Hex - A - Gone is a decorative trivalent chromium electroplating system which produces a finish comparable in color to a hexavalent chromium deposit. Hex - A - Gone offers exceptional throwing power, ease of operation, and good tolerance to metallic impurities. Trivalent chromium plating solutions offer reduced waste treatment costs and less health and environmental concerns than hexavalent chromium solutions. Exceptional throwing power Environmentally friendly Higher bath efficiency reduces utility requirements Operates at low current densities Plates 1 1.5 micro inches per minute Hexavalent chromium-free Less energy consumption compared to hexavalent chromium solutions PAVCO, Inc. 1935 John Crosland Jr Drive Charlotte, NC 28208 Phone: 704-496-6800 Toll-free: 1-800-321-7735 or 1-877-PAVCO INC (728-2646) Fax: 704-496-6810 Order Fax (for orders only) 704-496-851 www.pavco.com
2 Operating Parameters: Range Total Chromium: 5-10 g/l 7 g/l Hex - A - Gone Salts: 31-38 oz/gal 235-285 g/l Cr Maintenance: 6.3-11.4% 9% Whitener 0.8 2.5% 2% Brightener 0.3 1.0% 0.7% Optimum 35 oz/gal 260 g/l Complexor 1.6x 2.2x Chrome 2x Chrome metal Surface Tension: 25-35 dynes/cm 2 30 dynes/cm 2 Cathode Current Density: 40-100 A/ft 2 (4-10 A/dm 2 ) 70 A/ft 2 (7 A/dm 2 ) Anode Current Density: 20 50 A/ft 2 (2 5 A/dm 2 ) ph: 3.3-3.8 3.6 Temperature: 110-130 F 43-54 o C 50 A/ft 2 ( 5 A/dm 2 ) 123 F 50 C Specific Gravity 1.18-1.22 1.20 Equipment: Tank: Anodes: Anode Bars: ph meter: Filtration: Rectifier: Temperature Control: Ventilation: Agitation: Metallic Removal: A polypropylene, PVC, or Koroseal lined tank. Inert anodes with special catalytic coatings are used for direct contact with plating solution. Pavco recommends a plastic mesh be put over the anodes to prevent scratching or mechanically damaging the catalytic coating. Contact Pavco technical department for availability of these anodes. Use copper anode bars, preferably shielded with plastic. Careful control of ph is critical to the successful operation of Hex-A-Gone. A good ph probe and frequent standardization of the meter are necessary. Use 5-15 micron polypropylene filters and activated carbon. Filtration speed should be at least 1 tank turnover per hour. Up to 12 volts, less than 5% ripple. A titanium heat exchanger is recommended. Required, check local regulations. Air agitation is required for dissolution of salt additions. Air agitation is typically not recommended when electroplating, but can be beneficial in special circumstances. Electro-winning cell or PavRes HAG II Ion Exchange resin can be used.
3 Bath Maintenance: Cr Maintenance: BC Maintenance: A1020 Wetter: Salts: 1 gal/7,500 amp - hrs. (1 L / 1900 amp - hrs.) 1gal/10,000 amp - hrs. (1L / 2600 amp - hrs.) 1 gal/ 25,000 amp - hrs. (1L / 6300 amp - hrs.) Based on specific gravity (see chart) Continuous regular additions are required even during dummy electrolysis. CAUTION : Careful control of ph is required for successful operation of Hex-A-Gone. DO NOT ALLOW THE ph TO EXCEED 3.8. Bath Makeup per 1000 gallons - 3785 liters: 1. Add 800 gallons (3000 liters) of de-ionized water to a clean tank. 2. Heat the water to 110 o F (50 o C). 3. Add 2000 pounds (900 kg) of Salts. 4. Add 100 gallons (380 l) of Cr Make up. 5. After the salts and make-up are thoroughly dissolved and mixed, raise the solution level to the proper operating volume with de-ionized water. Then lower the ph of the solution to 1.8 with 50% sulfuric acid. Agitate the bath for 12 hours minimum to establish the proper chromium complex. After the 12 hour period, raise the ph over a two hour period to operating range with 45% potassium hydroxide. 6. Add 10 gallons (37.5L) of BC Make Up, 5 gallons (18.9L) of BRT, 3 gal (11.4L) Hex-A-Gone BC Maintenance and 2.5 gal (9.5L) A1020 Wetter 7. Add D.I. water to the final volume. 8. Electrolyze the bath for up to 2 amp-hours/gallon (0.5 amp-hours/liter) as needed before use. Confirm brightness and coverage by hull cell before production use. Operating Tips: Use routine additions of HAG BC Maintenance to maintain good coverage, color and thickness of the chromium deposit. Use routine additions of HAG CR Maintenance to maintain chromium levels. HAG CR Make-up is only used for a new bath make-up or when significant solution loss occurs Higher chromium levels will improve the high current density but will reduce the coverage in the low current density. Nickel in excess of 50 ppm or zinc in excess of 10 ppm can reduce the bath efficiency (slow down the rate of deposition) as well as darken the deposit. Electrolyze the solution at 10 amps/ft 2 (1 amp/dm 2 ) to remove zinc, 18 amps/ft 2 (1.8 amps/dm 2 ) to remove nickel. Iron in excess of 30 ppm can darken the deposit. Electrolyze the solution at 18 amps/ft 2 (1.8 amps/dm 2 ) to remove iron. Use of waste treatment grade caustic is not recommended. Use caustic with a specification of less than 50 ppm chloride (<.005%) to avoid chloride contamination issues.
4 When the rate of metallic contamination is high, Pavco recommends ion exchange or an electrowinning cell for continuous electrolyzing. Electrolysis at 18 A/ft 2 is most efficient current density for removing metals. Carbon filtration is recommended to maintain good color and efficiency. Use 2-4 pounds of granular activated carbon (1-1.5 kg) per 1000 gallons (4000 liters) of solution. Replace the carbon every two weeks. Inspect the anode coating every three months. The anodes will require periodic recoating. Thin anode coating will result in hex chrome formation and poor chromium coverage. Routinely check for hex chrome to confirm proper anode coating and addition rates. Hexavalent chrome formation can be due to poor anode coating, low BC Maintenance or bath contaminants. Keep the specific gravity below 1.25 for optimal high current density performance. Catalyst levels will reduce gradually during downtime. Monday morning start up typically requires an addition of Hex-A-Gone BC Maintenance (0.05 0.1%) to obtain desired plating rate. BC Maintenance or Catalyst can be used for this purpose. Contaminant Limits: Contaminant Upper limits Effect Copper <5 ppm Poor color, poor efficiency Nickel <50 ppm Poor color, poor efficiency, streaks Zinc <10 ppm Poor efficiency, haze in deposit Iron <30 ppm Darkens deposit Chloride <500 ppm Degrades anode coating Fluoride <50 ppm Degrades anodes Components: Function of Additives Cr Make-up (HG 106) Provides the chromium salts necessary for a solution make-up. May be used in place of Hex-A-Gone CR Maintenance to provide increased dosing of Complexor. BC Make-up (HG 108) (used only in make-up) Provides the grain refiners and brighteners necessary for a solution makeup. Salts (HG 116) Provides the salts required to operate the system. HAG salts are depleted when operating the bath. Regular analysis and additions of this product are required. Do not add salts if the specific gravity exceeds 1.22 g/l Cr Maintenance (HG 100) Provides the correct balance of chromium metal and complexors to maintain the bath. Maintenance must be added on an amp-hour basis. BC Maintenance (HG 102) Provides the correct balance of grain refiners and brighteners to maintain the bath. Maintenance must be added on an amp-hour basis. HAG CR HAG BC
5 A1020 Wetter (HGA 120) Reduces surface tension and prevents gas streaks. Also improves HCD range. HAG Wetter must be added on an amp-hour basis. It is controlled by surface tension analysis. BRT (HG 112) HAG BRT is contained in BC Maintenance. HAG BRT should only be added at the direction of Pavco technical personnel. Very low BRT can cause dull deposits. Whitener (HG 110) HAG Whitener is contained in BC Maintenance. It helps to maintain the characteristic color of the deposit. HAG Whitener should only be added at the direction of Pavco technical personnel. Catalyst (HG 114) HAG Catalyst is contained in BC Maintenance. Hex-A-Gone Catalyst should only be added at the direction of Pavco technical personnel. Typical addition of 0.025 0.1% Hex-A-Gone Catalyst controls the deposition rate. Excess Catalyst can cause hazing.. Extender (HG 101) HAG Extender should only be added at the direction of Pavco technical personnel. This additive will improve LCD coverage of the chrome. It will tend to darken the deposit, so use minimally in 0.1% increments. Complexor (HG 115) HAG Complexor should only be added at the direction of Pavco technical personnel. Low Complexor can lead to formation of Hex Chrome and poor throwing power. High Complexor will cause reduced efficiency. Analytical Procedures: Hex-A-Gone Salts Reagents 1. Mannitol 2. 1N sodium hydroxide Procedure 1. Pipette a 5 ml bath sample into a 150 ml beaker. 2. Add 20 mls de-ionized water. 3. Add a Teflon-coated magnetic stir bar & mix solution on stir plate throughout the analysis. 4. Using a ph meter, adjust ph solution to 6.0-6.5 using either 1N sodium hydroxide or 1N sulfuric acid. Record final ph. 5. Add 10 g Mannitol (Excess Mannitol is necessary at all times) 6. Slowly titrate the solution with 1N sodium hydroxide until the recorded ph is reached. Calculation: [ ml (NaOH) X N (NaOH) x 245 ] = oz/gal Salts [ ml sample x 7.5 (g/l)/(oz/gal)]
6 Hex-A-Gone Salts by Specific Gravity: Salt concentration can also be determined by Specific Gravity. Weigh 100 mls of plating solution on a gram scale using a 100 ml volumetric flask. Be sure that flask is dry and determine tare weight of empty flash. Subtract tare weight from total weight. Scale used must be accurate to +/- 0.1 grams. Specific gravity in g/ml = weight in grams / 100 ml Use the chart below that is closest to your operating chrome concentration. If your Hex-A-Gone Salt concentration by specific gravity does not match your Hex-A-Gone Salt by titration within 25 g/l, consult a Pavco representative. oz/gal Salts = g/l Hex-A-Gone Salts/7.5 CAUTION: Do not add salts if the specific gravity exceeds 1.22 g/l. if the salt analysis is low and the specific gravity is high, add boric acid in 1 oz/gal (7.5 g/l) increments. Addition of Hex-A-Gone Salts Required Specific Gravity oz/gal g/l 1.200 0 0 1.190 1.7 13 1.180 3.5 26 1.170 6.9 52 1.160 13.9 104 Analytical Procedures: Chrome Metal Reagents 1. Sodium hydroxide 2. 30% hydrogen peroxide 3. 1:1 sulfuric acid 4. 10% potassium iodide 5. Starch solution 6. 0.1N sodium thiosulfate Procedure 1. Pipette a 5 ml bath sample into a 250 ml Erlenmeyer flask. 2. Add 100 mls de-ionized water. 3. Add 2 grams of sodium hydroxide to the flask and swirl to dissolve. 4. Add 2 mls of 30% hydrogen peroxide. 5. Boil the solution until all the peroxide is gone, at least 15 minutes. 6. Cool the solution to room temperature. 7. Add 10 mls of 1:1 sulfuric acid. 8. Add 5 mls of 10% potassium iodide. 9. Titrate with 0.1 N thiosulfate to a straw color.
7 10. Add 2 mls of starch indicator. 11. Continue the titration to the absence of a blue color which persists for 30 seconds. Calculation: g/l Total Cr = (ml. of Na 2 S 2 O 3 ) (N of Na 2 S 2 O 3 )(17.3) (mls of sample) % Cr Maintenance = g/l total Cr x 1.25 Hex-A-Gone Whitener, Hex-A-Gone Brightener, Hex-A-Gone Complexor, surface tension, Metallic contaminants & chloride contamination Submit regular samples to your Pavco representative for routine monitoring of these bath components. Monitoring these components and adjusting as needed is critical to the long term consistency of the Hex-A-Gone process. Initial testing upon installation is recommended weekly. Thereafter, monthly samples are usually sufficient. Equipment required 250 ml Erlenmeyer flask 1 ml pipette 50 ml graduated cylinder Reagents Diphenylcarbazide, 0.5% in acetone Sulfuric acid, 50% Distilled or Deionized water (DI) Hexavalent Chrome Test for Hex-A-Gone Trivalent Chrome Solution (Qualitative) Procedure 1. Add 90 mls DI water to a 250 ml Erlenmeyer flask. 2. Add 10 mls Sulfuric acid 50%, with a graduated cylinder. 3. Add 1 ml diphenyl carbazide indicator solution. Observe for pink color. If solution is pink, discard and wash all glassware before returning to step 1. 4. If solution is not pink after Step 3, pipette 1 ml of trivalent chrome solution into the flask. 5. Observe for the development of a pink color. Pink indicates presence of hexavalent chrome. A barely distinguishable pink color indicates 20-50 ppm hexavalent chrome. Opaque pink/red indicates in excess of 500 ppm hexavalent chrome. Notes: Take care not to contaminate diphenylcarbazide indicator solution with chromium solution. Discard the indicator if contaminated. A colorless solution after step 3 demonstrates clean indicator, glassware and reagents. Test the trivalent chrome plating bath immediately after sampling the bath. Any hexavalent chrome generated at the anodes will rapidly react with bath additives and give false negative results if sample is allowed to sit idle. Check the bath after 1, 4, and 8 hrs. of production. Positive hex chrome tests can indicate a defective anode coating. Consult your Pavco representative.
8 Trouble Shooting Chart: Problem Cause Solution HCD Skip plate Low wetting agent Add up to 0.3% A1020 Wetter ph not in range Low salts, low chrome Low temperature Low BC Maintenance or Catalyst Adjust ph with low chloride potassium hydroxide or sulfuric acid Check specific gravity, Salts and chrome. Adjust as needed. Check and adjust Add 0.05% increments BC Maintenance or Catalyst Thin or no chromium deposit Poor coverage w/ clean LCD Low chemistry Low catalyst ph was too high or bath is under used. Bath needs low ph treatment. Metallic contamination Hexavalent chrome contamination Check chrome, spg, Salts, ph and adjust as needed Add 0.05% increments BC Maintenance or 0.05% increments Hex-A- Gone Catalyst Heat bath to 120 o F (49 o C). Lower the ph to 2 with sulfuric acid and maintain for 12 hours. Slowly raise the ph to 3.3-3.8 with liquid KOH. Electrolyze for 2 amp hours/gal Check for copper, nickel, iron, zinc. Electrolyze the bath at 18 A/ft 2 (1.8 A/dm 2 ) to remove metals. Regenerate or replace resin. Add 0.1% increments Purifier per 70 ppm nickel Run hex chrome test. Check anode coatings. Treat with Sodium Metabisulfite until hex test is negative. Sodium Metabisulfite can typically be added in 0.05 g/l increments. See section below on hex chrome contamination. Temperature out of range Adjust temperature to 120-130 F (49-54 o C) Low chrome Metal Low Salts Low BC Maintenance or Catalyst Low Hex-A-gone Complexor (Green solution color) Organic contamination Analyze chrome and adjust to range with CR Maintenance Analyze and adjust the Salts concentration Add 0.05% increments BC Maintenance or Catalyst Send sample to Pavco Laboratory for analysis. Add in 2 g/l increments Filter continuously through activated carbon. Replenish wetter after treatment with up to 0.3% A1020 Wetter
9 Dark or streaky LCD or overall streaky or dark deposit Thin white bands, dull or blue deposit Thin white bands, dull or blue deposit White haze in LCD (strips in 10% sulfuric) Constant hex chrome issues Short anode life (less than 2-3 years) Metallic contamination Excess BC Maintenance or Hex-A- Gone Catalyst Check for copper, nickel, iron, zinc. Electrolyze the bath at 18 A/ft 2 (1.8 A/dm 2 ) to remove these metals. Regenerate or replace resin. Add 0.1% increments Purifier per 70 ppm nickel Electrolyze or withhold adds of BC Maintenance or Catalyst. If this is not sufficient, add 0.03% increments of hydrogen peroxide until haze is eliminated. Allow 20 minutes between additions of peroxide Low BRT Check brightener levels and adjust to 0.4-0.6%. Check hull cell thickness and add 0.2% increments of Brightener if thickness is above normal. Zinc contamination Check for dropped parts, electrolyze at 5-10 A/ft 2 (0.5-1.0 A/dm 2 ) or regenerate IX resin. Increased Catalyst can help improve efficiency in the presence of zinc. (0.1% for 20 ppm) High anode current density Degraded/ineffective anode coating Low Hex-A-Gone Complexor levels Improper addition rates High zinc contamination Thin or poorly adherent coating High fluoride (>50 ppm) High chloride (>500 ppm) Increase number of anodes Send anode to Pavco for thickness analysis. Recoat anodes. Submit sample to Pavco lab and adjust as needed Check addition rates for Hex-A-Gone BC Maintenance and Hex-A-Gone CR Maintenance. Adjust as needed. Increase addition rate of Hex-A-Gone BC Maintenance if needed. Analyze for zinc. Pump tank and inspect bottom for parts. Dummy plate to remove zinc or regenerate ion exchange resin to improve zinc removal capacity. Add extra Hex-A-Gone Catalyst (0.05% increments) until thickness returns Recoat anodes using qualified source Eliminate source. Do not use fluoridated acid salts in acid dips prior to Hex-A-Gone Improve rinsing after nickel. Use DI water for makeup water. Do not use softened water. Do not use hydrochloric acid to regenerate resins
10 Waste Treatment: Dispose of the concentrate or solutions thereof according to local waste treatment regulations. Recommended treatment procedures are available from your Pavco representative. Safety: Handling Pavco mandates that the following safety equipment be used when handling chemicals in an electroplating environment: safety glasses, face shield, plastic or rubber apron, rubber gloves and safety shoes. Chemicals should only be handled by trained and experienced personnel. Storage Store Pavco products in a clean, well ventilated room which temperature remains above 45 F (7 C). Pavco products should remain in their original container with the lid or cap tightened. Drum pumps or pails must be clean prior to dispensing Pavco products to prevent contamination. If Hex-A- Gone freezes during shipment or storage, warm the product to and mix it well before use. Emergency Procedures Refer to the MSDS for detailed emergency procedures. Eye Contact Seek immediate medical attention. Flush the eyes with water for 15 minutes. Skin Contact Remove all contaminated clothing. Wash the skin with soap and water. Seek medical attention. Inhalation Remove the person to an area with fresh air. Seek medical attention if necessary. Ingestion Seek immediate medical attention. Spill Dike the area to contain the spill. Refer to the MSDS for clean-up. Notify the proper authorities if required. *NOTE: Refer to the MSDS for detailed emergency medical procedures. Product Description & Shipping: Hex - A - Gone Salts (HG 116) is a white powder. Hex - A - Gone BC Make-up (HG 108) is a pale yellow liquid with a specific gravity between 1.0 and 1.3 with a ph greater than 12. Hex - A - Gone CR Make-up (HG 106) is a dark blue green liquid with a specific gravity between 1.1 and 1.3 with a ph less than 3. Hex - A - Gone BC Maintenance (HG 102) is a pale yellow liquid with a specific gravity between 1.0 and 1.3 with a ph greater than 12. Hex - A - Gone CR Maintenance (HG 100) is a dark blue green liquid with a specific gravity between 1.2 and 1.3 with a ph less than 3. Complexor (HG115) is a white powder is available in 40# containers. A1020 Wetter (HGA120) is a clear foamy liquid with a specific gravity between 1.0 and 1.05 and a ph between 5 and 9 BRT (HG112) a pale yellow liquid with a specific gravity between 1.0 and 1.1 and a ph less than9 Purifier (HG103) is a yellow/green liquid with a specific gravity between 1.05 and 1.55 and a ph greater than 12. Whitener (HG110) is a colorless liquid with a specific gravity between 1.0 and 1.1 and a ph less than 9. Catalyst (HG114) is a pale yellow to slight pinkish liquid with a specific gravity between 0.90 and 1.04 and a ph greater than 12. Extender (HG101) is a green liquid with a specific gravity between 1.0 and 1.1 and a ph less than 3.0. Revision Date: 11/16/15 Revision Number: 15 WARRANTY AND DISCLAIMER Technical information and recommendations contained herein are believed to be reliable, however, the accuracy or completeness thereof is not guaranteed. No statement or recommendation shall constitute a representation unless set forth in an agreement in writing by the seller and manufacturer. NO WARRANTY OR MERCHANTABILITY OR WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE IS MADE. The following warranty is made in lieu of any other warranties, express, implied, or statutory. Products are warranted to be free from defects on material and workmanship at the time sold. The sole obligation of the seller and manufacturer under this warranty shall be to replace any product defective at the time sold. Under no circumstances shall the manufacturer or seller be liable for any loss, damage, expense, direct or consequential, arising out of the use of or inability to use the product. Materials shall not be returned to the seller or manufacturer without express written permission. No information or suggestions given by us shall be deemed to be a recommendation to use any product in conflict with any existing patent rights.