Technical Data Sheet Additin RC 935 Additive Package Type Ashless multifunctional oxidation, rust and wear inhibiting additive package - for antiwear hydraulic fluids according to: DIN 51524, part 2 and 3 (HLP, HVLP); ISO 6743/4 (HM, HV); SEB 181 222; AFNOR NF E 48-63 (HM, HV); SS 155434; VDMA 24318 - for compressor oil according to: DIN 5156 (VBL, VCL, VDL); ISO / DP 6521 (DAA, DAB, DAH, DAG) Technical data* Composition Appearance Nitrogen Phosphorus Viscosity, 4 C (ASTM-D 445) Density, 2 C (ASTM-D 1298) Flash point, COC (ASTM-D 92) Mineral oil content combination of phosphorus antiwear compounds with oxidation and corrosion inhibitors light coloured, clear liquid approx. 3.1 weight approx. 1. weight approx. 12 mm²/s approx. 98 kg/m³ approx. 135 C approx. 5 weight Application - ashless high performance hydraulic and compressor oil package Additin RC 935 is ideally suited for use in ashless hydraulic fluids and compressor oils. The following high performance demands have to be met: - very high oxidation stability (extended service life) - high load carrying capacity - good demulsification - good corrosion protection against steel and non-ferrous metals - good filterability - excellent thermal stability The recommended treatment level of Additin RC 935 is.5 by weight for hydraulic fluids (HLP). Page 1 of 2 Edition: 26. Mär 27
Technical Data Sheet Solubility Soluble in mineral oils and synthetic base oils. However, it is necessary to verify the solubility in the base oils used and the compatibility with other additives. Test results Test results see Technical Reports Packing unit 2 kg bunghole drums Storage conditions in a dry place at room temperature approx. 24 months. This product is liable to crystallization at low temperatures. If this occurs, gentle warming up to 4-5 C with agitation will ensure homogeneity of the product without adverse effects. Local overheating - above 6 C - must be avoided. Handling Consult material safety data sheet (MSDS) for additional handling information on Additin RC 935. = registered trade mark * The analytical data are guide values. Additin RC 935 is on EINECS and TSCA inventory. Our technical advice - whether verbal, in writing or by way of trials - is given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. It does not release you from the obligation to test the products supplied by us as to their suitability for the intended processes and uses. The application, use and processing of the products are beyond our control and, therefore, entirely your own responsibility. Should, in spite of this, liability be established for any damage, it will be limited to the value of the goods delivered by us and used by you. We will, of course, provide products of consistent quality within the scope of our General Conditions of Sale and Delivery. LANXESS Deutschland GmbH Business Unit Additives Kennedyplatz 1 D-5569 Cologne, Germany E-Mail: lubricant.additives@lanxess.com http://add.lanxess.com Page 2 of 2 Edition: 26. Mär 27
Performance Data according to: DIN 51524, p.2 and 3 (HLP, HVLP); ISO 6743/4 (HM, HV); AFNOR NF E 48-63 (HM, HV); SS 155434; VDMA 24318; SEB 181 222; U.S.Steel 136 Additin RC 935 ashless package for hydraulic fluids Base oil: paraffinic mineral base oil ISO VG 46 Additive:.5 wt Additin RC 935 Base Stock Characteristics Test method Unit Test results Source of Base Oil Blend of Core 15 and Core 6 Exxon Mobil Viscosity ISO VG 46 Viscosity Index 16 C (aromatic) C (naphtenic) C (paraffinic) 6.5 32.6 6.9 Sulphur.38 Lubricant Characteristics in Exxon Mobil base stock ISO VG 46 (Group I).5 wt RC 935 Acid number (ASTM D 974) mgkoh/g.21 Viscosity at 4 C (ASTM D 445) mm²/s 47.2 Viscosity at 1 C mm²/s 6.95 Viscosity Index 13 The test results may vary depending on origin, fraction and degree of refining of the base oil RC 935 page 1 of 4 Edition September 211
Surface Characteristics Test method Unit Test results Most severe requirements in Exxon Mobil base stock ISO VG 46 (Group I).5 wt RC 935 Air release properties / 5 C (DIN 51589 p.1) min 3 DIN 51524 max. 1 (ISO VG 46) Demulsification capacity / 54 C (ASTM D 141) oil-water emulsion separation time ml min 4-4- 15 Thyssen TH-N 256 132 min. 4-37-3 max. 2 Foaming behavior Surface foam (ASTM D 892) sequence I 25 C sequence II 95 C sequence III 25 C ml/ml ml/ml ml/ml / / / SEB 181 222 1 / 5 / 1 / Corrosion Protection Copper corrosion (ASTM D 13) 3 h / 1 C 24 h / 1 C 3 h / 125 C 1a 1a 1a max. 2 DIN 51524 - max. 1 SEB 181 222 Steel corrosion (ASTM D 665) procedure A (distilled water) procedure B (synthetic sea water) pass DIN 51524 pass SEB 181 222 EP / AW - Properties AW - Four Ball Test (DIN 5135, part 3; ASTM D 4172) scar diameter [15 rpm / 1 h / 3 N] [18 rpm / 1 h / 2 N] mm mm.45.38 US steel 136 max..5 FZG gear test A 8.3 / 9 (visual) (DIN 51354, part 2) damage-load stage 12 min. 1 DIN 51524 min. 12 SEB 181 222 The test results may vary depending on origin, fraction and degree of refining of the base oil RC 935 page 2 of 4 Edition September 211
Test method Unit Test results Most severe requirements in Exxon Mobil base stock ISO VG 46 (Group I).5 wt RC 935 Vickers vane pump test type V 14-C (DIN 51389, part 2) weight loss ring weight loss vanes mg mg 17.4 4.8 SEB 181 222 max. 6 max. 15 Filterability Characteristic Filtrability dry (ISO 13357-2) F I F II 95.5 89.4 DIN 51524 min. 8 min. 6 Filtrability wet (ISO 13357-1) F I F II 86.7 8. DIN 51524 min. 7 min. 5 Thermo - Oxidative Stability TOST (ASTM D 943) [95 C, H 2O, O 2, Fe and Cu catalyst] time to TAN 2 mgkoh/g h 27 DIN 51524 min. 1 h to TAN 2 RPVOT (ASTM D 2272) [15 C, H 2O, O 2, Cu catalyst] life time min 293 US Steel 136 min. 12 CM-Heat-Test (Procedure A) [168 h, 135 C] viscosity change acid number 168 h colour 168 h Copper rod appearance Copper wt. loss Iron rod appearance Iron wt. loss sludge mgkoh/g mg mg mg/1 ml < 5.18 8 4 +.2 1 +.4 19.6 CM P-7 max. 5 report report max. 5 max. 1 no colour -1. bis + 3.5 max. 25 The test results may vary depending on origin, fraction and degree of refining of the base oil RC 935 page 3 of 4 Edition September 211
= registered trademark Edition September 211 Our technical advice - whether verbal, in writing or by way of trials - is given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. It does not release you from the obligation to test the products supplied by us as to their suitability for the intended processes and uses. The application, use and processing of the products are beyond our control and, therefore, entirely your own responsibility. Should, in spite of this, liability be established for any damage, it will be limited to the value of the goods delivered by us and used by you. We will, of course, provide products of consistent quality within the scope of our General Conditions of Sale and Delivery. Rhein Chemie Rheinau GmbH Postfach 81 4 9 Düsseldorfer Strasse 23-27 D-68219 Mannheim Germany Telephone: +49-621-897-232 Telefax: +49-621-897-593 E-mail: info@rheinchemie.com www.rheinchemie.com The test results may vary depending on origin, fraction and degree of refining of the base oil RC 935 page 4 of 4 Edition September 211
Performance Data according to: DIN 5156 (VBL, VCL, VDL) ISO / DP 6521 (DAA, DAB, DAH, DAG) Additin RC 935 Applications for Compressor Oils Base oil: group I and IV base oil ISO VG 46 Additive:.35 wt or.5 wt Additin RC 935 Base Stock Characteristics Test method Unit Test results Source of Base Oil Group I Blend of Core 15 and Core 6 Exxon Mobil Group IV PAO 8 Viscosity ISO VG 46 46 Viscosity Index 16 138 C (aromatic) C (paraffinic) C (naphthenic) 6.5 32.6 6.9 1 Sulphur ppm 38 < 1 Flash Point COC (ASTM D 92) C 234 257 Lubricant Characteristics.35 wt RC 935 Exxon Mobil base stock.35 wt RC 935 PAO 8 base stock Acid number (ASTM D 974) mgkoh/g.16.14 Viscosity at 4 C (ASTM D 445) mm²/s 46.4 46.9.5 wt RC 935 Exxon Mobil base stock.5 wt RC 935 PAO 8 base stock Acid number (ASTM D 974) mgkoh/g.21.19 Viscosity at 4 C (ASTM D 445) mm²/s 46.9 46.8 The test results may vary depending on origin, fraction and degree of refining of the base oil RC 93 compressor oil Edition September 211 page 1 of 3
DIN 5156 VBL For air compressor up to 14 C Test method Unit Test results Requirement.35 wt RC 935 Exxon Mobil.35 wt RC 935 PAO 8 aging by passing air (DIN 51352, p. 1) carbon residue after aging.3.11 max. 2. DIN 5156 VCL For air compressor up to 16 C (mobile up to 22 C) aging by passing air (DIN 51352, p. 1) carbon residue after aging.3.11 max. 1.5 Residue after distillation of 8 vol (DIN 51356, DIN 51551) conradson carbon residue.2.2 max..3 DIN 5156 VDL For air compressor up to 22 C.5 wt RC 935 Exxon Mobil.5 wt RC 935 PAO 8 aging air in the presence of Fe 2O3 (DIN 51352, p. 2) carbon residue after aging 2.5 1.6 max. 2.5 Residue after distillation of 8 vol (DIN 51356, DIN 51551) conradson carbon residue viscosity at 4 C before distillation viscosity at 4 C after distillation ratio of viscosity mm²/s mm²/s.24 46.9 27.7 4.4.4 47.1 92.3 2. max..3 41.4-5.6 max. 5 ISO/DP 6521 DAA, DAB, DAH, DAG Copper corrosion (ASTM D 13) 3 h / 1 C 1a 1a DAA/DAB/DAH/DAG max. 1b The test results may vary depending on origin, fraction and degree of refining of the base oil RC 93 compressor oil Edition September 211 page 2 of 3
Test method Unit Test results Requirement ISO/DP 6521.5 wt RC 935 Exxon Mobil.5 wt RC 935 PAO 8 Steel corrosion (ASTM D 665) procedure A (distilled water) procedure B (synthetic sea water) DAA/DAB/DAH/DAG Pass/ not required Demulsification capacity / 54 C (ASTM D 141) oil-water emulsion separation time ml min 4-4- 15 4-37-3 3 DAB/DAH/DAG min. 4-37-3 max. 3 Foaming behavior Surface foam (ASTM D 892) sequence I 25 C ml/ml / / DAH/DAG 3 / ageing by passing air (DIN 51352, p. 1) carbon residue after ageing evaporation loss.34 1.6.19 1.3 DAA max. 1.5 max. 15 ageing air in the presence of Fe 2O3 (DIN 51352, p. 2) carbon residue after ageing evaporation loss 2.5 2.8 1.6 2.6 DAB max. 2.5 max. 2 Residue after distillation of 8 vol (DIN 51356, DIN 51551) conradson carbon residue viscosity at 4 C before distillation viscosity at 4 C after distillation ratio of viscosity mm²/s mm²/s.24 46.9 27.7 4.4.4 42.3 73.8 1.8 DAB max..3 41.4-5.6 max. 5 = registered trademark Edition September 211 Our technical advice - whether verbal, in writing or by way of trials - is given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. It does not release you from the obligation to test the products supplied Rhein Chemie Rheinau GmbH Postfach 81 4 9 Düsseldorfer Strasse 23-27 D-68219 Mannheim Germany by us as to their suitability for the intended processes and uses. The application, use and processing of the products are beyond our control and, therefore, entirely your own responsibility. Should, in spite of this, liability be established for any damage, Telephone: +49-621-897-232 Telefax: +49-621-897-593 E-mail: info@rheinchemie.com www.rheinchemie.com it will be limited to the value of the goods delivered by us and used by you. We will, of course, provide products of consistent quality within the scope of our General Conditions of Sale and Delivery. The test results may vary depending on origin, fraction and degree of refining of the base oil RC 93 compressor oil Edition September 211 page 3 of 3