EuroSimE 2008 - International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronic 2008
DOI: 10.1109/esime.2008.4525043
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Mechanics of moisture for polymers: Fundamental concepts and model study

Abstract: Reliability issues associated with moisture have become increasingly important as advanced electronic devices demand for new materials, more function integration and further miniaturization. However, the fundamentals of the mechanics of moisture transport and the subsequent failures in polymers have not been investigated extensively. This paper is devoted to some fundamental concepts of moisture absorption, diffusion, and swelling. The mathematical descriptions of moisture phase transition with temperature, an… Show more

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Cited by 28 publications
(5 citation statements)
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“…To investigate moisture diffusion along the thickness direction, this moisture diffusion problem is simplified as shown in Figure 1b, where the white layer, grey layer and blue layer are defined as Phase 1, Phase 2 and Phase 3. The saturated moisture concentration C ∞ is defined as C ∞ = M ∞ /V, where M ∞ is saturated moisture uptake and V is volume of the sample [32]. The saturated moisture concentrations and diffusivities of phase 1-3 are C 1∞ , D 1 , C 2∞ , D 2 , C 3∞ and D 3 , respectively.…”
Section: Methodsmentioning
confidence: 99%
“…To investigate moisture diffusion along the thickness direction, this moisture diffusion problem is simplified as shown in Figure 1b, where the white layer, grey layer and blue layer are defined as Phase 1, Phase 2 and Phase 3. The saturated moisture concentration C ∞ is defined as C ∞ = M ∞ /V, where M ∞ is saturated moisture uptake and V is volume of the sample [32]. The saturated moisture concentrations and diffusivities of phase 1-3 are C 1∞ , D 1 , C 2∞ , D 2 , C 3∞ and D 3 , respectively.…”
Section: Methodsmentioning
confidence: 99%
“…In this context, the temperature dependence of the diffusion coefficient is often described by an Arrhenius equation. 53,54,58 However, for some polyamides, or especially in the glassy state, Fick's law is not applicable. 59 According to the findings of Arhant et al, 60 the kinetics of the diffusion coefficient in the glassy state (below glass transition temperature) can still be well described by a classical Arrhenius-type equation where the diffusion coefficient depends only on the temperature.…”
Section: Humidity Influence On Polyamidesmentioning
confidence: 99%
“…However, the increase in sensitivity observed in Figure 3 should be mainly attributed to the polymeric coatings. Various reports indicate that polymers increase in terms of hole-free volume (volume stemming from volume relaxation and plasticization upon heating and cooling of the polymer and accessible for penetrant transport) for increasing temperature [34]; in addition, the diffusion coefficient for polymers increases for increasing temperature [35]. The overall increase in the swelling of the polymer coatings (temperature as well as vapour induced), as well as enhanced diffusion, translates to increased sensor response, in accordance with our already reported gas-sensing mechanism.…”
Section: Effect Of Temperature In Sensor Responsementioning
confidence: 99%
“…However, the increase in sensitivity observed in Figure 3 should be mainly attributed to the polymeric coatings. Various reports indicate that polymers increase in terms of hole-free volume (volume stemming from volume relaxation and plasticization upon heating and cooling of the polymer and accessible for penetrant transport) for increasing temperature [34]; in addition, the diffusion coefficient for polymers increases for increasing temperature [35].…”
Section: Effect Of Temperature In Sensor Responsementioning
confidence: 99%