How to manage wave solder alloy contaminations. Gerjan Diepstraten & Harry Trip Cobar Europe BV Balver Zinn

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Transcription:

How to manage wave solder alloy contaminations Gerjan Diepstraten & Harry Trip Cobar Europe BV Balver Zinn

Content SnPb solder and impurities Lead-free solder change Pb contaminations in lead-free Measure solder composition Sample interval Recommendations Wave soldering versus selective

SnPb impurities Out of specification: Limits according to IPC-J-STD001E Scores from >1500 solder pot analysis

Copper contamination in SnPb Maximum 0,3% Remove at 190 C with stainless steel strainer

Exchange solder Procedure: 1. Empty solder pot 2. Clean all parts 3. Refill pot with pure Sn (wash Sn) 4. Run solder pumps for > 0,5 hour 4. Empty solder pot 5. Refill solder pot with leadfree solder

Solder exchange Sn wash Percentage of Pb after lead-free refill Use wash Sn to get low Pb impurities

Spectro analysis 1. Sample: flowing solder middle of the wave 2. Preparation sample 3. OES Analysis

Erosion solder pot Erosion Lead-free: Higher solder temperatures HigherAg & Sn content Lack of Pb lubrication Potential alternatives: Titanium Cast iron Chrome carbid Ag-less alloys

Fe contamination FeSn 2 needles SAC alloys sensitive for erosion Co or Ni doping to minimize erosion Fe Max. Values 0,02 %

SPC Chart Fe contamination FeSn 2 needles: Melting point >500 C In areas where there is no flow Bridging potentials Hard to define iron erosion by analyzing solder samples

FeSn 2 Needles Selective SnPb Also in SnPb alloys there is steel erosion. Reduces flow properties.

Pb impurity historical graph

Copper leaching SAC305 SnPb SN100C

SPC: Cu content in solder Nitrogen wave solder process (full tunnel) (identical machines, same customer): Automotive, Medical products (SnPb) Industrial (lead-free) SnPB SN100C

Ni additive Sn-0.7Cu Cu 6 Sn 5 IMC Sn-0.7Cu+NiGe at ~ 3 % Ni in (Cu,Ni) 6 Sn 5 (Cu,Ni) 6 Sn 5

FluidityandNi Content Fluidity Length

IMC growth The Ni in the IMC has the effect of stabilizing the hexagonal crystal structure of the Cu 6 Sn 5 and slowing down total IMC growth

Ni SPC-chart SN100C Ni content is consistent over the years. Ni-rich solder bars available.

Uniform eutectic structure High Ni content Primary (Cu,Ni) 6 Sn 5 Crystals Eutectic between crystals SN100C 600 PPM >1000 PPM

Impact of Ag on fluidity

SAC 305 elements contents Selective soldering process Cu drifts more due: 1. Leaching 2.SnAg or SAC bars

Silver/copper content in SAC305 Higher melting range: Fast solidification of solder Bridging Spikes

Germanium Ge acts as an antioxidant and surface active agent. 15 minutes ramp up to 340 C -30 minutes cooling SnCuNi SnCuNiGe K Watling, A Chandler, K Nogita. A Dahle, University of Queensland

Dross and Germanium Less Ge results in more dross.

Impact of P Phosphorus in lead-free solder (SAC) increases stainless steel erosion. P acts like a flux. Adding P to SnCuNi destroys the beneficial effect of Ni. SnCuNi SnCuNi+0.007P SnCuNi+0.02P SnCuNi+0.06P Sn0.7Cu Similar Ni benefit gone

SAC alloys out of spec Number of Pb defects is decreasing Ni is less critical

Sampling interval Trend 0,29%/week 10x more Trend 0,032%/week

Recommendations IPC J-STD-001 E chapter 3.2.2. Solder Purity Maintenance: If contamination exceed limits, intervals between the analyses, replacement or replenishment shall [N1D2D3] be shortened. The frequency of analysis should be dertermined on the basis of historical data or montly analysis.

Dross After running 20 hours (no maintenance) Solder (wave) continuous running. Solder temperature 260 C.

Minimize dross Use Nitrogen blanket Reduce solder fall height Ge tablets Wave former

SnPb wave versus selective Automotive line (identical products) One year average scores

Periodic table Halogens Anti-oxidants RoHS Rare Earth elements (Vitamins) Gd Pr Ce Sm La Nd

Conclusions: Lead-free soldering requires more alloy analyses. Copper contents in lead-free solder alloys should be monitored on a frequently basis. (Minimal 12 x /year for selective soldering) Lead impurities are decreasing in lead-free alloys. Metal erosion (solder pot parts) is hard to identify by solder analysis. Check during maintenance.

Balver Lab Acknowledgement Nihon Superior