Interface toughness characterization in microelectronic packages based on four point bending test and simulation
Microelectronic packaging devices consist of various kinds of materials, such as: die, molding compound, adhesives, copper etc. Due to the mismatch of the materials coefficient of thermal expansion (CTE), thermal stress can accumulate in the device, which would cause the interface delamination of mi...
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| Published in | 2010 11th International Conference on Electronic Packaging Technology and High Density Packaging pp. 993 - 997 |
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| Main Authors | , , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.08.2010
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| Subjects | |
| Online Access | Get full text |
| ISBN | 9781424481408 1424481406 |
| DOI | 10.1109/ICEPT.2010.5582629 |
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| Abstract | Microelectronic packaging devices consist of various kinds of materials, such as: die, molding compound, adhesives, copper etc. Due to the mismatch of the materials coefficient of thermal expansion (CTE), thermal stress can accumulate in the device, which would cause the interface delamination of microelectronic packaging devices when ambient temperature changes, and eventually lead to the failure of microelectronic packaging devices. In order to predict delamination, interface properties should be obtained. According to the research, temperature has large effects on the interface toughness. Therefore, interface toughness as function of temperature was studied by experiment and simulation in this paper. The results show that the critical crack energy was affected by temperature largely, the higher the temperature is, the smaller the critical crack energy is. The load speed has no effects on the four-point bending test. Experiments show that the delamination propagation load is stable and the crack propagation load is almost constant after the delamination start. According to the crack propagation load, the interface fracture toughness value (Gc) is obtained from four point bending tests combined with simulation of fitted the crack propagation load. The result of Gc values of formula and simulation can be compared. The critical displacement (Vc) can be estimated by fitting the deformation of the glue between the copper and molding compound with simulations. |
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| AbstractList | Microelectronic packaging devices consist of various kinds of materials, such as: die, molding compound, adhesives, copper etc. Due to the mismatch of the materials coefficient of thermal expansion (CTE), thermal stress can accumulate in the device, which would cause the interface delamination of microelectronic packaging devices when ambient temperature changes, and eventually lead to the failure of microelectronic packaging devices. In order to predict delamination, interface properties should be obtained. According to the research, temperature has large effects on the interface toughness. Therefore, interface toughness as function of temperature was studied by experiment and simulation in this paper. The results show that the critical crack energy was affected by temperature largely, the higher the temperature is, the smaller the critical crack energy is. The load speed has no effects on the four-point bending test. Experiments show that the delamination propagation load is stable and the crack propagation load is almost constant after the delamination start. According to the crack propagation load, the interface fracture toughness value (Gc) is obtained from four point bending tests combined with simulation of fitted the crack propagation load. The result of Gc values of formula and simulation can be compared. The critical displacement (Vc) can be estimated by fitting the deformation of the glue between the copper and molding compound with simulations. |
| Author | Ma Ya-hui Ma Xiao-song Hai Yang Liu Dong-Jing Zhou Peng You Zhi |
| Author_xml | – sequence: 1 surname: Ma Ya-hui fullname: Ma Ya-hui email: myh379364849@yahoo.cn organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China – sequence: 2 surname: Ma Xiao-song fullname: Ma Xiao-song organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China – sequence: 3 surname: Zhou Peng fullname: Zhou Peng organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China – sequence: 4 surname: Hai Yang fullname: Hai Yang organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China – sequence: 5 surname: You Zhi fullname: You Zhi organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China – sequence: 6 surname: Liu Dong-Jing fullname: Liu Dong-Jing organization: Dept of Mech. & Electron. Eng., Guilin Univ. of Electron. Technol., Guilin, China |
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| Snippet | Microelectronic packaging devices consist of various kinds of materials, such as: die, molding compound, adhesives, copper etc. Due to the mismatch of the... |
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| SubjectTerms | Delamination Load modeling Materials Numerical models Packaging Strain Temperature |
| Title | Interface toughness characterization in microelectronic packages based on four point bending test and simulation |
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