Hygrothermal Stability of Electrical Contacts Made from Silver and Graphite Electrically Conductive Pastes

Wang, Shoukai; Pang, Dick S.; Chung, D.D.L.

doi:10.1007/s11664-006-0018-z

Cited by 18 publications

(5 citation statements)

References 18 publications

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“…Silver paint is a suspension of silver particles in a volatile solvent (Leong and Chung, 2006;Wang et al, 2007). Upon evaporation of the solvent, the silver particles touch one another, thereby providing high electrical conductivity.…”

Section: Fiber Typementioning

confidence: 99%

Electrical-resistance-based Sensing of Impact Damage in Carbon Fiber Reinforced Cement-based Materials

Meehan

Wang

Chung

2009

Journal of Intelligent Material Systems and Structures

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Damage monitoring of the civil infrastructure is critically needed. This article provides the first report of impact damage self-sensing in cement-based materials. Cement mortar reinforced with short (5—7 mm) carbon fiber and in bulk or coating (5—10 mm thick) form is effective for sensing its own impact damage through DC/AC electrical resistance measurement, provided that the region of resistance measurement contains the point of impact. The mortar resistivity needs to be 104—105 Ω cm, as provided by pitch-based fiber (15 µm diameter, unsized) at 0.5% or 1.0% by mass of cement, or type A PAN-based fiber (7 µm diameter, desized) at 0.5%. Due to the low mortar resistivity of 103 Ω cm, pitch-based fiber at 1.5% and type B PAN-based fiber (7 µm diameter, unsized) at 0.5% are less effective. Without fiber, there is no sensing ability. The surface resistance of the surface receiving the impact is an effective indicator of the damage, even for minor damage without cracking, inflicted by impact at 880 J. The oblique or longitudinal volume resistance is much less effective. The surface resistance increases abruptly upon impact, but it decreases abruptly upon impact after 5—40 impacts (number decreasing with increasing impact energy) have been inflicted.

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Section: Fiber Typementioning

confidence: 99%

Electrical-resistance-based Sensing of Impact Damage in Carbon Fiber Reinforced Cement-based Materials

Meehan

Wang

Chung

2009

Journal of Intelligent Material Systems and Structures

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“…The wire must be in electrical contact with all the laminae, so it should be electrically connected to the wall of the through-hole by using a conductive adhesive or other conductive media. Silver particle filled epoxy is a conductive adhesive that has been shown to perform well both electrically and mechanically [26,27]. However, this type of electrical contact suffers from its intrusiveness, as the drilling of a hole may cause some local damage to the composite.…”

Section: Electrical Configurations For Self-sensingmentioning

confidence: 99%

“…An additional problem with the two-probe method relates to the possible degradation of the electrical contacts upon strain or damage of the specimen under test. The degradation of the contacts causes the contact resistance to increase, thus affecting the resistance that is obtained by using the two-probe method [25,26]. In the case of the four-probe method, degradation of the contacts has relatively little effect on the measured resistance, unless the degradation is excessive.…”

Section: Electrical Configurations For Self-sensingmentioning

confidence: 99%

“…The conductive medium serves to connect electrically the composite surface to a lead wire that goes to a meter. In order to enhance the mechanical integrity and hygrothermal stability of the surface electrical contacts, each contact (such as one made by using silver paint) may be coated with non-conductive epoxy [26].…”

Section: Electrical Configurations For Self-sensingmentioning

confidence: 99%

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Damage detection using self-sensing concepts

Chung

2007

Proceedings of the Institution of Mechanical Engineers, Part G:

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Self-sensing refers to the structural material sensing itself. Real-time self-sensing of damage in carbon fibre polymer-matrix composites by electrical resistance measurement is reviewed. The resistance changes irreversibly upon damage, as shown for damage inflicted by flexure, tension, fatigue, and impact. Delamination increases the through-thickness resistance. Fibre breakage increases the longitudinal resistance. The oblique resistance, as measured at an angle between the longitudinal and through-thickness directions, is particularly sensitive. Minor flexural damage causes the oblique resistance in the unloaded state to decrease. Current spreading enables the sensing of localized damage by measurement away from the damage, though it reduces the spatial resolution of the sensing. The resistance method is more sensitive than the potential method. Two-dimensional sensing is complicated by the anisotropic spreading of the current. Thermal damage and through-thickness (fastening) compression effect are indicated by the contact resistivity of the interlaminar interface. The through-thickness compression effect is alternately indicated by the longitudinal volume resistivity. The condition of a composite fastening joint is indicated by the contact resistivity of the joint interface.

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“…Compared with this standard process, the method proposed in this paper is much more rapid (requiring only several seconds) and, as a result, sintering of the particles and concurrent significant size increases are avoided. Ag particles were selected as a test material because Ag has many applications, such as in conductors, electrical contacts, catalysts, and wound dressing. − In particular, correlations between the heating temperature and particle characteristics (including crystallinity, morphology, size, distribution, purity, and volume resistivity) were investigated in detail. A possible mechanism for producing isolated fine metal particles is suggested based on the experimental results and available theory.…”

Section: Introductionmentioning

confidence: 99%

Improving the Crystallinity and Purity of Monodisperse Ag Fine Particles by Heating Colloidal Sprays In-Flight

Ogi

Fukazawa

Rahmatika

et al. 2020

Ind. Eng. Chem. Res.

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This work demonstrated the production of highly crystalline, monodisperse fine metal particles with high density and purity using a simple, facile rapid spray heating process. In this technique, a starting solution including fine Ag particles, prepared using a liquid phase method, is sprayed into a horizontal furnace. After this spray heating step, the crystallinity and purity of the particles are greatly improved relative to those of the initial particles, while the morphology and size distribution are maintained. Consequently, the volume resistivity of the Ag particles is decreased from 6.4 × 10–3 Ω·cm (before spray heating) to 3.6 × 10–5 Ω·cm (after spray heating at 500 °C). Detailed analyses show that this significant increase in conductivity results from the improved crystallinity, purity, and density of the material. The rapid spray heating method proposed in this research could be applied to other metals with the potential to produce high-quality fine metal particles.

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Hygrothermal Stability of Electrical Contacts Made from Silver and Graphite Electrically Conductive Pastes

Cited by 18 publications

References 18 publications

Electrical-resistance-based Sensing of Impact Damage in Carbon Fiber Reinforced Cement-based Materials

Electrical-resistance-based Sensing of Impact Damage in Carbon Fiber Reinforced Cement-based Materials

Damage detection using self-sensing concepts

Improving the Crystallinity and Purity of Monodisperse Ag Fine Particles by Heating Colloidal Sprays In-Flight

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