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- Suhir, E. (1986), "(a) Stresses in bi-metal thermostats", ASME J. Appl. Mech., 53(3), 657-660. https://doi.org/10.1115/1.3171827
- Suhir, E. (1986), "(b) Calculated thermally induced stresses in adhesively bonded and soldered assemblies", Proceedings of the International Symposium on Microelectr., ISHM, Atlanta, Georgia, October.
- Suhir, E. (1987), "Die attachment design and its influence on the thermally induced stresses in the die and in the attachment", Proceedings of the 37th Conference on ECTC, May.
- Suhir, E. (1988), (a) Thermal Stress Failures in Microelectronic Components-Review and Extension, Advances in Thermal Modeling of Electronic Components and Systems, Hemisphere, New York, U.S.A.
- Suhir, E. (1988), "(b) An approximate analysis of stresses in multilayer elastic thin films", ASME J. Appl. Mech., 55(3), 143-148. https://doi.org/10.1115/1.3173620
- Suhir, E. (1988), "(c) On a paradoxical phenomenon related to beams on elastic foundation", ASME J. Appl. Mech., 55(10), 818-821. https://doi.org/10.1115/1.3173727
- Suhir, E. (1988), "(d) Could compliant external leads reduce the strength of a surface mounted device?", Proceedings of the 38th Conference on ECTC, May.
- Suhir, E. (1988), "(e) Spring constant in the buckling of dual-coated optical fibers", IEEE/OSA J. Lightw. Technol., 6(7), 1240-1244. https://doi.org/10.1109/50.4121
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- Suhir, E. (1989), "(b) Interfacial stresses in bi-metal thermostats", ASME J. Appl. Mech., 56(3), 595-600. https://doi.org/10.1115/1.3176133
- Suhir, E. (1990), "(a) Mechanical approach to the evaluation of the low temperature threshold of added transmission losses in single-coated optical fibers", IEEE/OSA J. Lightw. Technol., 8(6), 863-868. https://doi.org/10.1109/50.54502
- Suhir, E. (1990), "(b) Buffering effect of fiber coating and its influence on the proof-test load in optical fibers", Appl. Opt., 29(18), 2682-2685. https://doi.org/10.1364/AO.29.002682
- Suhir, E., Bubel, G.M. and Tuminaro, R.D. (1991), "Predicted curvature of the glass fiber from the measured curvature of its coating", IEEE/OSA J. Lightw. Technol., 9(6), 701-708. https://doi.org/10.1109/50.81971
- Suhir, E. (1991), "(a) Mechanical behavior of materials in microelectronic and fiber optic systems: application of analytical modeling", MRS Symp. Proc., 226.
- Suhir, E. (1991), "(b) Nonlinear dynamic response of a flexible printed circuit board to shock loads applied to its support contour", Proceedings of the 41st Conference on ECTC, May.
- Suhir, E. (1992), "(a) Response of a flexible printed circuit board to periodic shock loads applied to its support contour", ASME J. Appl. Mech., 59(2), 253-259. https://doi.org/10.1115/1.2899498
- Suhir, E. (1992), "(b) Nonlinear dynamic response of a flexible thin plate to constant acceleration applied to its support contour, with application to printed circuit boards used in avionic packaging", J. Sol. Struct., 29(1), 41-55. https://doi.org/10.1016/0020-7683(92)90094-A
- Suhir, E. (1992), "(c) Mechanical behavior and reliability of solder joint interconnections in thermally matched assemblies", Proceedings of the 42nd Conference on ECTC, May.
- Suhir, E. (1992), "(c) Predicted bow of plastic packages of integrated circuit (IC) devices", Proceedings of the 50th SPE Conference, Detroit, Michigan, May.
- Suhir, E. (1992), "(d) The effect of the nonlinear behavior of the material on two-point bending in optical glass fibers", ASME J. Electr. Pack., 114(2), 246-250. https://doi.org/10.1115/1.2906425
- Suhir, E. (1992), "(e) Elastic stability, free vibrations, and bending of optical glass fibers: Effect of the nonlinear stress-strain relationship", Appl. Opt., 31(24), 5080-5085. https://doi.org/10.1364/AO.31.005080
- Suhir, E. (1993), "Could the curvature of an optical glass fiber be different from the curvature of its coating?", J. Sol. Struct., 30(17), 2425-2435. https://doi.org/10.1016/0020-7683(93)90127-S
- Suhir, E. (1994), "(a) Pull testing of a glass fiber soldered into a ferrule: How long should the test specimen be?", Appl. Opt., 33(19), 4109-4112. https://doi.org/10.1364/AO.33.004109
- Suhir, E. (1994), "(b) Thermally induced stresses in an optical glass fiber soldered into a ferrule", IEEE/OSA J. Lightw. Technol., 12(10), 1766-1770. https://doi.org/10.1109/50.337488
- Suhir, E., Mishkevich, V. and Anderson, J. (1995), How Large Should a Periodic External Load be to Cause Appreciable Microbending Losses in a Dual-Coated Optical Fiber?, Structural Analysis in Microelectronics and Fiber Optics, ASME Press.
- Suhir, E. (1995), "(a) How compliant should a die-attachment be to protect the chip from substrate (card) bowing?", ASME J. Electr. Pack., 117(1), 88-92. https://doi.org/10.1115/1.2792073
- Suhir, E. (1995), "(b) Shock protection with a nonlinear spring", IEEE CPMT Trans. Adv. Pack. Part B, 18(2), 430-437.
- Suhir, E. (1996), "(a) Dynamic response of a one-degree-of-freedom linear system to a shock load during drop tests: Effect of viscous damping", IEEE CPMT Trans. Part A, 19(3), 435-440.
- Suhir, E. (1996), "(b) Shock-excited vibrations of a conservative duffing oscillator with application to shock protection in portable electronics", J. Sol. Struct., 33(24), 3627-3642. https://doi.org/10.1016/0020-7683(95)00199-9
- Suhir, E. (1996), "(c) Flex circuit vs regular substrate: Predicted reduction in the shearing stress in solder joints", Proceedings of the 3rd International Conference on Flexible Circuits FLEXCON 96, San-Jose, California, U.S.A., October.
- Suhir, E. and Weld, J. (1997), Electronic Package with Reduced Bending Stress, US Patent #5,627,407.
- Suhir, E. (1997), "(a) Is the maximum acceleration an adequate criterion of the dynamic strength of a structural element in an electronic product?", IEEE CPMT Trans. Part A, 20(4), 513-517.
- Suhir, E. (1997), "(b) The future of microelectronics and photonics, and the role of mechanics and materials", Proceedings of the EPTC'97, Singapore, October.
- Suhir, E. (1997), (c) Applied Probability for Engineers and Scientists, McGraw Hill, New York, U.S.A.
- Suhir, E. (1997), "(d) Dynamic response of microelectronics and photonics systems to shocks and vibrations", Proceedings of the INTERPack'97, Hawaii, U.S.A., June.
- Suhir, E. (1998), "(a) Adhesively bonded assemblies with identical non-deformable adherends and inhomogeneous adhesive layer: Predicted thermal stresses in the adhesive", J. Reinf. Plast. Comp., 17(14).
- Suhir, E. (1998), (b) Critical Strain and Post-Buckling Stress in Polymer coated Optical Fiber Interconnect: What Could be Gained by Using Thicker Coating?, International Workshop on Reliability of Polymeric Materials and Plastic Packages of IC Devices, ASME Press, Paris, France, November-December.
- Suhir, E. (1998), "(c) Bending stress in an optical fiber interconnect experiencing significant ends offset", Proceedings of the MRS Symposium, 531.
- Suhir, E. (1998), "(d) Optical fiber interconnect subjected to a not-very-small end offset: Effect of the reactive tension", Proceedings of the MRS Symposium, 531.
- Suhir, E. (1998), "(e) Optical glass fiber bent on a cylindrical surface", Proceedings of the MRS Symposium, 531.
- Suhir, E. (1998), "(f) Coated optical fiber interconnect subjected to the end offset and axial loading", International Workshop on Reliability of Polymeric Materials and Plastic Packages of IC Devices, ASME Press, Paris, France, November-December.
- Suhir, E. (1999), "(a) Adhesively bonded assemblies with identical non-deformable adherends: Predicted thermal stresses in the adhesive layer", Compos. Interf., 6(2).
- Suhir, E. (1999), "(b) Thermal stress failures in microelectronics and photonics: Prediction and prevention", Fut. Circ. Int., 5.
- Suhir, E. (2000), "(a) Microelectronics and photonics-the future", Microelectr. J., 31, 11-12.
- Suhir, E. (2000), "(b) Predicted stresses in, and the bow of, a circular substrate/thin-film system subjected to the change in temperature", J. Appl. Phys., 88(5), 2363-2370. https://doi.org/10.1063/1.1286096
- Suhir, E. (2000), "(c) Adhesively bonded assemblies with identical non-deformable adherends and "piecewise continuous" adhesive layer: Predicted thermal stresses and displacements in the adhesive", J. Sol. Struct., 37.
- Suhir, E. (2000), "(d) Optical fiber interconnect with the ends offset and axial loading: What could be done to reduce the tensile stress in the fiber?", J. Appl. Phys., 88(7), 3865-3871. https://doi.org/10.1063/1.1290707
- Suhir, E. (2001), (a) Device and Method of Controlling the Bowing of a Soldered or Adhesively Bonded Assembly, US Patent #6,239,382.
- Suhir, E. (2001), "(b) Thermo-mechanical stress modeling in microelectronics and photonics", Electr. Cool., 7(4).
- Suhir, E. (2001), "(c) Analysis of interfacial thermal stresses in a tri-material assembly", J. Appl. Phys., 89(7), 3685-3694. https://doi.org/10.1063/1.1350623
- Suhir, E. (2001), "(d) Thermal stress in a polymer coated optical glass fiber with a low modulus coating at the ends", J. Mater. Res., 16(10), 2996-3004. https://doi.org/10.1557/JMR.2001.0411
- Suhir, E. (2001), "(e) Thermal stress in a bi-material assembly adhesively bonded at the ends", J. Appl. Phys., 89(1).
- Suhir, E. (2002), (a) Bi-material Assembly Bonded at the Ends and Fabrication Method, US Patent #6,460,753.
- Suhir, E. (2002), (b) Analytical Stress-Strain Modeling in Photonics Engineering: Its Role, Attributes and Interaction with the Finite-Element Method, Laser Focus World, May.
- Suhir, E. (2002), "(c) Could shock tests adequately mimic drop test conditions?", ASME J. Electr. Pack., July.
- Suhir, E. (2003), "(a) Thermal stress in an adhesively bonded joint with a low modulus adhesive layer at the ends", J. Appl. Phys., April.
- Suhir, E. (2003), "(b) Bow free adhesively bonded assemblies: Predicted stresses", Electrotech. Informationtech., 120(6), June.
- Suhir, E. (2003), (c) Optical Fiber Interconnects Having Offset Ends with Reduced Tensile Strength and Fabrication Method, US Patent #6,606,434.
- Suhir, E. (2005), "(a) Analytical thermal stress modeling in physical design for reliability of micro- and opto-electronic systems: Role, attributes, challenges, results", Proceedings of the Therminic Conference, Lago Maggiore, Italy, September.
- Suhir, E. (2005), "(b) Reliability and accelerated life testing", Semicond. Int.
- Suhir, E. (2006), Interfacial Thermal Stresses in a Bi-Material Assembly with a Low-Yield-Stress Bonding Layer, Modeling and Simulation in Materials Science and Engineering, 14.
- Suhir, E., Wong, C.P. and Lee, Y.C. (2008), Micro- and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Packaging, Reliability, Springer, New York, U.S.A.
- Suhir, E. and Reinikainen, T. (2008), "On a paradoxical situation related to lap shear joints: Could transverse grooves in the adherends lead to lower interfacial stresses?", J. Appl. Phys. D, 41.
- Suhir, E. and Arruda, L. (2009), "The coordinate function in the problem of the nonlinear dynamic response of an elongated printed circuit board (PCB) to a drop impact applied to its support contour", Eur. J. Appl. Phys., 48(2),
- Suhir, E. and Reinikainen, T. (2009), "(a) Interfacial stresses in a lap shear joint (LSJ): The transverse groove effect (TGE)", JSME J. Sol. Mech. Mater. Eng., 3(6).
- Suhir, E. and Reinikainen, T. (2009), "(b) Nonlinear dynamic response of a "flexible-and-heavy" printed circuit board (PCB) to an impact load applied to its support contour", J. Appl. Phys. D, 42(4), 045506. https://doi.org/10.1088/0022-3727/42/4/045506
- Suhir, E. (2009), "(a) Analytical thermal stress modeling in electronic and photonic systems", ASME AMR, 62(4).
- Suhir, E. (2009), "(b) On a paradoxical situation related to bonded joints: Could stiffer mid-portions of a compliant attachment result in lower thermal stress?", J. Sol. Mech. Mater. Eng., 3(7).
- Suhir, E. (2009), "(c) Thermal stress in a bi-material assembly with a "piecewise-continuous" bonding layer: Theorem of three axial forces", J. Appl. Phys. D, 42.
- Suhir, E. (2009), "(d) Stretchable electronics: Does one need a good thermal expansion match between the Si die and the plastic carrier?", Proceedings of the 59th Conference on ECTC.
- Suhir, E. (2009), "(e) Stretchable electronics: Predicted thermo-mechanical stresses in the die", Volume Dedicated to the 60th Birthday of Prof. B. Michel, Fraunhofer Institute, Berlin, Germany.
- Suhir, E. and Arruda, L. (2010), "Could an impact load of finite duration acting on a duffing oscillator be substituted with an instantaneous impulse?", J. Sol. Mech. Mater. Eng., 4(9).
- Suhir, E. and Reinikainen, T. (2010), "Interfacial stresses in a lap shear joint (LSJ): The transverse groove effect (TGE) and the predicted peeling stress", J. Sol. Mech. Mater. Eng., 4(8), 1116-1130. https://doi.org/10.1299/jmmp.4.1116
- Suhir, E. (2010), "(a) Predicted stresses in die-carrier assemblies in stretchable electronics: Is there an incentive for using a compliant bond?", ZAMM, 10.
- Suhir, E., Gu, C. and Cao, L. (2011), "Predicted thermal stress in a circular adhesively bonded assembly with identical adherends", ASME J. Appl. Mech., 79(1), 7-18.
- Suhir, E. (2011), (a) Linear Response to Shocks and Vibrations, John Wiley, Hoboken, New Jersey, U.S.A.
- Suhir, E. (2011), "(b) Thermal stress failures: Predictive modeling explains the reliability physics behind them, IMAPS Advanced Microelectronics", 38(4).
- Suhir, E. (2011), "(c) Predictive modeling of the dynamic response of electronic systems to shocks and vibrations", ASME Appl. Mech. Rev., 63(5), 050803.
- Suhir, E. (2011), "(d) Predictive modeling is a powerful means to prevent thermal stress failures in electronics and photonics", ChipScale Rev., 15(4).
- Suhir, E. (2011), "(e) Stresses in bi-material GaN assemblies", J. Appl. Phys., 110.
- Suhir, E. (2011), "(f) Predicted response of the die-carrier assembly to the combined action of tension and bending applied to the carrier in flexible electronics", ASME J. Appl. Mech., 79(1).
- Suhir, E. (2011), "(g) Analysis of a pre-stressed bi-material accelerated life test (ALT) specimen", ZAMM, 91(5), 371-385. https://doi.org/10.1002/zamm.201000101
- Suhir, E. and Shakouri, A. (2012), "Assembly bonded at the ends: Could thinner and longer legs result in a lower thermal stress in a thermoelectric module (TEM) design?", ASME J. Appl. Mech., 79(6), 061010. https://doi.org/10.1115/1.4006597
- Suhir, E. (2012), (a) Thermal Stress in Electronics and Photonics: Prediction and Prevention, Therminic, Budapest, Hungary.
- Suhir, E., Bechou, L. and Levrier, B. (2013), "Predicted size of an inelastic zone in a ball-grid-array assembly", ASME J. Appl. Mech., 80, 021007. https://doi.org/10.1115/1.4007476
- Suhir, E. and Shakouri, A. (2013), "Predicted thermal stresses in a multi-leg thermoelectric module (TEM) design", ASME J. Appl. Mech., 80.
- Suhir, E. and Bechou, L. (2013), "Saint-Venant‟s principle and the minimum length of a dual-coated optical fiber specimen in reliability (proof) testing", Proceedings of the ESREF Conference, Arcachon, France.
- Suhir, E. (2013), "(a) Structural dynamics of electronics systems", Mod. Phys. Lett. B, 27(7), 1330004. https://doi.org/10.1142/S0217984913300044
- Suhir, E. (2013), (b) Thermal Stress in a Tri-Material Assembly with Application to Si-Based Photovoltaic Module (PVM), Encyclopedia of Thermal Stresses, Springer, New York, U.S.A.
- Suhir, E. (2013), "(c) Lattice-misfit stresses in a circular bi-material GaN assembly", ASME J. Appl. Mech., 80(1), 014505.
- Suhir, E. (2013), (d) Thermal Stress in a Multi-Leg Thermoelectric Module (TEM) Design, Encyclopedia of thermal stresses, Springer, New York, U.S.A.
- Suhir, E. (2013), (e) Failure-Oriented-Accelerated-Testing (FOAT) and Its Role in Making a Viable IC Package into a Reliable Product, Circuits Assembly, July.
- Suhir, E. (2013), "(g) Assuring aerospace electronics and photonics reliability: What could and should be done differently", Proceedings of the IEEE Aerospace Conference, Big Sky, MT, U.S.A., March.
- Suhir, E. and Bensoussan, A. (2014), "Quantified reliability of aerospace optoelectronics", SAE Int. J. Aerosp., 7(1).
- Suhir, E. and Nicolics, J. (2014), "Analysis of a bow-free pre-stressed test specimen", ASME J. Appl. Mech., 81(11), 114502. https://doi.org/10.1115/1.4028551
- Suhir, E. (2014), "(c) Fiber optics engineering: Physical design for reliability", Facta Universit.: Electr. Energet., 27(2), 153-182. https://doi.org/10.2298/FUEE1402153S
- Suhir, E., Bechou, L. and Nicolics, J. (2015), "Thermal stress in an electronic package sandwiched between two identical substrates", Proceedings of the IEEE Aerospace Conference, Big Sky, Montana, March.
- Suhir, E., Bensoussan, A. and Nicolics, J. (2015), "(b) Bow-free pre-stressed ALT specimen", Proceedings of the SAE Conference, Seattle, U.S.A., September.
- Suhir, E., Khatibi, G. and Nicolics, J. (2015), "Predictive modeling of the lattice-misfit stresses in GaN film grown on a circular substrate", Proceedings of the MPPE Conference, Leoben, Austria, November.
- Suhir, E., Ghaffarian, R. and Nicolics, J. (2015), "Could application of column-grid-array technology result in inelastic-strain-free state-of-stress in solder material?", JMSE, 26(12), 10062-10067.
- Suhir, E. (2015), "(a) Analytical predictive modeling in fiber optics structural analysis: Review and extension", SPIE, San-Francisco, U.S.A., February.
- Suhir, E. (2015), "(b) Analytical stress modeling for TSVs in 3D packaging", Semi-Term, San-Jose, March.
- Suhir, E. (2015), "(c) Predicted Thermal and Lattice-Mismatch Stresses, Handbook of Crystal Growth, Elsevier, New York, U.S.A.
- Suhir, E. (2015), "(d) Stress related aspects of the physics of GaN material growth", SPIE, San-Francisco, U.S.A., February.
- Suhir, E. (2015), "(g) Analysis of a short beam with application to solder joints: could larger stand-off heights relieve stress?", Eur. Phys. J. Appl. Phys., 71(3), 31301. https://doi.org/10.1051/epjap/2015140492
- Suhir, E. (2015), "(h) Predicted stresses in a ball-grid-array (BGA)/column-grid-array (CGA) assembly with low modulus solder at its ends", JMSE, 26(12), 9680-9688.
- Suhir, E., Ghaffarian, R., Bechou, L. and Nicolics, J. (2016), "Column-grid-array (CGA) technology could lead to a highly reliable package design", Proceedings of the IEEE Aerospace Conference, Big Sky, Montana, U.S.A., March.
- Suhir, E., Ghaffarian, R. and Nicolics, J. (2016), "(a) Could thermal stresses in an inhomogeneous BGA/CGA system be predicted using a model for a homogeneously bonded assembly?", JMSE, 27(1), 570-579.
- Suhir, E., Ghaffarian, R. and Nicolics, J. (2016), "(b) Predicted stresses in ball-grid-array (BGA) and column-grid-array (CGA) interconnections in a mirror-like package design", JMSE, 27(3), 2430-2441.
- Suhir, E. and Ghaffarian, R. (2016), "(a) Predicted stresses in a ball-grid-array (BGA)/column-grid-array (CGA) assembly with epoxy adhesive at its ends", JMSE, 27(5).
- Suhir, E. and Nicolics, J. (2016), "Power core (PC) embedding a plurality of IC devices and sandwiched between two dissimilar insulated metal substrates (IMS‟): Predicted thermal stresses", JMSE, 27(7), 7646-7656.
- Suhir, E., Yi, S., Khatibi, G. Nicolics, J. and Lederer, M. (2016), "Semiconductor film grown on a circular substrate: Predictive modeling of lattice-misfit stresses", JMSE, 27(9), 9356-9362.
- Suhir, E. and Ghaffarian, R. (2016), "(b) Dynamic response of electronic materials to impact loading: Review", ZAMM, in Print.
- Suhir, E. and Ghaffarian, R. (2016), "(c) Board level drop test: Exact solution to the problem of the nonlinear dynamic response of a PCB to the drop impact", JMSE, 27(9), 9423-9430.
- Suhir, E. and Ghaffarian, R. (2016), "(d) Column-grid-array (CGA) vs. ball-grid-array (BGA): Board-level drop test and the expected dynamic stress in the solder material", JMSE, 27(11), 11572-11582.
- Suhir, E. and Ghaffarian R. (2016), "(e) Predictive modeling of the dynamic response of electronic systems to impact loading: Review", ZAMM, in Print.
- Suhir, E., Ghaffarian, R. and Yi, S. (2016), "QFN assembly: Effect of inhomogeneous bond and thermal stress minimization", JMSE, in Print.
- Suhir, E., Morris, J., Wang, L. and Yi, S. (2016), "Could the dynamic strength of a bonding material in an electronic device be assessed from static shear-off test data?", JMSE, 27(7), 6697-6702.
- Suhir, E. (2016), "(a) Predicted lattice-misfit stresses in a gallium-nitride (GaN) film", Proceedings of the International Rel. Phys. Symposium, Pasadena, California, U.S.A.
- Suhir, E. (2016), "(b) Bi-material assembly with a low-modulus-and/or-low-fabrication-temperature bonding material at its ends: Optimized stress relief", JMSE, 27(5), 4816-4825.
- Suhir, E. (2016), "(c) Expected stress relief in a bi-material inhomogeneously bonded assembly with a lowmodulus-and/or-low-fabrication-temperature bonding material at the ends", JMSE, 27(6), 5563-5574.
- Suhir, E. (2016), "(d) Bi-material assembly with a low-modulus-and/or-low-fabrication-temperature bonding material at its ends: Optimized stress relief", JMSE, 27(7), 4816-4825.
- Suhir, E. (2016), "(e) Analytical modeling occupies a special place in the modeling effort", J. Phys. Math., 7(1).
- Suhir, E. (2016), "(f) How many peripheral solder joints in a surface mounted design are expected to experience inelastic strains?", J. Electr. Mater., in Print.
- Suhir, E. (2016), "(g) Probabilistic palmgren-miner rule, with application to solder materials experiencing elastic deformations", JMSE, in Print.
- Sun, B., Fan, X.J., Qian, C. and Zhang, G.Q. (2016), "PoF-simulation-assisted reliability prediction for electrolytic capacitor in LED drivers", IEEE Trans. Industr. Electr., 63(11), 6726-6735. https://doi.org/10.1109/TIE.2016.2581156
- Sun, B., Fan, X.J., Ye, H.Y., Fan, J.J., Qian, C., Van Driel, W.D. and Zhang, G.Q. (2017), A Novel Lifetime Prediction for Integrated LED Lamps by Electronic-Thermal Simulation, Reliability Engineering & System Safety,163, 14-21. https://doi.org/10.1016/j.ress.2017.01.017
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- Zhou, C.Y., Yu, T.X. and Suhir, E. (2009), "Design of shock table tests to mimic real-life drop conditions", IEEE CPMT Trans., 32(4), 832-837.
- Zhou, J., Tee, T.Y. and Fan, X.J. (2010), Hygroscopic Swelling of Polymeric Materials in Electronic Packaging: Characterization and Analysis, Moisture Sensitivity of Plastic Packages of IC Devices, Springer, New York, U.S.A.