sci Technol 9:253
Dillard DA, Hiel C (1985) Proceedings of the 1985 SEM spring conference on experimental mechanics, Las Vegas, p 142
Eshelby JD (1959) Proceedings of the Royal Society of London, A 252, p 561
Ferry JD (1961) Viscoelastic properties of polymers. Wiley, New York
Findley WN, Peterson DB (1958) ASTM Proceedings, 58:841
Flügge W (1975) Viscoelasticity, 2nd edn. Springer-Verlag, Berlin
Ganghoffer JF, Schultz J (1996) J Adhes Sci Technol 10:775
Garton A, Haldankar GS, Mclean PD (1989) J Adhes 29:13
Gittus J (1975) Creep, viscoelasticity and creep fracture in solids. Wiley, New York
Gomatam RR (2002) Modeling fatigue behavior of electronically conductive adhesives. PhD dissertation, The University of Akron, Akron, Ohio
Gomatam RR, Sancaktar E (2004) J Adhes Sci Technol 18:1833
Gomatam RR, Sancaktar E (2006a) J Adhes Sci Technol 20:69
Gomatam RR, Sancaktar E (2006b) J Adhes Sci Technol 20:87
Good RJ, Gupta RK (1988) J Adhes 26:13
Green AE, Adkins JE (1960) Large elastic deformations and non-linear continuum mechanics. Oxford University Press, New York
Groth HL (1988) Int J Adhes Adhesives 8:107
Hashin Z, Shtrikman S (1963) J Mech Phys Solids 11:127
Hata T, Gams M, Kojimer K (1965) Kobunshikagahn (Chem High Polym, Jpn) 22:160
Hata T, Ohsaka K, Yamada T, Nakamue K, Shibata N, Matsumoto T (1994) J Adhes 45:125
Hencky HZ (1924) Z Angew Math Mech 4:323
Hermans JJ (1967) Proceedings of the Royal Academy of Amsterdam, B70, p 1
Hiel C, Cardon AH, Brinson HF (1983) The nonlinear viscoelastic response of resin matrix composite laminates. Virginia Polytechnic Institute and State University Report No. VPI-E-83-6
Hill R (1964) J Mech Phys Solids 12:199
Hill R (1965) J Mech Phys Solids 13:213
Hilton HH (1975) In: Baer E (ed) Engineering design for plastics. Robert E. Krieger, Huntington, New York
Jozavi H, Sancaktar E (1988) J Adhes 25:185
Jozavi H, Sancaktar E (1989a) J Adhes 27:143
Jozavi H, Sancaktar E (1989b) J Adhes 27:159
Jozavi H, Sancaktar E (1989c) J Adhes 29:233
Kaelble DH (1964) J Colloid Sci 19:413
Kaelble DH (1969) J Adhes l:102
Kelly A, Tyson WR (1965) Mech Phys Solids 13:329
Kerner EH (1956) Proc Phys Soc B69:808
Keuner VH, Knauss WG, Chai H (1982) Exp Mech 22:75
Knollman GC, Hartog JJ (1985) J Adhes 17:251
Koizumi S, Fuhue N, Matsunaga T (1970) Nihon Setchahu Kyohaishi. J Adhes Soc Jpn 6:437
Lipatov YS, Babich VF, Todosijchuk TT (1991) J Adhes 35:187
Liu DM (2000) J Mater Sci 35:5503
Ludwik PG (1909) Elemente der technologischen mechanik. Springer, Berlin, p 9
Ma W, Gomatam R, Fong R, Sancaktar E (2001) J Adhes Sci Technol 15:1533
McLellan DL (1969) Appl Polym Symp 12:137
Nakao K (1969) Preprint, symposium on mechanisms of adhesive failure, Tokyo, p 47
Nonaker Y (1968) Nihon Setchahu Kyokaishi (J Adhes Soc Jpn), 4:207
Peretz D, Weitsman Y (1982) J Rheol 26:245
Prandtl L (1925) Proceedings of the lst international congress on applied mechanics, Technisch Boekhandel en Dructerrg, Delft, p 43
Ramberg W, Osgood WR (1943) Description of stress-strain curves by three parameters. NACA TN 902, Washington, DC
Ravi-Chandar K, Knauss WG (1984) Int J Fract 25:247
Reedy ED Jr, Guess TR (1995) J Adhes Sci Technol 9:237
Renieri MP, Herakovich CT, Brinson HF (1976) Rate and time dependent behavior of structural adhesives. Virginia Polytechnic Institute and State University, College of Engineering Report No. VPI-E-76-7
Reuss E (1930) Z Angew Math Mech p 266
Rochefert MA, Brinson HF (1983) Nonlinear viscoelastic characterization of structural adhesives. Virginia Polytechnic Institute and State University Report No. VPI-E-83-26
Russel WB, Acrivos A (1973) Z Angew Math Phys 24:581
Sancaktar E (1981) Intl J Adhes Adhesives 1:329
Sancaktar E (1985) Intl J Adhes Adhesives 5:66
Sancaktar E (1991) J Adhes 34:211
Sancaktar E (1995) J Adhes Sci Technol 9:119
Sancaktar E (1996) Appl Mech Rev 49:S128
Sancaktar E, Beachtle D (1993) J Adhes 42:65
Sancaktar E, Brinson HF (1979) The viscoelastic shear behavior of a structural adhesive. Virginia Polytechnic Institute and State University, College of Engineering Report No. VPI-E-79-14
Sancaktar E, Brinson HF (1980) In: Lee LH (ed) Adhesion and adsorption of polymers. Polymer science and technology series, vol 12-A. Plenum, New York, p 279
Sancaktar E, Dembosky SK (1986) J Adhes 19:287
Sancaktar E, Kumar S (2000) J Adhes Sci Technol 14:1265
Sancaktar E, Ma W (1992) J Adhes 38:131
Sancaktar E, Narayan K (1999) J Adhes 13:237
Sancaktar E, Padgilwar S (1982) J Mech Des 104:643
Sancaktar E, Schenck SC (1985) Ind Eng Chem Prod Res Dev 24:257
Sancaktar E, Wei Y (1998) In: van Ooij WJ, Anderson H (eds) Mittal Festschrift on adhesion science and technology. VSP, Utrecht, The Netherlands, p 509
Sancaktar E, Zhang P (1990) Trans ASME J Mech Des 112:605
Sancaktar E, Jozavi H, Klein RM (1983) J Adhes 15:241
Sancaktar E, Schenck SC, Padgilwar S (1984) Ind Eng Chem Prod Res Dev 23:426
Sancaktar E, Jozavi H, El-Mahallawy AH, Cenci NA (1987) Polym Test 7:39
Sancaktar E, Turgut A, Guo F (1992) J Adhes 38:91
Sancaktar E, Babu SV, Zhang E, D’Couto GC, Lipshitz H (1995) J Adhes 50:103
Sawa T, Temma K, Nishigaya T, Ishikawa H (1995) J Adhes Sci Technol 9:215
Schapery RA (1966) Proceedings of the 5th U.S. national congress of applied mechanics, ASME, p 511
Schapery RA (1969a) Further development of a thermodynamic constitutive theory: stress formulation. Purdue University Report No. 69-2
Schapery RA (1969b) Polym Eng Sci 9:295
Sharon G, Dodiuk H, Kenig S (1989) J Adhes 31:21
Sharpe LH (1972) J. Adhes p 51
Shaw SJ, Tod DA (1989) J Adhes 28:231
Sinclair JW (1992) J Adhes 38:219
Sokolovsky VV (1948) Prikl Mathematiha I Mehhanika 12:261
Struik DJ (1950) Classical differential geometry. Addison-Wesley, New York
Tobolsky AV (1960) Properties and structure of polymers. Wiley, New York
Turgut A, Sancaktar E (1992) J Adhes 38:111
Walpole LJ (1969) J Mech Phys Solids 17:235
Ward IM, Hadley DW (1993) Mechanical properties of solid polymers. Wiley, New York, p 206
Wei Y (1995) Electronically conductive adhesives: conduction mechanisms, mechanical behavior and durability. PhD dissertation, Clarkson University, Potsdam, New York
Weitsman Y (1981) J Adhes 11:279
Wildemuth CR, Williams MC (1985) Rheol Acta 24(1):75
Wu TT (1966) Int J Solids Struct 2:1
Zabora RF, Clinton WW, Bell JE (1971) Adhesive property phenomena and test techniques. AFFDL-TR-71-68
Zhang MJ, Straight MR, Brinson HF (1985) Proceedings of the 1985 SEM spring conference on experimental mechanics, Las Vegas, p 205
Zhou J, Sancaktar E (2008) Chemorheology of epoxy/nickel conductive adhesives during processing and cure. J Adhes Sci Technol 22:957
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2011 Springer-Verlag Berlin Heidelberg
About this entry
Cite this entry
Sancaktar, E. (2011). Constitutive Adhesive and Sealant Models. In: da Silva, L.F.M., Öchsner, A., Adams, R.D. (eds) Handbook of Adhesion Technology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-01169-6_23
Download citation
DOI: https://doi.org/10.1007/978-3-642-01169-6_23
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-01168-9
Online ISBN: 978-3-642-01169-6
eBook Packages: EngineeringReference Module Computer Science and Engineering