2010
DOI: 10.1007/s11664-010-1078-7
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Characterization of the Viscoelasticity of Molding Compounds in the Time Domain

Abstract: Although polymer-based materials are widely used in microelectronics packaging and viscoelasticity is an intrinsic characteristic of polymers, viscoelastic properties of polymeric materials are often ignored in package stress analyses due to the difficulty in measuring these properties. However, it is necessary to consider the viscoelastic behavior when an accurate stress model is required. Viscoelastic properties of materials can be characterized in either the time or the frequency domain. In this study, stre… Show more

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Cited by 57 publications
(34 citation statements)
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“…For this reason, models incorporating multiple springs and dashpots are needed, a generic example being the generalized Maxwell model. [42] The generalized Maxwell model, composed of a number of springs (representing ideal solids, accounting for the pure hyperelastic or elastic behavior of viscoelastic materials) and dashpots (representing ideal fluids, accounting for the viscous nature of or viscoelastic materials) arranged in a parallel configuration, is the most general form of the linear model that is used to describe the stress relaxation behavior of hyperelastic, [38] viscoelastic [41] or visco-hyper elastic [34,40] materials. Based on the nature of the material chosen, the behavior of the springs is considered either elastic or hyperelastic.…”
Section: Gmw Modelmentioning
confidence: 99%
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“…For this reason, models incorporating multiple springs and dashpots are needed, a generic example being the generalized Maxwell model. [42] The generalized Maxwell model, composed of a number of springs (representing ideal solids, accounting for the pure hyperelastic or elastic behavior of viscoelastic materials) and dashpots (representing ideal fluids, accounting for the viscous nature of or viscoelastic materials) arranged in a parallel configuration, is the most general form of the linear model that is used to describe the stress relaxation behavior of hyperelastic, [38] viscoelastic [41] or visco-hyper elastic [34,40] materials. Based on the nature of the material chosen, the behavior of the springs is considered either elastic or hyperelastic.…”
Section: Gmw Modelmentioning
confidence: 99%
“…Based on the nature of the material chosen, the behavior of the springs is considered either elastic or hyperelastic. [34,[38][39][40][41] The simple Maxwell model consisting of a single dashpot in series with a hyperelastic spring has a single relaxation time constant, τ = η/E. Real polymers, however, do not relax with a single relaxation time because the longer molecular segments take more time to relax than the shorter molecular segments.…”
Section: Gmw Modelmentioning
confidence: 99%
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“…The flexible mechanism illustrated in Figure 5 is composed of two flexible viscoelastic beams fixed together in the middle with point masses attached at each tip to intensify vibrations in rapid transitions. The viscoelastic behavior of the epoxy resin‐based compound beams including time‐variant elasticity is characterized using 201 terms of the corresponding Prony series and are mentioned in Table 1 36 . The horizontal mechanism is free to move in either vertical or horizontal axis with no rotation and is considered to be mounted using a nonlinear damped oscillator in order to rule out any possible analytic approach toward problem solution.…”
Section: Simulation Results and Discussionmentioning
confidence: 99%
“…To measure the viscoelastic characteristics, therefore, is one of most critical steps before evaluating the stability of micro-accelerometers because of the time- and temperature-dependent feature of the adhesive. The common measuring method is through stress relaxation or creep tests [ 24 ]. Hence, a series of stress–relaxation tests were performed using dynamic mechanical analysis (TA instrument DMA Q800, New Castle, DE, USA).…”
Section: Materials Propertymentioning
confidence: 99%