FORD WSS-M6J152-B4-2008 PRIMER SURFACER MODIFIED POLYESTER CHIP AND SCRATCH INHIBITING FOR UNIVERSAL USE WITH WATERBORNE OR SOLVENT BORNE BASECOAT SYSTEMS TO BE USED WITH FORD WSS.pdf

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1、 ENGINEERING MATERIAL SPECIFICATION Date Action Revisions 2008 05 30 Revised NO TECHNICAL CHANGES MADE; Inserted 3.0; Deleted 3.1, 3.2, 3.10, 3.12 & 4 1997 12 01 Released T. Weingartz Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC Page 1 of 9 PRIMER SURFACER, MODIFIED

2、POLYESTER, CHIP AND WSS-M6J152-B1 SCRATCH INHIBITING PRIMER SURFACER, MODIFIED POLYESTER, CHIP AND WSS-M6J152-B2 SCRATCH INHIBITING, REDUCED VISCOSITY PRIMER SURFACER, MODIFIED POLYESTER, CHIP AND WSS-M6J152-B3 SCRATCH INHIBITING, FOR USE WITH WATERBORNE BASECOATS PRIMER SURFACER, MODIFIED POLYESTER

3、, CHIP AND WSS-M6J152-B4 SCRATCH INHIBITING, FOR UNIVERSAL USE WITH WATERBORNE OR SOLVENT BORNE BASECOAT SYSTEMS PRIMER SURFACER, MODIFIED POLYESTER, CHIP AND WSS-M6J152-B5 SCRATCH INHIBITING, REDUCED VISCOSITY, FOR UNIVERSAL USE WITH WATERBORNE OR SOLVENT BORNE BASECOAT SYSTEMS 1. SCOPE The materia

4、ls defined by these specifications are polyester primer surfacers, modified with either urethane or acrylic resins, possessing good gloss, enamel holdout, and protect against chip damage. They are formulated to cure at 135 C min metal temperature. 2. APPLICATION These specifications were originally

5、released as guidecoats over currently approved cathodic electrocoat primer, conforming to performance requirements or related specifications, for both steel and primed plastic substrates. Application is targeted for high efficiency electrostatic equipment. Automotive exterior baking enamels, solvent

6、 borne basecoats, and/or water borne basecoats will be applied over these primers in exterior body applications. WSS-M6J152-B1, B3, and B4 The material defined by these specifications is supplied at normal viscosity and solids level as shown in this document. WSS-M6J152-B2 and B5 The material define

7、d by these specifications is supplied with reduced viscosity such that they are ready for use in the assembly plants. The reduced viscosity and associated reduced solids levels shall be agreed upon by the supplier, the affected assembly plant, Global Paint Engineering, and Production Purchasing prio

8、r to delivery of the materials to the respective assembly plant. 3. REQUIREMENTS Tests shall be made on the basis of comparison with approved production material applied and tested under identical conditions. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolle

9、d Copyright 2008, Ford Global Technologies, LLC Page 2 of 9 3.0 STANDARD REQUIREMENTS FOR PRODUCTION MATERIALS Material suppliers and part producers must conform to the Companys Standard Requirements For Production Materials (WSS-M99P1111-A). 3.3 COMPOSITION 3.3.1 Vehicle Modified Polyester crosslin

10、kable resin(s), with melamine or blocked isocyanate crosslinker(s). 3.3.2 Pigmentation Colorants, extender, and filler pigments obtain the desired color and resistance properties. Photo-oxidizable pigments are not permitted. 3.3.3 Volatile Organic Compounds (V.O.C.), max 0.5 kg/L (ASTM D 3960 except

11、 bake schedule is as sprayed 60 minutes at 110 +/- 2 C) The volatile portion of this material shall meet the applicable requirements of the local air pollution control for the assembly plants in which the primer is used. 3.3.4 Non-Volatile Initial Sample (FLTM BI 102-01) +/- 2%, min 60% 3.4 PHYSICAL

12、 PROPERTIES (LIQUID STATE) 3.4.1 Stability (FLTM BI 102-03) Heat Stability Shall not jell, settle hard or increase viscosity in excess of 10 s Room Temperature No hard settling after 16 h with stability test sample reduced to spray viscosity with the suppliers recommended solvent or blend 3.4.2 Elec

13、trical Properties Resistivity: 0.05-0.5 megaohms Suitable to permit application at high transfer efficiencies using electrostatic equipment. 3.4.3 Viscosity Initial sample (FLTM BI 111-01) +/- 10 s Final approval of a specific material viscosity shall be made by the affected manufacturing activity.

14、In all cases the viscosity shall be within specification limits as identified on the material control plan. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC Page 3 of 9 3.4.4 Density (weight per volume) Initial

15、 Sample (ASTM D 1475) +/- 0.05 g/ml 3.5 PREPARATION OF TEST PANELS Prepare test panels per FLTM BI 103-02, Method C, using the viscosity specified by the supplier and a dry film build of 30 +/- 5 micrometers. Use the following substrates: 3.5.1 Substrates . Unpolished cold rolled steel zinc phosphat

16、ed panels conforming to the requirements of WSK-M3P1-C. . WSB-M1A250 galvanized steel zinc phosphated panels conforming to the requirements of WSK-M3P1-C. . Exterior thermoplastic and thermosetting plastic parts primed to conform to current production requirement. On metal substrates, all candidate

17、primers shall be tested as a guidecoat, directly over an approved current production electrocoat primer. On plastic substrates, all candidate primers shall be tested as a guidecoat, over primed plastic. Two sets of plastic panels shall be prepared: . Set I: An electrocoat primer bake is simulated. T

18、he panels are allowed to return to room temperature prior to applying the candidate primer. . Set II: The candidate primer is applied without simulating an electrocoat primer bake. All submissions will be tested at both min and max primer surfacer bake cycles (para 3.5.8). 3.5.2 Primers Only with Sa

19、nd-through Area Prepare panels in the following manner: . Substrates: Cold rolled steel, galvanized steel, and plastic with conductive primer. . Electrocoat primer (metal substrates only): Prime per FLTM BI 120-01 and bake at 10 minutes at 182 +/- 2 C metal temperature (20 minutes at 182 +/- 2 C lab

20、oratory oven). . Sanding: Allow panel to cool to room temperature. Using 320 grit sandpaper, make a 30 mm diameter bullseye through the primer, exposing the substrate. Clean the substrate and primer dust off of the panel. . Primer surfacer: Apply 30 +/- 5 micrometers of the candidate primer. Bake at

21、 both cycles shown in para 3.5.8. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC Page 4 of 9 3.5.3 Electrocoat - Primer Surfacer - Topcoat System . Substrate: Cold rolled steel, galvanized steel, and plastic

22、with conductive primer. . Electrocoat primer (metal substrates only): Prime per FLTM BI 120-01 and bake at 10 minutes at 182 +/- 2 C metal temperature (20 minutes at 182 +/- 2 C laboratory oven). . Primer surfacer: Apply 30 +/- 5 micrometers of the candidate primer. Bake at both cycles shown in para

23、 3.5.8. . Topcoat: Apply enamel and bake, per para 3.5.7. 3.5.4 Electrocoat - Frontal Surface Chip Primer - Primer Surfacer - Topcoat System . Substrates: Galvanized steel and plastic with conductive primer. . Electrocoat primer (metal substrate only): Prime per FLTM 120-01 and bake at 10 minutes at

24、 182 +/- 2 C metal temperature (20 minutes at 182 +/- 2 C laboratory oven). . Frontal surface chip primer: Apply 38 micrometers of current production frontal surface chip primer. Flash for 3 minutes max. . Primer surfacer: Apply 30 +/- 5 micrometers of the candidate primer wet-on-wet over the fronta

25、l surface chip primer. Bake at both cycles shown in para 3.5.8. . Topcoat: Apply enamel and bake per para 3.5.7. 3.5.5 Electrocoat - Urethane Bodyside Chip Coating - Primer Surfacer - Topcoat System . Substrates: galvanized steel. . Electrocoat primer: Primer per FLTM BI 120-01 and bake for 10 minut

26、es at 182 +/- 2 C (20 minutes at 182 +/- 2 C laboratory oven). . Urethane bodyside chip coating: Apply 130 micrometres or as specified of current production urethane bodyside chip coating. Flash for 3 minutes max. . Primer surfacer: Apply 30 +/- 5 micrometers of the candidate primer wet-on-wet over

27、the urethane coating. Bake at both cycles shown in para 3.5.8. . Topcoat: Apply enamel and bake per para 3.5.7. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC Page 5 of 9 3.5.6 Electrocoat - Vinyl Bodyside Ch

28、ip Coating - Primer Surfacer - Topcoat System . Substrates: Galvanized steel. . Electrocoat primer: Prime per FLTM BI 120-01 and bake for 10 minutes at 182 +/- 2 C (20 minutes at 182 +/- 2 C laboratory oven). . Vinyl bodyside chip coating: Apply 380 micrometers current production vinyl bodyside chip

29、 coating. Flash for 10 minutes max. . Primer surfacer: Apply 30 +/- 5 micrometers of the candidate primer wet-on-wet over the vinyl coating. Bake at both cycles shown in para 3.5.8. . Topcoat: Apply enamel and bake per para 3.5.7. 3.5.7 Topcoat Requirements The following exterior basecoat/clearcoat

30、systems shall be applied over unsanded primer: Color Test Description Paragraph *Black Holdout 3.6.4 Water Immersion 3.8.3 Humidity 3.8.4 *White and All other tests High Mica Red requiring topcoat except para 3.8.6 Clearcoat, Chalk Resistance 3.8.6 without UV absorber *Only current production approv

31、ed basecoat/clearcoat systems shall be used. Bake conditions at metal temperature: 10 minutes at 140 +/- 2 C metal temperature (17 minutes at 140 +/- 2 C laboratory oven). 3.5.8 Primer Surfacer Bake Cycle The material shall pass all requirements when baked at both the following schedules: Metal Temp

32、erature Laboratory Oven* Bake, min 8 minutes at 15 minutes at 135 +/- 2 C 135 +/- 2 C Bake, max 10 minutes at 30 minutes at 163 +/- 2 C 163 +/- 2 C *As specified in FLTM BI 103-02. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Globa

33、l Technologies, LLC Page 6 of 9 3.5.9 Process Window Definition The supplier shall perform a Design of Experiment (Box-Behnken is recommended) to determine the process window of the material. The three variables to be included in the design are bake time, bake temperature, and film thickness. An ini

34、tial screening experiment should be conducted to determine what levels will be tested for the above stated design variables. This screening experiment should be reviewed with the materials engineer to set up the final DOE. Responses to the DOE will be based upon the materials tested and chosen from

35、tests listed within this specification. 3.6 APPEARANCE After preparing panels of the material under test and production primer according to para 3.5.2 (unsanded) and/or para 3.5.3, the primer under test shall be equal to or better than current approved production materials when tested under identica

36、l conditions for the following properties. 3.6.1 Color Shall match the approved color standard on file at Body and Assembly Paint Operations. 3.6.2 Gloss 80 +/- 5 (FLTM BI 110-01, 60 Glossmeter) On panels baked at 10 minutes metal temperature at 163 C +/- 2 C. 3.6.3 Leveling The primer film shall le

37、vel with a min of orange peel. The surface of the material under test shall be equal to or better than current approved production material for smoothness when applied and baked under identical conditions. 3.6.4 Holdout There shall be no evidence of dulling or strike-in when enamel color coat is app

38、lied over sanded or unsanded primer surfacer, and no difference in gloss of the color coat between sanded and unsanded primer. There shall be no prominence of sand scratches. Tests shall be made at both min and max bake cycles. 3.7 FILM PROPERTIES 3.7.1 Dry Sanding Characteristics The primer, when a

39、pplied and baked at both min and max cycles as outlined in para 3.5.8 shall dry sand (using a new sheet of 320 grit non-stearate filled paper for each panel) smoothly without clogging the paper and with a min of sand scratches. The material shall be equivalent in all respects to current approved pro

40、duction primer applied and tested under identical conditions. 3.7.2 Adhesion (FLTM BI 106-01, Method B) Test material versus current approved production primer. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC

41、Page 7 of 9 3.7.2.1 Primer to Substrate Adhesion Prepare panels per para 3.5.2. Test the adhesion in the bullseye area. Adhesion shall be satisfactory with no chipping, and equal to or better than current approved primer. 3.7.2.2 Primer to Conductive Primer Adhesion Using a plastic substrate, prepar

42、e panels per para 3.5.2. Two sets of panels are required, as described in para 3.5. Adhesion shall be satisfactory with no chipping and equal to or better than the currently approved production primer. 3.7.2.3 Adhesion of the Electrocoat - Primer Surfacer - Topcoat System Prepare panels per para 3.5

43、.3. Adhesion shall be satisfactory with no chipping, and equal to or better than current approved primer. 3.7.2.4 Adhesion of the Electrocoat - Frontal Surface Chip Primer - Primer Surfacer - Topcoat System Prepare panels per para 3.5.4. Adhesion shall be satisfactory with no chipping, and equal to

44、or better than current approved primer. 3.7.2.5 Adhesion of the Electrocoat - Urethane Bodyside Chip Coating - Primer Surfacer - Topcoat System Prepare panels per para 3.5.5. Adhesion shall be satisfactory with no chipping, and equal to or better than current approved primer. 3.7.2.6 Adhesion of the

45、 Electrocoat - Vinyl Bodyside Chip Coating - Primer Surfacer - Topcoat System Prepare panels per para 3.5.6. Adhesion shall be satisfactory with no chipping, and equal to or better than current approved primer. 3.8 RESISTANCE PROPERTIES 3.8.1 Chip Resistance (SAE J400) Chipping shall not exceed a 5%

46、 paint removal of the 10 x 10 cm area as read. ENGINEERING MATERIAL SPECIFICATION WSS-M6J152-B1/B2/B3/B4/B5 Printed copies are uncontrolled Copyright 2008, Ford Global Technologies, LLC Page 8 of 9 Test Method: . Test panels prepared per para 3.5.3, 3.5.4, 3.5.5, and 3.5.6. . Strike one half of the

47、test panels with 1.41 L gravel at room temperature for pass/fail criteria. Strike the remaining one half of the test panel with 1.41 L gravel at - 20 C the test panel must be equal to or better than current approved primer. The panel must be 90 relative to the gravelometers muzzle. 3.8.2 Stone Chip

48、Resistance, max Rating 4 (FLTM BI 157-06) 3.8.3 Water Immersion, min 500 h metal panels (FLTM BI 104-01) 240 h plastic panels Panels are prepared according to para 3.5.2 (plastic only) and 3.5.3 (plastic and metal). No blistering or loss of gloss. 3.8.4 Condensing Humidity, min 240 h metal panels (F

49、LTM BI 104-02, Procedure A) only Panels are prepared according to para 3.5.2, 3.5.3, 3.5.4, 3.5.5, and 3.5.6. No blistering or loss of gloss. 3.8.5 Florida Exposure (SAE J1976, Procedure A) Panels prepared as in para 3.5.3, scribed with an X to bare substrate and exposed in the Miami, Florida ambient area at 5 deg facing south for 12 months shall show no blistering, peeling, or visible rusting along the scribe marks more than 3 mm total width. 3.8.5.1 Water Immersion, 16 h No blistering (FLTM BI 104-04) or adhesion loss 3.8.6 Chalking Res

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