A thermo-mechanical study on the electrical resistance of aluminum wire conductors

Liu, De‐Shin; Ni, Ching-Yu

doi:10.1016/s0026-2714(01)00258-x

Cited by 8 publications

(5 citation statements)

References 7 publications

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“…5, where it was the bottleneck for the signal transmission through the bonding wire to the pad or inverse. The increase of the deformation resulted in the decrease of the cross-sectional area, which resulted in electrical resistance enhancing as reported by Liu and Ni (2002). Further, the stress and intermetallic compound problems were severe because the signal delay and extra power consumption made more heat generate there.…”

Section: 3mentioning

confidence: 82%

In situ measurement of bond resistance varying with process parameters during ultrasonic wedge bonding

Wang

et al. 2009

Journal of Materials Processing Technology

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Section: 3mentioning

confidence: 82%

In situ measurement of bond resistance varying with process parameters during ultrasonic wedge bonding

Wang

et al. 2009

Journal of Materials Processing Technology

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“…It depends only on the temperature and is given by the Boussinesq approximation ρ = ρ 0 β(T − T 0 ), where T 0 and ρ 0 are the parameters relating to the fluid, β is the coefficient of expansion at constant pressure, p is the pressure (Pa) and µ is the dynamic viscosity coefficient of the air. For the heat sources, Q, we will consider that generated in the conductor by the Joule effect [18]:…”

Section: Fe Thermal and Thermoelectric Modelingmentioning

confidence: 99%

“…To reach a temperature of 90 • C in the conductor with the conditions defined above, we are going to circulate an admissible current which is equivalent to 515 A. The value of the maximum intensity of the current, I, admissible (A) in the permanent mode for a cable HVAC is given in the IEC standards [18] by the following equation: (14) where:…”

Section: Fe Thermal and Thermoelectric Modelingmentioning

confidence: 99%

Preliminary Multiphysics Modeling of Electric High-Voltage Cable of Offshore Wind-Farms

Ech-Cheikh,

Matine,

Drissi-Habti

2023

Energies

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During manufacture, handling, transportation, installation and operation, mechanical overstress can affect the electrical and thermal properties of the conductor. As the wires in general are made of copper, which is a very plastically deforming material, these stresses will gradually generate plastic deformations of the copper until the wires start to fail. The objective of this article is to study, by numerical modeling (using Comsol and Abaqus), the impact of damage mechanisms on the electrical and thermal properties of a submarine cable phase. The influence of plasticity and gradual copper wire failure on the physical behavior (electric and thermal) of the phase was assessed. The heat differences between a healthy conductor vs. a damaged one (either deformed plastically and/or with failed wires) derived from the numerical model may be an accurate indicator of the level of damage of wires, thus furthering advanced warning before being obliged to stop the exploitation because a mandatory heavy maintenance of the cables must be scheduled. Note that this can also be achieved by using an optical fiber as a sensor for structural health monitoring. This study will then make it possible to evaluate the impact of the modification of the resistance on the thermal behavior of the cable. All of these simulations will be carried out on one phase of a 36 kV 120 mm² copper submarine cable. Colloquially these are called “copper cables”, meaning cables with Cu conductors (120 mm2 is the smallest conductor cross-section for array cables, which are usually 3-phase cables).

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“…The corresponding specific resistance ρ was calculated with the ohmic law, the distance between the electrodes l and the cross section of the fluidized bed A (see Eq. (2.1)) [26]. With the chosen range, it was ensured that the applied potentials were smaller than the decomposition voltage of the electrolyte.…”

Section: Chronoamperometry Studiesmentioning

confidence: 99%

Electrical conductivity of magnetically stabilized fluidized-bed electrodes – Chronoamperometric and impedance studies

Tschöpe

Heikenwälder

Schneider

et al. 2020

Chemical Engineering Journal

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A thermo-mechanical study on the electrical resistance of aluminum wire conductors

Cited by 8 publications

References 7 publications

In situ measurement of bond resistance varying with process parameters during ultrasonic wedge bonding

In situ measurement of bond resistance varying with process parameters during ultrasonic wedge bonding

Preliminary Multiphysics Modeling of Electric High-Voltage Cable of Offshore Wind-Farms

Electrical conductivity of magnetically stabilized fluidized-bed electrodes – Chronoamperometric and impedance studies

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