Viscoplastic Anand model for solder alloys and its application

Cheng, Zhi‐Lin; Wang, G.Z.; Chen, L.; Wilde, Jürgen; Becker, Karl‐Friedrich

doi:10.1108/09540910010331428

Cited by 109 publications

(46 citation statements)

References 18 publications

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“…On the other hand it is much cheaper and faster to have a general test procedure that allows for testing of all materials under conditions which are close to application. However, most FEA simulations are based on properties measured using bulk tensile solder specimens, [6][7][8][9] and these may not represent the properties of a solder joint in an application due to scaling and microstructural effects. 10,11 A good testing procedure has to be comparable to electronic components in terms of stress state and level, scale, and temperature.…”

Section: Introductionmentioning

confidence: 99%

In Situ Optical Creep Observation of Joint-Scale Tin–Silver–Copper Solder Shear Samples

Herkommer

Reid

Punch

2009

Journal of Elec Materi

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In this paper the creep behavior of lead-free 96.5Sn-3.0Ag-0.5Cu solder is evaluated. A series of creep tests at different stress/temperature and strain rate/temperature pairs has been conducted. The tests were observed in situ with a high-magnification camera system. Optical observation results are presented from selected tests, showing the occurrence of surface effects such as shear bands, voiding, and rumpling. From these observations the main deformation mechanisms were derived and compiled in terms of their dependence on the test conditions.

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Section: Introductionmentioning

confidence: 99%

In Situ Optical Creep Observation of Joint-Scale Tin–Silver–Copper Solder Shear Samples

Herkommer

Reid

Punch

2009

Journal of Elec Materi

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“…Where s 0 is the initial deformation resistance value. These material parameters for 60Sn40Pb solder alloy are well-defined in the literature 33) and are given in Table I. The mini-modules fabricated at Loughborough consist of a single cell soldered using a 60Sn40Pb solder alloy and copper-based interconnecting ribbons.…”

Section: Modelling Thermomechanical Stresses Accumulation On Solder Bmentioning

confidence: 99%

Effect of viscoelasticity of ethylene vinyl acetate encapsulants on photovoltaic module solder joint degradation due to thermomechanical fatigue

Zhu¹,

Owen‐Bellini²,

Montiel-Chicharro³

et al. 2018

Jpn. J. Appl. Phys.

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The solder joint degradation due to thermomechanical fatigue is investigated in this paper for photovoltaic (PV) mini-modules with ethylene vinyl acetate (EVA) of different viscoelastic properties. The mini-modules were laminated at different curing temperatures in order to obtain EVA encapsulation with different viscoelastic properties. The influence of viscoelasticity of EVA on the thermomechanical fatigue generated on solder joint is analyzed based on a two-dimensional (2D) finite-element model. Based on simulation of thermomechanical stresses accumulation, minimodules with EVA cured at lower temperatures accumulated approximately 40% more stresses during the thermal cycle testing than mini-modules with optimal cured EVA. The tested mini-modules with EVA cured at lower temperature showed greater power degradation than the optimal cured mini-modules. An apparent increase in equivalent series resistance is the primary factor the power loss. A good correlation between the accumulated thermomechanical fatigue and the increase in equivalent series resistance is demonstrated with the tested samples.

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“…The solder viscoplastic properties were extracted from Cheng et al [8]. The standard temperature cycling with ramp and dwell time of 3 and 15 minutes with range of (-25, 125) was imposed on the model.…”

Section: Thermo-mechanical Modellingmentioning

confidence: 99%

Chip-on-board assembly of 800V Si L-IGBTs for high performance ultra-compact LED drivers

Aliyu

Mouawad

Castellazzi

et al. 2017

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD)

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Abstract-This paper presents a novel chip on board assembly design for an integrated power switch, based on high power density 800V silicon lateral insulated-gate bipolar transistor (Si LIGBT) technology. LIGBTs offer much higher current densities (5-10X), significantly lower leakage currents, and lower parasitic device capacitances and, gate charge compared to conventional vertical MOSFETs commonly used in LED drivers. The higher voltage ratings offered (up to 1kV), the development of high voltage interconnection between parallel IGBTs, self-isolated nature and absence of termination region unlike in a vertical MOSFET makes these devices ideal for ultracompact, low bill of materials (BOM) count LED drives. Chip onboard LIGBTs also offer significant advantages over MOSFETs due to high ambient temperatures seen on most of the LED lamps as the LIGBTs on-state losses increase only marginally with temperature. The design is based on a built-in reliability approach which focuses on a compact LED driver as a case-study of a cost-sensitive large volume production item.

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Viscoplastic Anand model for solder alloys and its application

Cited by 109 publications

References 18 publications

In Situ Optical Creep Observation of Joint-Scale Tin–Silver–Copper Solder Shear Samples

In Situ Optical Creep Observation of Joint-Scale Tin–Silver–Copper Solder Shear Samples

Effect of viscoelasticity of ethylene vinyl acetate encapsulants on photovoltaic module solder joint degradation due to thermomechanical fatigue

Chip-on-board assembly of 800V Si L-IGBTs for high performance ultra-compact LED drivers

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