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Sn3.2Ag0.7Cu5.5Sb Solder Alloy with High Reliability Performance up to 175C
Keywords: solder, automotive, die attach
A novel lead-free solder alloy 90.6Sn3.2Ag0.7Cu5.5Sb, designated as Indalloy276, was developed targeting for high reliability with a wide service temperature capability. The alloy exhibited a melting temperature range of 223 to 232C, reflowable at profile with peak temperature 245C and 255C, with ambient temperature Yield Stress 60MPa, UTS 77 MPa, and ductility 28%, and a higher stress than both SAC305 and SACBSbN, the latter two alloys were used as controls. When tested at 140C and 165C, the die shear stress of 276 was comparable with SACBSbN but higher than SAC305, and the ductility was higher than both SACBSbN and SAC305, with SACBSbN exhibited distinct brittle behavior. When aged at 125C and 175C, the die shear strength of 276 was comparable or higher than both controls. When pretreated with a harsh condition, TST (-55C/155C) for 3000 cycles, the die shear strength of 276 was 8 times of that of SACBSbN and SAC305. When pre-conditioned at TCT (-40C/175C) for 3000 cycles, the die shear strength of 276 was 11 to 20 times of SACBSbN and SAC305, depending on the flux type used. Both 276 and SACBSbN are alloys based on SnAgCu, but reinforced with precipitate hardening and solution hardening, with the use of additives including Sb, Ni, and Bi. 276 exhibited a finer microstructure with less particles dispersed, while SACBSbN exhibited more particles with some blocky Ag3Sn plates or rods. 276 is rigid and ductile, while SACBSbN is rigid but brittle. Under the harsh test condition where T was high, the dimension mismatch between parts and substrate became very significant due to CTE mismatch. This significant dimension mismatch would cause a brittle joint to crack quickly, as seen on SACBSbN. The challenge was more tolerable for a ductile joint, as shown by 276. Accordingly 276 showed a much better reliability than SACBSbN under harsh condition, including high testing temperature and large T. Overall, to achieve high reliability under a wide service temperature environment, a balanced ductility and rigidity for solder alloy is critical for success.
Ning-Cheng Lee, Vice President, Technology
Indium Corporation
Clinton, NY

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