Publications

Vianco, Paul T.

Abstract not provided.

Vianco, Paul T.

Abstract not provided.

Vianco, Paul T.; Bryant, Garry L.; Zender, Gary L.; Hlava, Paul F.

Abstract not provided.

Vianco, Paul T.; Grazier, J.M.; Wright, Robert D.

Abstract not provided.

Dugger, Michael T.; Vianco, Paul T.; Goeke, Ronald S.

Abstract not provided.

Vianco, Paul T.; Neilsen, Michael K.; Fossum, Arlo F.; Holm, Elizabeth A.

Abstract not provided.

Lead Free Magazine

Vianco, Paul T.

Abstract not provided.

Susan, D.F.; Kilgo, Alice C.; Vianco, Paul T.

Abstract not provided.

Vianco, Paul T.; Rejent, Jerome A.

Cadmium plating on metal surfaces is commonly used for corrosion protection and to achieve good solderability on the 304L stainless steel shell of the MC4636 lightning arrestor connector (LAC) for the W76-1 system. This study examined the use of zinc as a potential substitute for the cadmium protective surface finish. Tests were performed with an R and RMA flux and test temperatures of 230 C, 245 C, and 260 C. Contact angle, {theta}{sub c}, served as the generalized solderability metric. The wetting rate and wetting time parameters were also collected. The solderability ({theta}{sub c}) of the Erie Plating Cd/Ni coatings was better than that of similar Amphenol coatings. Although the {theta}{sub c} data indicated that both Cd/Ni platings would provide adequate solderability, the wetting rate and wetting time data showed the Amphenol coatings to have better performance. The Zn/Ni coatings exhibited non-wetting under all flux and temperature conditions. Based on the results of these tests, it has been demonstrated that zinc plating is not a viable alternate to cadmium plating for the LAC connectors.

Proposed for publication in Materials Transactions (Japan Institute of Metals).

Vianco, Paul T.; Vianco, Paul T.; Rejent, Jerome A.; Grant, Richard P.

Low temperature, Sn-based Pb-free solders were developed by making alloy additions to the starting material, 96.5Sn-3.5Ag (mass%). The melting behavior was determined using Differential Scanning Calorimetry (DSC). The solder microstructure was evaluated by optical microscopy and electron probe microanalysis (EPMA). Shear strength measurements, hardness tests, intermetallic compound (IMC) layer growth measurements, and solderability tests were performed on selected alloys. Three promising ternary alloy compositions and respective solidus temperatures were: 91.84Sn-3.33Ag-4.83Bi, 212 C; 87.5Sn-7.5Au-5.0Bi, 200 C; and 86.4Sn-5.1 Ag-8.5Au, 205 C. A quaternary alloy had the composition 86.8Sn-3.2Ag-5.0Bi-5.0Au and solidus temperature of 194 C The shear strength of this quaternary alloy was nearly twice that of the eutectic Sn-Pb solder. The 66Sn-5.0Ag-10Bi-5.0Au-101n-4.0Cu alloy had a solidus temperature of 178 C and good solderability on Cu. The lowest solidus temperature of 159 C was realized with the alloy 62Sn-5.0Ag-10Bi-4.0Au-101n-4.0Cu-5.0Ga. The contributing factor towards the melting point depression was the composition of the solid solution, Sn-based matrix phase of each solder.

Proceedings - Electronic Components and Technology Conference

Lau, John; Dauksher, Walter; Vianco, Paul T.

A set of acceleration models for lead-free solder joints is proposed and discussed in this study. Useful equations for the acceleration models, life distribution, and failure rate are also provided. Furthermore, methods for selecting the acceleration factor are discussed. In addition, non-linear 3D creep analyses of the 256-pin plastic ball grid array PCB (printed circuit board) assembly are presented. The solder joints are made of 95.5wt%Sn-3.9wt%Ag-0.6wt%Cu lead-free solder. The lead-free results will be compared to those with Sn-Pb solder joints.

Proposed for publication in Journal of Metals.

Vianco, Paul T.; Vianco, Paul T.; Rejent, Jerome A.; Martin, Joseph J.

Abstract not provided.

Proposed for publication in Journal of Materials Science.

Vianco, Paul T.; Vianco, Paul T.; Rejent, Jerome A.; Zender, Gary L.; Kilgo, Alice C.

Abstract not provided.

Vianco, Paul T.; Burchett, Steven N.

Abstract not provided.

Welding Journal - Research Supplement

Vianco, Paul T.; Hosking, F.M.; Stephens, John J.; Walker, Charles A.; Neilsen, Michael K.; Glass, Sarah J.; Monroe, Saundra L.

Abstract not provided.

Vianco, Paul T.

Legislative and marketing forces both abroad and in the US are causing the electronics industry to consider the use of Pb-free solders in place of traditional Sn-Pb alloys. Previous case studies have demonstrated the satisfactory manufacturability and reliability of several Pb-free compositions for printed circuit board applications. Those data, together with the results of fundamental studies on Pb-free solder materials, have indicated the general feasibility of their use in the broader range of present-day, electrical and electronic components.

Welding Journal Research Supplement

Vianco, Paul T.; Hosking, F.M.; Stephens, John J.; Walker, Charles A.; Neilsen, Michael K.; Glass, Sarah J.; Monroe, Saundra L.

Abstract not provided.

Glass, Sarah J.; Loehman, Ronald E.; Hosking, F.M.; Stephens, John J.; Vianco, Paul T.; Neilsen, Michael K.; Walker, Charles A.

The main objective of this project was to develop reliable, low-cost techniques for joining silicon nitride (Si{sub 3}N{sub 4}) to itself and to metals. For Si{sub 3}N{sub 4} to be widely used in advanced turbomachinery applications, joining techniques must be developed that are reliable, cost-effective, and manufacturable. This project addressed those needs by developing and testing two Si{sub 3}N{sub 4} joining systems; oxynitride glass joining materials and high temperature braze alloys. Extensive measurements were also made of the mechanical properties and oxidation resistance of the braze materials. Finite element models were used to predict the magnitudes and positions of the stresses in the ceramic regions of ceramic-to-metal joints sleeve and butt joints, similar to the geometries used for stator assemblies.

Vianco, Paul T.; Schwartz, Cynthia L.; Vianco, Paul T.

Electronic components and micro-sensors utilize ceramic substrates, copper and aluminum interconnect and silicon. The joining of these combinations require pre-metallization such that solders with fluxes can wet such combinations of metals and ceramics. The paper will present a new solder alloy that can bond metals, ceramics and composites. The alloy directly wets and bonds in air without the use flux or premetallized layers. The paper will present typical processing steps and joint microstructures in copper, aluminum, aluminum oxide, aluminum nitride, and silicon joints.

Assembly Automation

Vianco, Paul T.; Kilgo, Alice C.

Minimizing the likelihood of solder joint embrittlement in connectors is realized by reducing or eliminating retained Au plating and/or Au-Sn intermetallic compound formation from the assemblies. Gold removal is performed most effectively by using a double wicking process. When only a single wicking procedure can be used, a higher soldering temperature improves the process of Au removal from the connector surfaces and to a nominal extent, removal of Au-contaminated solder from the joint. A longer soldering time did not appear to offer any appreciable improvement toward removing the Au-contaminated solder from the joint. Because the wicking procedure was a manual process, it was operator dependent.

Vianco, Paul T.; Schwartz, Cynthia L.; Rejent, Jerome A.

An assessment was made of the manufacturability of hybrid microcircuit test vehicles assembled using three Pb-free solder compositions 96.5Sn--3.5Ag (wt.%), 91.84Sn--3.33Ag--4.83Bi, and 86.85Sn--3.15Ag--5.0Bi--5.0Au. The test vehicle substrate was 96% alumina; the thick film conductor composition was 76Au--21Pt--3Pd. Excellent registration between the LCCC or chip capacitor packages and the thick film solder pads was observed. Reduced wetting of bare (Au-coated) LCCC castellations was eliminated by hot solder dipping the I/Os prior to assembly of the circuit card. The Pb-free solders were slightly more susceptible to void formation, but not to a degree that would significantly impact joint functionality. Microstructural damage, while noted in the Sn-Pb solder joints, was not observed in the Pb-free interconnects.