Anoplex Software : ChemTrak Built-in Titrations

AB01	Analysis	NH4HF2 (ammonium bifluoride)	1 Pipette exactly 10.00 mL sample from bath 2 Add 2-3 drops phenolphthalein indicator 3 Add 1.0N NaOH drop-by-drop to persistent faint pink 4 Add 0.1N H2SO4 drop-by-drop to just remove pink color 5 Add 40 mL of saturated boric acid 6 Add 40 mL of reagent alcohol 7 Add 8 grams of KCl and mix to dissolve 8 Add 5 drops methyl orange 9 Titrate with A mL of 0.1N H2SO4 to a faint pink A ____ mL x 0.4 = ____ oz/g fluoride A ____ mL x 3.0 = ____ g/L fluoride
AB02	Analysis	Enthone Actane 70 before HNO3 analysis	1 Pipette exactly 10.00 mL sample from bath 2 Add 2-3 drops phenolphthalein indicator 3 Add 1.0N NaOH drop-by-drop to persistent faint pink 4 Add 0.1N H2SO4 drop-by-drop to just remove pink color 5 Add 40 mL of saturated boric acid 6 Add 40 mL of reagent alcohol 7 Add 8 grams of KCl and mix to dissolve 8 Add ~5 drops methyl orange 9 Titrate with B mL of 0.1N H2SO4 to a faint pink B ____ mL x 0.6 = ____ oz/g Actane 70 B ____ mL x 4.5 = ____ g/L Actane 70
AB03	Analysis	NH4HF2 after total acid analysis	After titration for Total Acid (TA03) : 1 Add 1.0N H2SO4 drop-by-drop to remove pink color 2 Add 40 ml of saturated boric acid 3 Add 40 ml methyl or ethyl alcohol 4 Add 8 grams KCl and mix to dissolve 5 Add ~5 drops methyl orange 6 Add B ml 0.1N H2SO4 from yellow to orange B ____ ml x 0.3 = ____ oz/gal NH4HF2 (ammonium biflouride) B ____ ml x 2.25 = ____ g/L NH4HF2 (ammonium biflouride)
AC10	Analysis	Enthone Actane E-10	1 Pipette exactly 10.00 mL sample from bath 2 Add ~100 mL DI water 3 Add 3 drops bromocresol green indicator 4 Add A mL 1.0N NaOH to persistent green A ____ mL x 0.403 = ____ %v/v Actane E-10
AC42	Analysis	Enthone Actane 342	1 Pipette exactly 5.00 mL sample from bath 2 Add ~95 mL DI water 3 Add 3 drops phenolphthalein indicator 4 Add A mL 0.1N NaOH to pink A ____ mL x 0.31 = ____ oz/g Actane 342 A ____ mL x 2.33 = ____ g/L Actane 342
AG01	Analysis	Convert ppm from AA to troz/g Ag	Enter the silver concentration in tr.oz/gal and the titration calculator will show the correct addition of KAg(CN)2.
BA01	Analysis	Boric Acid	1 Pipette 10.00 mL sample from bath 2 Add about 25 mL DI or distilled water 3 Add 5 grams mannitol 4 Add 2 mL bromocresol purple indicator 5 Titrate with A mL 1.0N NaOH to purple A ____ mL x 0.824 = ____ oz/g H3BO3 A ____ mL x 6.177 = ____ g/L H3BO3
BA02	Analysis	Boric Acid	1 Pipette 2.00 mL sample from bath 2 Add 5 mL DI or distilled water 3 Add 5 mL 5% gum-arabic solution 4 Add 1 drop bromothymol blue indicator 5 Add 1 drop bromocresol purple indicator 6 Add 4 drops 1.0N NaOH 7 Add 4 grams mannitol 8 Titrate with A mL 1.0N NaOH to full blue A ____ mL x 0.413 = ____ oz/g H3BO3 A ____ mL x 3.096 = ____ g/L H3BO3
CA01	Analysis	Chromic Acid	1 Take 2.7 mL sample from bath 2 Add 50 mL DI water 3 Add 1/2 tsp potassium iodide 4 Add 5mL H2SO4 5 Add 3-5 mL starch indicator solution 6 Add A mL 0.1N Na2S2O3 from BLU to CLR A ____ mL x 0.16 = ____ oz/g chromic acid A ____ mL x 1.2 = ____ g/l chromic acid
CD02	Analysis	Cad Metal	1 Add 80 mL DI water to 500 mL flask 2 Add 25 mL ammonium chloride buffer (pH 10) 3 Pipette 0.2 mL sample from bath and add to flask 4 Add 0.25 grams Eriochrome Black-T 5 Add 10 mL of 10% formaldehyde 6 Immediately titrate with A mL of 0.115N EDTA to blue A ____ mL x 0.43 = ____ oz/g Cd Metal A ____ mL x 0.494 = ____ oz/g Cd Oxide A ____ mL x 3.2 = ____ g/L Cd Metal A ____ mL x 3.7 = ____ g/L Cd Oxide
CE14	Analysis	Enthone Enprep 14	1 Pipette 3.1 mL sample from bath 2 Add 75 mL DI or distilled water 3 Add phenolphthalein indicator to faint pink 4 Titrate with A mL 0.574N H2SO4 to clear 5 Add 3 mL KF (potassium fluoride) 6 Titrate with B mL 0.574N H2SO4 to clear 7 Add 1 drop KF - if pink, repeat step 6 A ____ mL - [0.36 x B ____ mL] = ____ oz/g E14 B ____ mL x 0.24 = ____ oz/g Al B ____ mL x 1.82 = ____ g/L Al 0.574N H2SO4 = 15.9 mL of H2SO4 diluted to 1L
CE15	Analysis	Enthone Enprep 114	1 Pipette 10.0 mL sample from bath 2 Add 50 mL DI or distilled water 3 Add 2 mL of sulfo-orange indicator 4 Titrate with A mL 1.0N H2SO4 from orange to yellow A ____ mL x 0.79 = ____ oz/g Enprep 114E A ____ mL x 5.91 = ____ g/L Enprep 114E
CE60	Analysis	Oakite 160	1 Pipette 5.00 mL sample from bath and cool 2 Add about 50 mL DI or distilled water 3 Add about 2 drops phenolphthalein 4 Titrate with A mL 1.0N HCl to clear 5 Add 4 drops congo red indicator and swirl 6 Titrate with B mL 1.0N HCl to violet A ____ mL x 1.2 = ____ oz/g Oakite 160 A ____ mL x 9 = ____ g/L Oakite 160 Do not add Oakite 160 until bath is cooled to < 110°F (A-B) / (A+B) = Free Alkali / Total Alkali
CF10	Analysis	Alodine 1000	1 Pipette a 5.0 mL sample from bath 2 Add about 95 mL DI water 3 Add 10 mL of 10% KI 4 Add 20 mL of 6M HCl 5 Titrate with A mL .2N Na2S2O3 to red fade. A ____ mL x 0.0286 = ____ %v/v Alodine 1000L A ____ mL x 0.026 = ____ oz/g Alodine 1000L A ____ mL x 0.195 = ____ g/L Alodine 1000L
CF12	Analysis	Alodine 1200S	1 Pipette a 5.0 mL sample from bath 2 Add about 95 mL DI water 3 Add about 1 gram of KI and dissolve in solution. 4 Place a rubber stopper on the flask. 5 Add at total of 10 mL of 10.2M HCl by dropping 5 mL amounts into the lip of the flask and raising the stopper so the HCl will flow down the neck. 6 Rinse the lip with DI water and replace stopper 7 Titrate with A mL sodium thiosulfate to red fade. DO NOT REZERO THE BURET. 8 Add several mL of 1% starch indicator 9 Continue titration (increasing A mL) with sodium thiosulfate until orange disappears for 1 minute. A ____ mL x 1.2 = ____ oz/g Alodine 1200S A ____ mL x 9.0 = ____ g/L Alodine 1200S
CF15	Analysis	Alodine 1500	1 Pipette a 5.0 mL sample from bath 2 Add about 95 mL DI water 3 Add about 1 gram of KI and dissolve in solution. 4 Place a rubber stopper on the flask. 5 Add at total of 10 mL of 10.2M HCl by dropping 5 mL amounts into the lip of the flask and raising the stopper so the HCl will flow down the neck. 6 Rinse the lip with DI water and replace stopper 7 Titrate with A mL sodium thiosulfate to red fade. DO NOT REZERO THE BURET. 8 Add several mL of 1% starch indicator 9 Continue titration (increasing A mL) with sodium thiosulfate until orange disappears for 1 minute. A ____ mL x 1.43 = ____ %v Alodine 1500
CF60	Analysis	Alodine 600	1 Pipette a 5.0 mL sample from bath 2 Add about 95 mL DI water 3 Add about 1 gram of KI and dissolve in solution. 4 Place a rubber stopper on the flask. 5 Add at total of 10 mL of 10.2M HCl by dropping 5 mL amounts into the lip of the flask and raising the stopper so the HCl will flow down the neck. 6 Rinse the lip with DI water and replace stopper 7 Titrate with A mL sodium thiosulfate to red fade. DO NOT REZERO THE BURET. 8 Add several mL of 1% starch indicator 9 Continue titration (increasing A mL) with sodium thiosulfate until orange disappears for 1 minute. A ____ mL x 2.38 = ____ oz/g Alodine 600 A ____ mL x 17.8 = ____ g/L Alodine 600
CL01	Analysis	Chloride	1 Pipette a 25.0 mL sample from bath DO NOT DILUTE 2 Add 20 mL 50% v/v HNO3 (71% w/w 43° Be). 3 Add 3-4 drops 0.1N AgNO3. 4 Titrate with 0.01N mercuric nitrate to non-turbid A ____ mL x 14.22 = ____ ppm Cl+
CN01	Analysis	Free KCN	1 Take 5.0 mL sample from bath 2 Add 90 mL DI water 3 Add 5 mL 10% KI (potassium iodide) solution While swirling flask slowly ... 4 Titrate A mL 0.1N AgNO3 to permanent turbid A ____ mL x 0.347 = ____ oz/gal Free KCN
CN02	Analysis	NaCN Enthone Enprep 214	1 Take 2.0 mL sample from bath 2 Add about 100 mL of DI water 3 Add 10.0 mL 10% KI (potassium iodide) 4 Titrate A mL of 0.1N AgNO3 to persistent, faint turbidity A ____ mL x 1.32 = ____ oz/g NaCN A ____ mL x 9.88 = ____ g/L NaCN
CN03	Analysis	Free CN	1 Take 2.0 mL sample from bath 2 Add 50 mL DI water 3 Add 2.0 mL 10% KI (potassium iodide) 4 Titrate with A mL of 0.1N AgNO3 to TURBID A ____ mL x 0.653 = ____ oz/g NaCN A ____ mL x 4.89 = ____ g/L NaCN
CN04	Analysis	Free KCN	1 Take 10.0 mL sample from bath 2 Add 80 mL DI water 3 Add 20 mL 10% KI (potassium iodide) solution 4 While swirling flask slowly ... Titrate A mL 0.1N AgNO3 to persistent, faint turbidity A ____ mL x 0.1742 = ____ oz/gal Free KCN A ____ mL x 1.3058 = ____ oz/gal Free KCN
CS01	Analysis	Conducting Salts	1 Measure density of bath in °Be using hydrometer 2 Enter density (°) into A ____ . A ____ ° x 1.67 = ____ oz/gal Conducting Salts
CS02	Analysis	Technic CSaltG for E-94	1 Measure density of bath in °Be using hydrometer 2 Enter density (°) into A ____ . Add 1.6 oz/gal (.1lb/gal) of CSaltG to raise density by 1°Be
CS03	Analysis	Technic 414CS for ACR414	1 Measure density of bath in °Be using hydrometer 2 Enter density (°) into A ____ . Add 1.6 oz/gal (.1lb/gal) of 414CS to raise density by 1°Be
CU01	Analysis	CuSO4 in Acid Copper	1 Pipette exactly 5.00 mL sample from bath 2 Add 20 mL DI or distilled water and mix 3 Add 20 mL of 15% potassium iodide and mix 4 Titrate with 0.1N sodium thiosulfate until brown begins to fade 5 Add 5 mL of starch indicator (5g starch in 5mL DI water) 6 Continue titration until blue disappears for 1 minute. A ____ mL x 0.67 = ____ oz/g CuSO4-5H2O A ____ mL x 5.0 = ____ g/L CuSO4-5H2O
CU02	Analysis	CuSO4 in Acid Copper	1 Pipette a 2 mI sample into a 250 mL volumetric flask. 2 Add 50 mL of DI water and mix. 3 Add 1 gram of ammonium bifluoride and mix to dissolve. 4 Add 10 mL of 15% potassium iodide and mix. 5 Titrate with 0.1N sodium thiosulfate until BRN begins to fade. 6 Add 5 mL of starch indicator (0.5g starch in 1% zinc chloride solution) 7 Continue titration until blue disappears for one minute. A ____ mL x 1.67 = ____ oz/g CuSO4-5H2O A ____ mL x 12.52 = ____ g/L CuSO4-5H2O
CU03	Analysis	CuSO4 in LeaRonal Copper Gleam	1 Pipette a 5.00 mI sample into a 250 mL volumetric flask. 2 Add 100 mL of DI water and mix. 3 Add 0.5 gram of ammonium bifluoride and mix to dissolve. 4 Add 20 mL of 10% potassium iodide and mix. 5 Titrate with 0.1N sodium thiosulfate until BRN begins to fade. 6 Add 3 mL of starch indicator (0.5 starch in 1% zinc chloride solution) 7 Continue titration until BLU disappears for 30 secs. A ____ mL x 0.67 = ____ oz/g CuSO4-5H2O A ____ mL x 5.0 = ____ g/L CuSO4-5H2O
CU04	Analysis	Convert ppm from AA to oz/g Ag	Enter the copper concentration in oz/gal and the titration calculator will show the correct addition of CuCN or K2Cu(CN)3.
CU05	Analysis	Copper as Impurity in Enthone Entek ME-1020	1 Pipette 5.00 mL sample from bath into 250 mL flask 2 Add 50 mL of NaH2PO2-H2O solution (400g/L) 3 Add 50 mL of pH 5.5 buffer solution 3 Add pinch of Xylenol Orange indicator 4 Titrate A mL of 0.0575M EDTA from purple to gray-green A ____ mL x 0.098 = ____ oz/g Cu as impurity A ____ mL x 0.73 = ____ g/L Cu as impurity
DX01	Analysis	Sanchem 1000	Sanchem 1000: 1 Pipette 1.00 mL sample from bath 2 Add 100 mL DI or distilled water 3 Add 0.5 mL H2SO4 (95% by weight) 4 Add 4.00 grams potassium iodide 5 Let solution stand for 20 minutes 6 Titrate with A mL of 0.1N Na2S2O3 to clear A ____ mL x 0.33 = ____ oz/gal Sanchem 1000
DX02	Analysis	Oakite Deox LNC	1 Pipette a 10.0 mI sample into a volumetric flask. 2 Add 90 mL of DI water and mix. 3 Add 10 mL of 10% potassium fluoride and mix. 4 Add 5 drops of phenolphthalein indicator. 5 Titrate with 1.0N NaOH from clear to pink. A ____ mL x 2.4 = ____ %v/v Deox LNC
EC90	Analysis	Oakite 90	Do not add Oakite 90 until bath is cooled to < 110°F 1 Pipette 5.00 mL sample from bath and cool 2 Add about 50 mL DI or distilled water 3 Add 2 drops phenolphthalein 4 Titrate with A mL 1.0N HCl to clear 5 Add 4 drops congo red indicator and swirl 6 Titrate with B mL 1.0N HCl to violet A ____ mL x 1.7 = ____ oz/g Oakite 90 A ____ mL x 12.7 = ____ oz/g Oakite 90 (A-B) / (A+B) = Free Alkali / Total Alkali
EN01	Analysis	Nickel - ENi MetalChem MacDermid Enthone Fidelity	1 Pipette 1.00 mL sample from bath and cool 2 Add about 50 mL DI or distilled water 3 Add 10 mL concentrated ammonium hydroxide 4 Add pinch of murexide indicator to pale straw color 5 Titrate with A mL of 0.1M EDTA to purple A ____ mL x 0.78 = ____ oz/g Ni metal A ____ mL x 5.85 = ____ g/L Ni metal murexide indicator is 1g murexide mixed with 100g NaCl
EN02	Analysis	Nickel - ENi MetalChem MacDermid Enthone Fidelity	1 Pipette 5.00 mL sample from bath and cool 2 Add about 75 mL of DI or distilled water 3 Add 10 mL concentrated ammonium hydroxide 4 Add pinch of murexide indicator to pale straw color 5 Titrate with A mL of 0.0575M EDTA to purple A ____ mL x 0.090 = ____ oz/g Ni metal A ____ mL x 0.675 = ____ g/L Ni metal Murexide indicator: grind 0.2g of murexide and 100g AR NaCl EDTA solution: Add 21.4g EDTANa2*2H2O to 1L DI water
EN03	Analysis	Nickel - ENi MetalChem MacDermid Enthone Fidelity	1 Pipette 10.00 mL sample from bath and cool 2 Add about 90 mL DI or distilled water 3 Add 10 mL concentrated ammonium hydroxide 4 Add pinch of murexide indicator to pale straw color 5 Titrate with A mL of 0.1M EDTA to purple A ____ mL x 0.078 = ____ oz/g Ni metal A ____ mL x 0.587 = ____ g/L Ni metal Murexide indicator: grind 0.2g of murexide and 100g AR NaCl
EN04	Analysis	Nickel - ENi MetalChem MacDermid Enthone Fidelity	1 Pipette 10.00 mL sample from bath and cool 2 Add about 90 mL DI or distilled water 3 Add 10.00 mL concentrated ammonium hydroxide 4 Add pinch of murexide indicator to pale straw color 5 Titrate with A mL of 0.0575M EDTA to purple A ____ mL x 0.045 = ____ oz/g Ni metal A ____ mL x 0.338 = ____ g/L Ni metal Murexide indicator: grind 0.2g of murexide and 100g AR NaCl
EN05	Analysis	Atotech 5100 & 2500	1 Pipette 5.00 mL sample from bath 2 Add 75 mL of DI water 3 Add 10 mL of ammonia solution 4 Add 1 murexide indicator tablet 5 Titrate with A mL of 0.1M EDTA to purple A ____ mL x 0.1565 = ____ % oz/g NiMetal A ____ mL x 1.174 = ____ % g/L NiMetal
FS51	Analysis	BDT510	Free Conducting Salts: 1 Take 2.00 mL sample from bath 2 Add 25 mL 0.1N I2 (iodine) 3 Let solution stand for 1 minute 4 Add starch to clear end point 5 Titrate with B mL 0.1N Na2S2O3 to straw [25 - B ____ mL] - [Au(oz/g) x 5] = ____ g/l FrSalts
HC01	Analysis	HCl 15%	1 Pipette 10.00 mL sample from bath into 200 mL flask 2 Add about 100 mL of DI or distilled water 3 Add methyl orange to make solution faint pink 4 Titrate with A mL of 1.0N NaOH to orange A ____ mL x 0.858 = ____ % v/v of HCl A ____ mL x 0.488 = ____ oz/g of HCl A ____ mL x 3.657 = ____ g/L HCl %v/v analysis assumes 36% w/w HCl (22.5° Be)
HC02	Analysis	HCl 25%	1 Pipette 5.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add methyl orange to make solution faint pink 4 Titrate with A mL of 1.0N NaOH to orange A ____ mL x 1.717 = ____ % v/v of HCl A ____ mL x 0.976 = ____ oz/g of HCl A ____ mL x 7.313 = ____ g/L HCl %v/v analysis assumes 36% w/w HCl (22.5° Be)
HC03	Analysis	HCl 40%	1 Pipette 3.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add methyl orange to make solution faint pink 4 Titrate with A mL of 1.0N NaOH to orange A ____ mL x 2.861 = ____ % v/v of HCl A ____ mL x 1.627 = ____ oz/g of HCl A ____ mL x 12.19 = ____ g/L HCl %v/v analysis assumes 36% w/w HCl (22.5° Be)
HF01	Analysis	HF in Acid	Use plastic pipette tip and 200 mL plastic beaker. 1 Add about 75 mL of DI or distilled water to beaker 2 Pipette exactly 5.00 mL sample from bath into beaker 3 Add 3 drops of phenolphthalien - solution should be clear 4 Titrate with A mL of 1.0N NaOH to persistent pink A ____ mL x 1.206 = ____ % v/v of HF A ____ mL x 6.667 = ____ g/L HF A ____ mL x 0.889 = ____ oz/g of HF %v/v analysis assumes 48% w/w HF (19° Be)
HF02	Analysis	HF 25%	Use plastic pipette tip and 200 mL plastic beaker. 1 Add about 50 mL of DI or distilled water to beaker 2 Pipette exactly 3.00 mL sample from bath into beaker 3 Add 3 drops of phenolphthalien - solution should be clear 4 Titrate with A mL of 1.0N NaOH to persistent pink A ____ mL x 1.170 = ____ % v/v of HF A ____ mL x 0.889 = ____ oz/g of HF A ____ mL x 6.667 = ____ g/L HF %v/v analysis assumes 49% w/w HF (19° Be)
HF03	Analysis	HF 40%	Use plastic pipette tip and 200 mL plastic beaker. 1 Add about 50 mL of DI or distilled water to beaker 2 Pipette exactly 2.00 mL sample from bath into beaker 3 Add 3 drops of phenolphthalien - solution should be clear 4 Titrate with A mL of 1.0N NaOH to persistent pink A ____ mL x 1.754 = ____ % v/v of HF A ____ mL x 1.333 = ____ oz/g of HF A ____ mL x 10.00 = ____ g/L HF %v/v analysis assumes 49% w/w HF (19° Be)
HY01	Analysis	Hypo basic MetalChem MacDermid Enthone Fidelity	Analyze nickel and make adds before analyzing hypo 1 Pipette 5 mL sample from the bath and cool 2 Add 25 mLs of 6N HCl 3 Add 50 mLs of 0.1N iodine 4 Shake, stopper and set in the dark for 45 mins 5 Remove from the dark and quickly ... 6 Add A mL 0.1N Na2S2O3 to clear [50 mL - A ____ mL] x 0.1414 = ____ oz/g hypo [50 mL - A ____ mL] x 1.06 = ____ g/L hypo
HY02	Analysis	Hypo xpand MetalChem MacDermid Enthone Fidelity	Analyze nickel and make adds before analyzing hypo. 1 Take 5 mL sample from bath into a 250 mL flask and cool 2 Add 40 mL of DI water 3 Add 30 mL of 6.0N HCl (50% v/v) 4 Add 50 mL of 0.1N iodine 5 Stopper the flask, fill the well around the stopper with 50% v/v HCl 6 Set in the dark for 30 mins at 70 °F 7 Remove from the dark and quickly ... 8 Add A mL 0.1N Na2S2O3 (sodium thiosulfate) to clear [50 mL - A __ mL] x 0.1414 = __ oz/g sodium hypophosphite [50 mL - A __ mL] x 1.06 = __ g/L sodium hypophosphite Reagents: (iodine & thiosulfate must be standardized) 1 6N (50%) hydrochloric acid 2 0.1N iodine solution (12.69 g/L I2 & 25 g/L KI) 3 0.1N sodium thiosulfate (24.8 g/L Na2S2O3-5H20) 4 1% starch indicator
HY25	Analysis	Atotech 2500	Analyze nickel and make adds before analyzing hypo This analysis should not be done until after 1 metal turn For first try, use 50mL of iodine in Step 3, however If colorless after Step 5, repeat with 100mL of iodine 1 Pipette 5 mL sample from the bath and cool 2 Add 25 mLs of 6M HCl 3 Add A mLs of 0.1N iodine 4 Stopper and set in the dark for 60 mins 5 Remove from the dark and quickly ... 6 Add B mL 0.1N Na2S2O3 to clear [A ____ mL - B ____ mL] x 0.37 = ____ floz/g 2500C [A ____ mL - B ____ mL] x 2.86 = ____ mL/L 2500C
HY51	Analysis	Atotech 5100	Analyze nickel and make adds before analyzing hypo This analysis should not be done until after 1 metal turn For first try, use 50mL of iodine in Step 3, however if colorless after Step 5, repeat with 100mL of iodine 1 Pipette 5 mL sample from the bath and cool 2 Add 25 mLs of 6M HCl 3 Add A mLs of 0.1N iodine 4 Stopper and set in the dark for 60 mins 5 Remove from the dark and quickly ... 6 Add B mL 0.1N Na2S2O3 to clear [A ____ mL - B ____ mL] x 0.306 = ____ floz/g 5100C [A ____ mL - B ____ mL] x 2.37 = ____ mL/L 5100C
KC01	Analysis	K2CO3	1 Take 10 mL sample from bath 2 Add 100 mL DI water and warm solution 3 Add 35 mL 10% Ba(NO3)2 to precipitate 4 Filter the precipitate to a beaker 5 Add 100 mL DI water 6 Add 3 drops methyl orange indicator 7 Add A mL 1.0N HCl from orange to pink A ____ mL x 0.92 = ____ oz/gal K2CO3
ME10	Analysis	Enthone Entek ME-1020	1 Determine copper concentration in bath 2 Pipette 5.00 mL sample from bath into 250 mL flask 3 Add 13.3 mL of DI water for each oz/g of copper 4 Add 0.27 mL of EDTA solution for each oz/g of copper 5 Add 2-3 gms KI, stopper flask and mix to dissolve 6 Let solution stand in dark for at least 5 minutes 7 Remove stopper and rinse stopper and sides of flask into the flask with a little DI water 8 Titrate A mL of 0.1N Na2S2O3 from brown to straw 9 Add 5 mL starch solution 10 Continue until solution is clear for at least 30 secs Endpoint must be clear to blue green with NO turbidity. A ____ mL x 0.098 = ____ oz/g ME-1020 A ____ mL x 0.473 = ____ g/L ME-1020
NA01	Analysis	HNO3 15%	1 Pipette a 10.00 mL sample from bath into 200 mL flask 2 Add about 100 mL DI water or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL 1.0N NaOH from pink to hint of orange A ____ mL x 0.67 = ____ % v/v HNO3 A ____ mL x 0.84 = ____ oz/g HNO3 A ____ mL x 6.30 = ____ g/L HNO3 % v/v analysis assumes 67% w/w HNO3 (42° Be)
NA02	Analysis	HNO3 25%	1 Pipette a 5.00 mL sample from bath into 150 mL flask 2 Add about 50 mL DI water or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL 1.0N NaOH from pink to hint of orange A ____ mL x 1.34 = ____ % v/v HNO3 A ____ mL x 1.68 = ____ oz/g HNO3 A ____ mL x 12.6 = ____ g/L HNO3 % v/v analysis assumes 67% w/w HNO3 (42° Be)
NA03	Analysis	HNO3 40%	1 Pipette a 3.00 mL sample from bath into 150 mL flask 2 Add about 50 mL DI water or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL 1.0N NaOH from pink to hint of orange A ____ mL x 2.23 = ____ % v/v HNO3 A ____ mL x 2.80 = ____ oz/g HNO3 A ____ mL x 21.0 = ____ g/L HNO3 % v/v analysis assumes 67% w/w HNO3 (42° Be)
NA04	Analysis	HNO3 1.5%	1 Pipette a 10.00 mL sample from bath into 250 mL flask 2 Add about 100 mL DI water or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL 0.5N NaOH from pink to hint of orange A ____ mL x 0.313 = ____ % v/v HNO3 A ____ mL x 0.42 = ____ oz/g HNO3 A ____ mL x 3.15 = ____ g/L HNO3 % v/v analysis assumes 67% w/w HNO3 (42° Be)
NA05	Analysis	HNO3 after Actane70 analysis	NOTE B ____ mL is from Actane 70 analysis 1 Pipette a 10.00 mL sample from bath into 250 mL flask 2 Add about 100 mL DI water or distilled water 3 Add ~5 drops methyl red 4 Titrate A mL 1.0N NaOH to yellow [A ____ mL - B ____ mL x .0786] x 9.06 = % v/v HNO3 % v/v analysis assumes 55% w/w HNO3 (36° Be)
NA06	Analysis	HNO3 in Passivate Type II	1 Pipette a 3.00 mL sample from bath into 250 mL flask 2 Add about 100 mL DI water or distilled water 3 Add ~5 drops methyl red 4 Titrate A mL 1.0N NaOH to yellow endpoint A ____ mL x 2.23 = ____ % v/v HNO3 A ____ mL x 2.80 = ____ oz/g HNO3 A ____ mL x 21.0 = ____ g/L HNO3 % v/v analysis assumes 67% w/w HNO3 (42° Be)
Ni01	Analysis	Ni Metal	1 Pipette 2.00 mL sample from bath 2 Add about 100 mL DI or distilled water 3 Add 20 mL ammonium hydroxide 4 Add 1 microspatula (or a 0.4 mg tablet) murexide 5 Titrate with 0.1M EDTA from pale yellow-green to purple A ____ mL x 0.391 = ____ oz/g Ni metal A ____ mL x 2.934 = ____ g/L Ni metal
Ni02	Analysis	Ni Chloride	1 Pipette 5.00 mL sample from bath 2 Add 95 mL DI or distilled water 2 Add 1 mL of dichlorofluorescein (2% alcoholic solution) 3 Titrate with 0.1N AgNO3 to a pinkish-tan B ____ mL x 0.319 = ____ oz/g NiCl2-6H2O B ____ mL x 2.39 = ____ g/L NiCl2-6H2O
Ni03	Analysis	Ni Chloride	1 Pipette 2.00 mL sample from bath 2 Add about 100 mL DI or distilled water 3 Add 3 mL K2CrO4 solution (10 g K2CrO4 in 100 mL DI water) 4 Titrate with 0.1N AgNO3 from yellow-green to reddish-brown B ____ mL x 0.793 = ____ oz/g NiCl2-6H2O B ____ mL x 5.945 = ____ g/L NiCl2-6H2O
Ni04	Analysis	Ni Sulfate	Note: B ____ mL of AgNO3 used in NiCl2-6H2O titration 1 Pipette 2.00 mL sample from bath 2 Add about 100 mL DI or distilled water 3 Add 20 mL ammonium hydroxide 4 Add 1 microspatula (or a 0.4 mg tablet) murexide 5 Titrate with 0.1M EDTA from pale yellow-green to purple [A __ mL - B __ mL x 0.497] x 1.756 = __ oz/g NiSO4)-6H2O [A __ mL - B __ mL x 0.497] x 13.16 = __ g/L NiSO4)-6H2O
Ni05	Analysis	Ni Sulfamate	Note: B ____ mL of AgNO3 used in NiCl2-6H2O titration 1 Pipette 1.00 mL sample from bath 2 Add about 80 mL DI or distilled water 3 Add 10 mL ammonium hydroxide 4 Add 1 microspatula (or a 0.4 mg tablet) murexide 5 Titrate with 0.115M EDTA from pale yellow-green to purple [A __ mL - B __ mL x 0.175] x 1.913 = __ oz/g NiSulf [A __ mL - B __ mL x 0.175] x 14.34 = __ g/L NiSulf
OH01	Analysis	NaOH	1 Take 10.0 mL sample from bath 2 Add 80 mL DI water 3 Add 10.0 mL of 10% NaCN 4 Add 1 mL Indigo Carmine 5 Titrate with A mL of 1.0N H2SO4 to pH 11.4 A ____ mL x 0.535 = ____ oz/g NaOH
OH02	Analysis	KOH	1 Take 10.0 mL sample from bath 2 Add 75 mL DI water 3 Add 5 drops phenolphthalein indicator 4 Titrate with A mL of 1.0N H2SO4 from pink to clear A ____ mL x 0.5 = ____ oz/g KOH
OH03	Analysis	KOH	1 Take 5.0 mL sample from bath 2 Add 25 mL DI water 3 Add 5 mL sulfo-orange indicator 4 Titrate with A mL of 1.0N HCl from orange to yellow A ____ mL x 1.496 = ____ oz/g KOH
OH04	Analysis	NaOH	1 Take 5.0 mL sample from bath 2 Add 25 mL DI water 3 Add 5 mL sulfo-orange indicator 4 Titrate with A mL of 1.0N HCl from orange to yellow A ____ mL x 1.067 = ____ oz/g NaOH
PA01	Analysis	H3PO4 15%	1 Pipette 10.00 mL sample from bath into 200 mL flask 2 Add about 100 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL of 1.0N NaOH from pink to orange A ____ mL x 0.678 = ____ % v/v of H2SO4 A ____ mL x 1.307 = ____ oz/g of H2SO4 A ____ mL x 9.797 = ____ g/L H2SO4 %v/v analysis assumes 85% w/w H3PO4 (60° Be)
PA02	Analysis	H3PO4 25%	1 Pipette 5.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL of 1.0N NaOH from pink to orange A ____ mL x 1.356 = ____ % v/v of H2SO4 A ____ mL x 2.614 = ____ oz/g of H2SO4 A ____ mL x 19.59 = ____ g/L H2SO4 %v/v analysis assumes 85% w/w H3PO4 (60° Be)
PA03	Analysis	H3PO4 40%	1 Pipette 3.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL of 1.0N NaOH from pink to orange A ____ mL x 2.260 = ____ % v/v of H2SO4 A ____ mL x 4.356 = ____ oz/g of H2SO4 A ____ mL x 32.66 = ____ g/L H2SO4 %v/v analysis assumes 85% w/w H3PO4 (60° Be)
RO01	Analysis	Atotech RODIP OD Chromate	1 Fill 100mL beaker with 50mL DI water 2 Pipette 2.00 mL sample from bath into beaker 3 Add 15 mL of 11.65M HCl 4 Add 15 mL of 10% KI solution 5 Add 1 mL of 1% starch indicator 6 Titrate with A mL of 0.1N Na2S2O3 to clear A ____ mL x 0.57 = ____ % v/v RODIP Part A
SA01	Analysis	H2SO4 15%	1 Pipette 5.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate with A mL of 1.0N NaOH from pink to orange A ____ mL x 0.574 = ____ % v/v of H2SO4 A ____ mL x 1.307 = ____ oz/g of H2SO4 A ____ mL x 9.797 = ____ g/L H2SO4 %v/v analysis assumes 93.2% w/w H2SO4 (66° Be)
SA02	Analysis	H2SO4 25%	1 Pipette 2.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL of 1.0N NaOH from pink to orange A ____ mL x 1.434 = ____ % v/v of H2SO4 A ____ mL x 3.267 = ____ oz/g of H2SO4 A ____ mL x 24.49 = ____ g/L H2SO4 %v/v analysis assumes 93% w/w H2SO4 (66° Be)
SA03	Analysis	H2SO4 40%	1 Pipette 2.00 mL sample from bath into 150 mL flask 2 Add about 50 mL of DI or distilled water 3 Add just enough methyl orange to make solution faint pink 4 Titrate A mL of 2.0N NaOH from pink to orange A ____ mL x 2.869 = ____ % v/v of H2SO4 A ____ mL x 6.535 = ____ oz/g of H2SO4 A ____ mL x 48.98 = ____ g/L H2SO4 %v/v analysis assumes 93% w/w H2SO4 (66° Be)
SA10	Analysis	H2SO4	Analyze ME-1020 and use B mL from that titration. 1 Pipette 50 mL sample from bath into 150 mL beaker 2 Add 50 mL DI or distilled water 3 Titrate with A mL 1.0N NaOH to pH of 3.5 [A ___ mL - (B___mL x .296)] x 0.056 = %v/v H2SO4
SC08	Analysis	Americlene 8	1 Pipette 10 mL sample from bath 2 Add 90 mL DI water 3 Add 2 drops methyl orange indicator 4 Add A mL 0.1N HCl to PNK A ____ mL x 1.74 = ____ oz/g Americlene 8 A ____ mL x 13.0 = ____ g/L Americlene 8
SC49	Analysis	MacDermid Isoprep 49L	1 Pipette 50.00 mL sample from bath 2 Add ~50 mL DI water 3 Add ~5 drops bromocresol green mixed with methyl red 4 Add A mL 0.1N H2SO4 from blue-green to red-orange A ____ mL x .95 = ____ % v/v Isoprep 49L
SC52	Analysis	Fidelity 3152	1 Pipette 50 mL sample from bath 2 Add 50 mL DI water 3 Add 2 drops methyl orange indicator 4 Add A mL 0.1N H2SO4 to PNK A ____ mL x 1.6 = ____ % v/v Fidelity 3152
SC72	Analysis	MacDermid Isoprep 172	1 Pipette 10.00 mL sample from bath 2 Add ~50 mL DI water 3 Add ~3 drops phenolphthalein 4 Add A mL 1.0N H2SO4 from pink to colorless A ____ mL x 1.64 = ____ % v/v Isoprep 172
SC76	Analysis	Enthone Enprep 576E	1 Take 10 mL sample from bath 2 Add 70 mL DI water 3 Add 5 drops phenolphthalein indicator 4 Add A mL 1.0N H2SO4 from RED to YEL A ____ mL x 0.981 = ____ oz/g Enprep 576E A ____ mL x 7.35 = ____ g/L Enprep 576E Reagents ... 1 1.0N Sulfuric acid (H2SO4) solution - cautiously, and with stirring add 28 mL of H2SO4, concentrated, AR grade into 500 mL of deionized water in a 1 liter volumetric flask. Cool and dilute to one liter. Standardize against NaOH solution of known concentration. 2 2% Phenolphthalein Solution - dissolve 2 grams phenolphthalein in 100 mL denatured alcohol.
SC90	Analysis	MacDermid Isoprep 190	1 Pipette 10.00 mL sample from bath 2 Add ~90 mL DI water 3 Add ~5 drops methyl orange - xylene cyanole 4 Add A mL 1.0N NaOH from purple to green color A ____ mL x 1.7 = ____ oz/g Isoprep 190 A ____ mL x 12.7 = ____ g/L Isoprep 190
SC92	Analysis	MacDermid Isoprep 192	1 Pipette 5.00 mL sample from bath 2 Add 1-2 grams sodium gluconate 3 Add ~45 mL DI water 4 Add ~5 drops phenolphthalein indicator 5 Add A mL 1.0N NaOH to red endpoint A ____ mL x 3.38 = ____ oz/g Isoprep 192 A ____ mL x 25.35 = ____ g/L Isoprep 192
SD01	Analysis	Sodium Dichromate in Passivate Type II	1 Pipette 10.00 mL sample from bath 2 Add 175 mL DI water 3 Add 30 mL 50% 22°Be HCl mixed with 30 mL DI water 4 Add 2 grams KI and wait ~2 minutes 5 Titrate with A mL of 0.5M Na2S2O3 6 Add ~5 drops starch indicator - will turn blue-black 7 Continue titration with A mL of 0.5M Na2S2O3 until colorless A ____ mL x 0.33 = ____ oz/g Na2Cr2O7 A ____ mL x 2.483 = ____ g/L Na2Cr2O7
SL01	Analysis	Clariant Anodal MS-1 Nickel Acetate Seal	1 Pipette 25.00 mL sample from bath 2 Add 50 mL DI water 3 Add 15 mL concentrated ammonium hydroxide and mix well 4 Add microspatula of murexide indicator 5 Titrate with A mL of 0.1M EDTA to permanent purple color A ____ mL x 0.71 = ____ %v/v Anodal MS-1
TA01	Analysis	Total Acid H2SO4 H3PO4	1 Pipette 10.00 mL sample from bath 2 Add about 75 mL of DI or distilled water 3 Add ~3 drops phenolphthalein - solution should be clear 4 Titrate with A mL of 1.0N NaOH to faint pink A ____ mL x .32 = ____ % v/v Total Acid %v/v analysis assumes 93% w/w H2SO4 (66° Be) %v/v analysis assumes 71% w/w HNO3 (43° Be) %v/v analysis assumes 85% w/w H3PO4 (60° Be) ChemTrak TiType TiA2A computes adds to hold proper ratio
TA03	Analysis	Total Acid HNO3 H2SO4	1 Pipette 2.00 mL sample from bath 2 Add about 75 mL of DI or distilled water 3 Add ~3 drops phenolphthalein - solution should be clear 4 Titrate with A mL of 1.0N NaOH to faint pink A ____ mL x 2.29 = ____ % v/v Total Acid %v/v analysis assumes 93% w/w H2SO4 (66° Be) %v/v analysis assumes 71% w/w HNO3 (43° Be) %v/v analysis assumes 85% w/w H3PO4 (60° Be) ChemTrak TiType TiA2A computes adds to hold proper ratio
TI02	Analysis	TinMetal	1 Take 5.0 mL sample from bath 2 Add 80 mL DI water 3 Add 5 mL 11.65N HCl 4 Add 3-5 mL starch indicator solution 5 Immediately ... Titrate with B mL 0.1N Iodine from clear to blue B ____ mL x 0.16 = ____ oz/g TinMetal B ____ mL x 1.2 = ____ g/L TinMetal B ____ mL x 0.29 = ____ oz/g SnSO4 B ____ mL x 2.17 = ____ g/L SnSO4
TI03	Analysis	H2SO4	1 Pipette a 5.0 mL sample from bath 2 Add 80 mL DI water 3 Add 3 drops Thymolphthalein indicator 4 Titrate with A mL 1.0N NaOH to blue [A __ mL - B __ mL] x .071 = __ oz/g H2SO4 [A __ mL - B __ mL] x 0.535 = __ g/L H2SO4 Note: B __ mL is from Tin Metal analysis
TI05	Analysis	TinMetal	1 Pipette a 2.0 mL sample from bath 2 Add about 80 mL DI water 3 Add 5 mL 11.65N HCl 4 Add 3-5 mL 1% starch indicator solution Immediately ... 5 Titrate with A mL 0.1N Iodine from clear to blue A ____ mL x 0.398 = ____ oz/g TinMetal A ____ mL x 2.98 = ____ g/L TinMetal A ____ mL x 0.72 = ____ oz/g SnSO4 A ____ mL x 5.39 = ____ g/L SnSO4
TI06	Analysis	H2SO4	1 Pipette 5.00 mL sample from bath into 150 mL flask 2 Add 50 mL of 4% solution ammonium oxalate 3 Add 5 drops of methyl red indicator 4 Titrate A mL of 1.0N NaOH from red to yellow A ____ mL x 0.53 = ____ % v/v of H2SO4 A ____ mL x 0.716 = ____ oz/g of H2SO4 A ____ mL x 5.36 = ____ g/L H2SO4 %v/v analysis assumes 93% w/w H2SO4 (66° Be)
XN86	Analysis	Enthone Enstrip EN-86	Caution - tank must be at ambient before adding NaOH !! 1 Adjust pH of operating solution to 12.0-12.4 Use 50% NaOH solution or powder to increase pH. Standadize pH electrode with buffers at pH 7.0 and 10.0. 2 Take 100 mL sample from pH-adjusted bath and filter solution to remove particulate matter. 3 Pipette a 5 mL sample from the filtered solution. 4 Add 100 mL of DI water and magnetic stir bar. 5 Place beaker on magnetic stirrer at medium speed. 6 Titrate with B mL of 0.5N H2SO4 to pH 11.4 7 Titrate with A mL of 0.5N H2SO4 to pH 4.0 [A ___ mL – B ___ mL] x 0.885 = ___% v/v EN86A
ZN01	Analysis	Enthone Alumon EN	1 Pipette 5.00 mL sample from bath 2 Add 40 mL 50% triethanolamine 3 Add 10 mL buffer solution 4 Add 30 mL of DI water 5 Add 0.25 grams Eriochrome Black-T 6 Titrate with A mL of 0.575M EDTA to blue A ____ mL x 1.328 = ____ % v/v Alumon EN
ZN16	Analysis	Fidelity 3116	1 Pipette 5.00 mL sample from bath 2 Add 40 mL 50% triethanolamine 3 Add 25 mL buffer solution 4 Add 30 mL of DI water 5 Add 0.25 grams Eriochrome Black-T 6 Titrate with A mL of 0.1M EDTA to blue A ____ mL x 2.33 = ____ % v/v Fidelity 3116
ZN20	Analysis	Atotech AlumSeal 2000	1 Use hydrometer to measure specific gravity 2 Enter specific gravity A ___ into titration calculator The titration calculator will show an addition of 1.2 gallon of A2000 per gallon of solution per SpGr unit to raise the SpGr to the UCL.
ZN25	Analysis	Enthone Alumon 5825	1 Pipette 10.00 mL sample from bath 2 Add 50 mL of DI or distilled water 3 Add 10 mL buffer solution 4 Add 10 drops of thymophthalein indicator 5 Titrate with A mL of 1.0N H2SO4 to persistent yellow A ____ mL x 0.534 = ____ oz/g of NaOH A ____ mL x 4.0 = ____ g/L NaOH
ZN40	Analysis	MetalChem MetaMate Zincate 40	1 Pipette 5.00 mL sample from bath 2 Add 40 mL 50% triethanolamine 3 Add 10 mL buffer solution 4 Dilute to 100 mL with DI water 5 Add 0.25 grams Eriochrome Black-T 6 Titrate with A mL of 0.0575M EDTA to blue A ____ mL x 1.70 = ____ fl oz/gal Zincate 40 A ____ mL x 13.28 = ____ mL/L Zincate 40
AM01	Makeup	Enthone Entek ME-1020	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 2/3 full of cool DI water. 2 Add H2SO4 (93% w/w 66° Be) as 1.5% of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Add 14 oz per gallon of final tank volume ME-1020. (To find amount, enter 0 mL into titration calculator.) 4 Stir solution to thoroughly mix ingredients. 5 Fill with DI water to working level.
AM10	Makeup	Enthone Actane E10	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 2/3 full of cool DI water. 2 Add Actane E10 slowly and with stirring. (To find volume, enter 0 mL into titration calculator.) 3 Stir solution to thoroughly mix ingredients. 4 Fill with DI water to working level and heat tank.
AM70	Makeup	Enthone Actane 70	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 1/3 full of cool DI water. 2 Add H2SO4 (93% w/w 66° Be) as % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Add HNO3 (68% w/w 42° Be) as % of tank volume. (To find volume, enter 0 mL into titration calculator.) 4 Add Actane 70 at 14 oz per gallon of final tank volume. (To find amount, enter 0 mL into titration calculator.) 5 Stir solution to thoroughly mix ingredients. 6 Fill with DI water to working level.
BD01	Makeup	Sulfuric/Nitric Dip	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/3 full of DI water. 2 Add H2SO4 (93% w/w 66° Be) as a % of tank volume. 3 Add HNO3 (71% w/w 43° Be) as a % of tank volume. (To find volumes, enter 0 mL into titration calculator.) 4 Fill with DI water to working level. 5 Titrate to check concentrations before using tank.
CA02	Makeup	Acid Copper	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank two-thirds full of DI water. Check for chloride content in water and adjust later additions. 2 Slowly add .132 L of 93% H2SO4 per gallon of tank volume. 3 Dissolve 1.75 pounds (7.94 kg) of copper sulfate per gallon of tank volume while continuously stirring the solution. 4 Carbon treat the solution and let stand overnight. 5 Filter solution into the plating tank and add DI water to operating volume. 6 Adjust chloride ion concentrate to 75 ppm (mg/L) by adding reagent grade HCl. 0.01 mL of HCl added per gallon of tank volume will increase the chloride ion concentration by 1.1 ppm. 7 Add .0013 oz/g (0.01 g/L) thiourea and .0013 oz/g (0.01 g/L) dextrin as brighteners.
CA03	Makeup	LeaRonal Copper Gleam	1 Fill a storage tank with 2/3 final volume of DI water. 2 Heat water to 130-140 °F. 3 Add CuSO4*5H20 crystals and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 4 Add 4.8 oz activated powdered carbon per gallon of the tank's final working volume. 5 Agitate solution for 2 hours 6 Allow carbon to settle 7 Filter solution into the plating tank and let cool 8 Add 10%v/v H2SO4 9 Add .62 mL of HCl per gallon of solution 10 Add 0.5%v/v Copper Gleam PCM (Enter 0 mL in titration calculator to find amount.) 11 Dummy plate for 8 hours at 10 ASF. 12 Titrate and adjust Copper Gleam PCM before using tank.
CD01	Makeup	Cad Plate	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 16-20 oz/g sodium cyanide (NaCN). 3 Add 2.5-4.3 oz/g cadmium oxide (CdO) 4 Add up to 4.9 mL/g (1.3 mL/liter) ROHCO 20-XL. (Dilute 20-XL with 2-3 parts water, then mix evenly in bath.) 5 Fill tank to operating level
CE61	Makeup	Oakite 160	Do not add Oakite 160 until bath is cooled to < 110°F 1 Fill tank to just below operating level with cold water 2 Add Oakite 160 by sprinkling on surface while stirring. (Type 0 mL into titration calculator to find amount to add) 3 Fill tank to operating level and heat
CM01	Makeup	Cyanide Copper	Wear protective clothing, rubber gloves, footwear, and goggles. Chemicals contain cyanide - keep away from acids !!! 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add 5.6 oz of CuCN for each gallon of final volume. (If using K2Cu(CN)3 add 12.24 oz for each gallon.) (To find amount, enter 0 mL into titration calculator.) 3 Add 7.52 oz of KCN for each gallon of final volume. (If using K2Cu(CN)3 add 0.88 oz of KCN per gallon.) (To find amount, enter 0 mL into titration calculator.) 4 Add 4.0 oz of KCO3 for each gallon of final volume. (To find amount, enter 0 mL into titration calculator.) 5 Add DI water to working level and mix by stirring. 6 Bath must be analyzed before use.
CM10	Makeup	Alodine 1000	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add 10% of working volume Alodine 1000L (To find amount, enter 0 mL into titration calculator.) 3 Mix Alodine 1000L thoroughly by stirring. 4 Fill tank with DI water to working level.
CM12	Makeup	Alodine 1200S	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add Alodine 1200S and mix completely. (To find amount, enter 0 mL into titration calculator.) 3 Fill with DI water to working level.
CM14	Makeup	Enthone Enprep 14	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add SLOWLY E-14 while stirring with iron paddle. To find amount, enter 0 mL into titration calculator. Note that temperature will rise, so add slowly. 3 Fill with DI water to working level. 4 Titrate to check concentrations before using tank.
CM15	Makeup	Alodine 1500	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add Alodine 1500 and mix completely. (To find amount, enter 0 mL into titration calculator.) 3 Fill with DI water to working level.
CM16	Makeup	Enthone Enprep 114E	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add SLOWLY Enprep 114E while stirring. (To find amount, enter 0 mL into titration calculator.) Note that temperature will rise, so add slowly. 3 Fill with DI water to working level. 4 Titrate to check concentrations before using tank.
CM17	Makeup	Enthone Enprep 214	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add SLOWLY Enprep 214 with vigorous stirring. (To find amount, enter 0 mL into titration calculator.) Note that temperature will rise, so add slowly. 3 Fill with DI water to working level. 4 Titrate to check concentrations before using tank.
CM60	Makeup	Alodine 600	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add pre-dissolved Alodine 600 and mix completely. (To find amount, enter 0 mL into titration calculator.) 3 Fill with DI water to working level.
DM01	Makeup	Oakite Deox LNC	Wear protective clothing, rubber gloves, footwear, and faceshield. Contains highly acidic materials: direct contact causes burns. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add 18 % by volume Oakite Deox LNC. (Enter 0 mL in Ti calculator to find correct amount). 3 Mix solution thoroughly. 4 Fill with DI water to working level.
EC91	Makeup	Oakite 90	Do not add Oakite 90 until bath is cooled to < 110°F 1 Fill tank to just below operating level with cold water 2 Add Oakite 90 by sprinkling on surface while stirring. (Type 0 mL into titration calculator to find amount to add) 3 Fill tank to operating level and heat
EM12	Makeup	Fidelity 9012	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 6 % by volume 9012A. 3 Add 15 % by volume 9012B. 4 Fill with DI water to working level. 5 Adjust nickel and hypo concentration as required. 6 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v) 7 Filter and heat to operating temperature.
EM23	Makeup	Fidelity 5023	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 6 % by volume 5023A. 3 Add 15 % by volume 5023B. 4 Fill with DI water to working level. 5 Adjust nickel and hypo concentration as required. 6 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v) 7 Filter and heat to operating temperature.
EM25	Makeup	Atotech 2500	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 8 % by volume Nichem 2500A while mixing. 3 Add 15 % by volume Nichem 2500B while mixing. 4 Fill with DI water to working level. 5 Adjust pH to optimum specification increase pH with ammonium hydroxide (15% v/v) decrease pH with additions of dilute H2SO4 (20% v/v) 6 Heat to operating temperature.
EM29	Makeup	Enthone Enplate NI-429	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 20 % by volume NI-429M. 4 Fill with DI water to working level. 5 Heat to operating temperature. 6 IMPORTANT: adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v)
EM30	Makeup	Enthone Enplate ADP-300	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 6 % by volume ADP-300A. 3 Add 18 % by volume ADP-300B. 4 Fill with DI water to working level. 5 Heat to operating temperature. 6 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v)
EM42	Makeup	MacDermid Vand-Aloy 4200	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 5 % by volume 4200A. 3 Add 15 % by volume 4200B. 4 Fill with DI water to working level. 5 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v) 6 Heat to operating temperature.
EM51	Makeup	Atotech 5100	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 7 % by volume Nichem 5100A while mixing. 3 Add 15 % by volume Nichem 5100B while mixing. 4 Fill with DI water to working level. 5 Adjust pH to optimum specification increase pH with ammonium hydroxide (15% v/v) decrease pH with additions of dilute H2SO4 (20% v/v) 6 Heat to operating temperature.
EM62	Makeup	Enthone Enplate EN-623	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 6 % by volume EN-623A. 3 Add 15 % by volume EN-623B. 4 Fill with DI water to working level. 5 Heat to operating temperature. 6 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v)
EM76	Makeup	Enthone Enplate EN-7601	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 5.5 % by volume EN-7601A. 3 Add 9 % by volume EN-7601B. 4 Fill with DI water to working level. 5 Heat to operating temperature. 6 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v)
EM97	Makeup	MacDermid Niklad 797	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 5 % by volume 797A. 3 Add 15 % by volume 797B. 4 Fill with DI water to working level. 5 Adjust pH to optimum specification increase pH with ammonium hydroxide (50% v/v) decrease pH with additions of dilute H2SO4 (10% v/v) 6 Heat to operating temperature.
GS01	Makeup	Technic ACR 40	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank with DI water to 2/3 final volume. 2 Heat water to 150 °F. 3 Remove filter from housing and start pump. 4 Add 24 oz/g 40CS conducting salt and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 5 Add 1 mL of 434B brightener and stir to dissolve. 6 Check and adjust pH and specific gravity. 7 Place activated carbon filter in pump and run for 1 hour. 8 Check and adjust pH and specific gravity. Use KOH or ACR40pH+ to raise pH. Use ACR 40pH- to lower pH 9 Dissolve 0.2 tr.oz of ACR414 gold salts per gallon of final volume in 150 °F DI water and add to tank. 10 Remove carbon filter and replace with standard filter. 11 Add DI water to working level. 12 Allow tank to reach operating temperature.
HC11	Makeup	Hydrochloric	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add HCl (36% w/w 22.5° Be) as a % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Titrate to check HCl concentration before using tank.
HF11	Makeup	Hydrofluoric Acid	Wear protective clothing, rubber gloves, footwear, and goggles. Insure proper ventilation. Use polyethylene containers. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add HF (48% w/w 19° Be) as a % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Titrate to check HF concentration before using tank.
HG01	Makeup	Technic E-94	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank with DI water to 2/3 final volume. 2 Heat water to 95 °F. 3 Add 14 oz per gallon (of final tank volume) Conducting Salt G and stir to dissolve. 4 Add 5 oz per gallon (of final tank volume) Acid B and stir to dissolve. Lower pH to 4.5 by adding Acid B if required. Do not make additions to raise pH. 5 Add 380 mL per gallon (of final tank volume) Brightener H and stir to dissolve. 6 Add 1.25 tr.oz per gallon E-94 gold. 7 Add DI water to bring tank to final volume. 8 Check and adjust pH and specific gravity. Use 50% KOH to raise pH. Use Acid B to lower pH Add Conducting Salt G to raise specific gravity 9 Allow tank to reach operating temperature.
HG02	Makeup	Technic E-74	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank with DI water to 2/3 final volume. 2 Heat water to 95 °F. 3 Add 14 oz per gallon (of final tank volume) Conducting Salt G and stir to dissolve. 4 Add 5 oz per gallon (of final tank volume) Acid B and stir to dissolve. Lower pH to 4.5 by adding Acid B if required. Do not make additions to raise pH. 5 Add 380 mL per gallon (of final tank volume) Brightener G and stir to dissolve. This will result in a Cobalt concentration of 1000 ppm 6 Add 1.0 tr.oz per gallon E-74 gold salts. 7 Add DI water to bring tank to final volume. 8 Check and adjust pH and specific gravity. Use 50% KOH to raise pH. Use Acid B to lower pH Add Conducting Salt G to raise specific gravity 9 Allow tank to reach operating temperature.
NA11	Makeup	Nitric Acid	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add HNO3 (71% w/w 43° Be) as a % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Titrate to check HNO3 concentration before using tank.
NA12	Makeup	Nitric Acid/AB	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/3 full of DI water. 2 Add HNO3 (71% w/w 43° Be) as a % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Slowly add 3 oz/g ammonium bifluoride while stirring. 4 Fill with DI water to working level. 5 Titrate to check concentrations before using tank.
NA13	Makeup	Nitric Acid/AB	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 2/3 full of HNO3 (71% w/w 43° Be) 2 Slowly add 16 oz/g ammonium bifluoride while stirring. (To find amount, enter 0 mL into titration calculator.) 3 Fill with with HNO3 (71% w/w 43° Be) to working level.
NC11	Makeup	Watts Nickel	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/3 full of DI water. 2 Add nickel chloride per titration calculator. 3 Add nickel sulfamate per titration calculator. 4 Add boric acid per titration calculator. 5 Fill with DI water to working level. 6 Titrate to check concentrations before using tank.
NS01	Makeup	Nickel Sulfamate	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank with DI water to 1/2 final volume. 2 Heat water to 150 °F. 3 Add boric acid per titration calculator and dissolve. 4 Add liquid nickel chloride per titration calculator and dissolve. 5 Add liquid nickel sulfamate per titration calculator. 6 Fill with DI water to working level and thoroughly mix. 7 Adjust pH to optimum.
RM01	Makeup	Atotech RODIP OD Chromate	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 1/2 full of DI water. 2 Heat to 80 °F before adding chemicals. 3 Add 8% of working tank volume RODIP O.D. Part A. 4 Add 8% of working tank volume RODIP O.D. Part B. (To find correct amount, enter 0 mL into Ti calculator.) 5 Fill with 80 °F DI water to working level. 6 Check and adjust pH before using tank. Add 50% v/v H2SO4 while stirring to lower pH. Add dilute NaOH (0.5 oz/g) while stirring to raise pH.
RM02	Makeup	Atotech RoDip Zn25 Chromate	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank 2/3 full of DI water. 2 Add 0.5 oz RODIP Zn25 per gallon of working volume (Enter 0mL in titration calculator to find amount.) 4 Add HNO3 (71% w/w 43° Be) at 1.5% of tank volume. (Enter 0mL in titration calculator to find amount.) 5 Fill with DI water to working level. 5 Stir solution to thoroughly mix ingredients. 6 Check and adjust pH before using tank.
SA11	Makeup	Sulfuric Acid	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add H2SO4 (93% w/w 66° Be) as a % of tank volume. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Titrate to check H2SO4 concentration before using tank.
SC07	Makeup	Americlene 8	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add 8.5 oz/g slowly while stirring tank. (To find amount, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Heat to operating temperature.
SG01	Makeup	Technic ACR 414	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank with DI water to 2/3 final volume. 2 Heat water to 150 °F. 3 Remove filter from housing and start pump. 4 Add 25 oz/g 414CS conducting salt and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 5 Place activated carbon filter in pump and run for 1 hour. 6 Check and adjust pH and specific gravity. Use KOH (potassium hydroxide) to raise pH. Use ACR 414pH- to lower pH 7 Dissolve 1.0 tr.oz of ACR414 gold salts per gallon of final volume in 150 °F DI water and add to tank. 8 Add 19 mL of ACR414MB make up brightener per gallon of working volume and stir to dissolve. 9 Remove carbon filter and replace with standard filter. 10 Add DI water to working level. 11 Allow tank to reach operating temperature.
SM01	Makeup	LeaRonal Silver Glo Matte	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank to 1/2 final volume with DI water. 2 Heat water to 140-160 °F and turn on agitation. 3 Add 12.3 oz/g Silver Glo Silver Salt and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 4 Add 12.3 oz/g KCN and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 5 Add 2.88 oz/g KCO3 and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 6 Stir to completely dissolve all salts. 7 Add DI water to final working volume. 8 Allow tank to reach operating temperature.
SM02	Makeup	LeaRonal Silver Glo Bright	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank to 1/2 final volume with DI water. 2 Heat water to 140-160 °F and turn on agitation. 3 Add 12.3 oz/g Silver Glo Silver Salt and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 4 Add 12.3 oz/g KCN and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 5 Add 2.88 oz/g KCO3 and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 6 Add 1.5% v/v Silver Glo 3K and stir to dissolve. 7 Add 6 fl oz/g Silver Glo TY and stir to dissolve. 8 Stir to completely dissolve all salts. 9 Add DI water to final working volume. 10 Allow tank to reach operating temperature.
SM03	Makeup	LeaRonal Silver Glo Strike	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill tank to 1/2 final volume with DI water. 2 Heat water to 140-160 °F and turn on agitation. 3 Add 0.61 oz/g Silver Glo Silver Salt and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 4 Add 13 oz/g KCN and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 6 Stir to completely dissolve all salts. 7 Add DI water to final working volume. 8 Allow tank to reach operating temperature.
SM49	Makeup	MacDermid Isoprep 49L	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add required amount of Isoprep 49L with stirring (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Mix thoroughly and heat to operating temperature.
SM72	Makeup	MacDermid Isoprep 172	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add required amount of Isoprep 172 with stirring (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Mix thoroughly and heat to operating temperature.
SM90	Makeup	MacDermid Isoprep 190	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add required amount of Isoprep 190. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Mix thoroughly and heat to operating temperature.
SM92	Makeup	MacDermid Isoprep 192	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add required amount of Isoprep 192. (To find volume, enter 0 mL into titration calculator.) 3 Fill with DI water to working level. 4 Mix thoroughly and heat to operating temperature.
TI01	Makeup	MacDermid Tin MAC	Before make up in a new tank, or a tank not previously used for Tin MAC, leach the tank for 24 hours minimum with a 3% H2SO4 and 0.1% volume Tin MAC starter. After leaching, drain the solution and rinse the tank thoroughly with water. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add the tin salts and dissolve by stirring. 3 Add 10% v/v H2SO4. (To find amount, enter 0 mL into titration calculator.) 4 Allow bath temperature to drop below 90 °F. 5 Add 1.0% v/v TinMAC starter. 6 Fill with DI water to working level. 7 Allow bath to cool to operating temperature.
TI04	Makeup	LeaRonal Sat-Tin	For rack plating ... 1 Fill a properly prepared tank 3/4 full of DI water. 2 Add 8% v/v H2SO4. (To find amount, enter 0 mL into titration calculator.) 3 Add 10 oz/g SnSO4 and dissolve by stirring. (To find amount, enter 0 mL into titration calculator.) 4 Allow bath temperature to drop below 75 °F. 5 Add 5% v/v Sat-Tin P17 6 Add 5% v/v Sat-Tin OD 7 Fill with DI water to working level.
WS01	Makeup	Woods Strike	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/3 full of DI water. 2 Add nickel chloride per titration calculator. 3 Add hydrochloric acid per titration calculator. 4 Fill with DI water to working level. 5 Titrate to check concentrations before using tank.
XM86	Makeup	Enthone Enstrip EN-86	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Add 30% final tank volume of EN-86L. 3 Add 33% final tank volume of EN-86A. (Enter 0 mL in titration calculator to find amounts.) 4 Fill tank to working volume. 5 Allow tank to reach operating temperature before using.
XN02	Makeup	Atotech RoStrip M-10	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 2/3 full of DI water. 2 Heat water to 140-150 °F. 3 Add RoStrip M-10 and stir to dissolve. (Enter 0 mL in titration calculator to find amount.) 4 Allow tank to reach operating temperature. 5 Titrate to check concentrations before using tank.
ZM01	Makeup	Enthone Alumon EN	Wear protective clothing, rubber gloves, footwear, and goggles. Solution contains NaOH !!! 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add 25% of final tank volume Alumon EN. (Enter 0 mL in titration calculator to find amount.) 3 Fill tank to working level with DI water.
ZM20	Makeup	Atotech AlumSeal 2000	Wear protective clothing, rubber gloves, footwear, and goggles. 1 Fill a properly prepared tank 1/2 full of DI water. 2 Fill to final tank volume with AlumSeal 2000 Concentrate. (Enter 0 mL in titration calculator to find amount.)
ZM25	Makeup	Enthone Alumon 5825	Wear protective clothing, rubber gloves, footwear, and goggles. Solution contains NaOH !!! 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add 25% of final tank volume Alumon 5825. (Enter 0 mL in titration calculator to find amount.) 3 Fill tank to working level with DI water.
ZM40	Makeup	MetalChem MetaMate Zincate 40	Wear protective clothing, rubber gloves, footwear, and goggles. Solution contains NaOH !!! 1 Fill a properly prepared tank 2/3 full of DI water. 2 Add 25% of final tank volume Zincate 40. (Enter 0 mL in titration calculator to find amount.) 3 Fill tank to working level with DI water.