Fracture Mechanics of Solder Bumps During Ball Shear Testing: Effect of Bump Size

Bang, Woong Ho; Kim, Choong Un; Kang, Suk Hoon; Oh, Kyu Hwan

doi:10.1007/s11664-009-0842-z

Cited by 12 publications

(4 citation statements)

References 27 publications

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“…6). Our previous study of ball shear tests reveals that interface fracture proceeds predominantly by Mode I fracture [8]. The situation here is not much different from the ball shear test, except that the ball rotation occurs more readily in the ball shear.…”

Section: Mechanism Of Mode I Fracturementioning

confidence: 43%

Fracture mechanics of lead-free solder joints under cyclic shear load

Bang

Ma³

et al. 2010

2010 Proceedings 60th Electronic Components and Technology Conference (ECTC)

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This paper reports the experimental and theoretical exploration of the fracture mechanism active in BGA leadfree solder assemblies under high speed shear fatigue test conditions. Our investigation finds that, contrary to common assumption, the crack growth in shear fatigue is not governed by shear stress but more by crack opening stress. Our theoretical analysis indicates that fracture by crack opening mode prevails because non-uniformity in the shear deformation of solder joint creates a body rotation which results in crack opening stress rather than shear. While the crack growth in shear fatigue is found to vary sensitively with variation in the mechanical constraints on the assembly, such as solder shape and elastic modulus of the chip mold, it is also sensitive to variation in solder microstructure. This, the sensitivity to the assembly constraints and solder microstructure, makes it ideal in investigating fatigue properties of solder joints as well as identifying the structural and microstructural features responsible for reliability failure.

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Section: Mechanism Of Mode I Fracturementioning

confidence: 43%

Fracture mechanics of lead-free solder joints under cyclic shear load

Bang

Ma³

et al. 2010

2010 Proceedings 60th Electronic Components and Technology Conference (ECTC)

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“…When high pressure is applied to avoid such contact failures, bonding failures due to plastic deformation are mitigated. However, if excessive pressure is applied, problems such as electrical shorts and destruction will occur between bumps due to the lateral deformation of bumps and the multi-interconnects under bumps due to vertical concentrated stress [42][43][44]. These problems become more significant when the bump pitch is narrowed.…”

Section: Paradigm Shift To Bumpless Build Cube Integrationmentioning

confidence: 99%

Review of Bumpless Build Cube (BBCube) Using Wafer-on-Wafer (WOW) and Chip-on-Wafer (COW) for Tera-Scale Three-Dimensional Integration (3DI)

et al. 2022

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Bumpless Build Cube (BBCube) using Wafer-on-Wafer (WOW) and Chip-on-Wafer (COW) for Tera-Scale Three-Dimensional Integration (3DI) is discussed. Bumpless interconnects between wafers and between chips and wafers are a second-generation alternative to the use of micro-bumps for WOW and COW technologies. WOW and COW technologies for BBCube can be used for homogeneous and heterogeneous 3DI, respectively. Ultra-thinning of wafers down to 4 μm offers the advantage of a small form factor, not only in terms of the total volume of 3D ICs, but also the aspect ratio of Through-Silicon-Vias (TSVs). Bumpless interconnect technology can increase the number of TSVs per chip due to the finer TSV pitch and the lower impedance of bumpless TSV interconnects. In addition, high-density TSV interconnects with a short length provide the highest thermal dissipation from high-temperature devices such as CPUs and GPUs. This paper describes the process platform for BBCube WOW and COW technologies and BBCube DRAMs with high speed and low IO buffer power by enhancing parallelism and increasing yield by using a vertically replaceable memory block architecture, and also presents a comparison of thermal characteristics in 3D structures constructed with micro-bumps and BBCube.

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“…In the context of in situ mechanical test approaches for solder joints, the most universal experimental method is ball shear testing. Its popularity is derived from its simple testing procedure and explicit experimental mechanism [ 10 , 11 ]. Although a great deal of research based on this experimental method has been conducted in the field of BGA solders, these research works mainly focus on solder ball materials and manufacturing processes.…”

Section: Introductionmentioning

confidence: 99%

Experimental and Statistical Study of the Fracture Mechanism of Sn96.5Ag3Cu0.5 Solder Joints via Ball Shear Test

Kun

Wang

2022

Materials

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Ball shear testing is an efficient approach to investigate the mechanical reliability of solder joints at the structural level. In the present study, a series of low-speed ball shear tests were conducted to study the deformation and fracture characteristics of Sn96.5Ag3Cu0.5 solder joints at continuous speeds from 10 μm/s to 200 μm/s. In order to account for randomness, the quantity of tests was repeated for each shear rate. The relationship between mechanical properties and shear speeds was calculated in detail via effective statistical analysis. In addition, by utilizing SEM imaging and ingredient analysis the interfacial effect and fracture mechanism of solder balls were obtained and their fracture mode classified into two types, viz., bulk fracture and interface fracture. Furthermore, by means of statistical analysis and approximate calculation it was proven that bulk fracture balls have greater adhesive powers and reliability compared with interface fracture balls.

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Fracture Mechanics of Solder Bumps During Ball Shear Testing: Effect of Bump Size

Cited by 12 publications

References 27 publications

Fracture mechanics of lead-free solder joints under cyclic shear load

Fracture mechanics of lead-free solder joints under cyclic shear load

Review of Bumpless Build Cube (BBCube) Using Wafer-on-Wafer (WOW) and Chip-on-Wafer (COW) for Tera-Scale Three-Dimensional Integration (3DI)

Experimental and Statistical Study of the Fracture Mechanism of Sn96.5Ag3Cu0.5 Solder Joints via Ball Shear Test

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