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本文(FORD WSS-M9P9-C-2014 DYNAMIC SEALING PERFORMANCE SPECIFICATION TO BE USED WITH FORD WSS-M99P1111-A .pdf)为本站会员(outsidejudge265)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

FORD WSS-M9P9-C-2014 DYNAMIC SEALING PERFORMANCE SPECIFICATION TO BE USED WITH FORD WSS-M99P1111-A .pdf

1、 ENGINEERING MATERIAL SPECIFICATION Date Action Revisions Rev. 0 2014 10 27 Released G. Eaton, FNA Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 1 of 14 DYNAMIC SEALING PERFORMANCE SPECIFICATION WSS-M9P9-C 1. SCOPE This specification defines the minimum durabilit

2、y and performance requirements of closure, trim, and body flange mounted dynamic sealing components that are included in CPSC 01.07.02, 01.07.08, 01.07.09, and 01.07.10. 2. APPLICATION This performance specification was released originally for coated and/or uncoated dynamic sealing components used i

3、n closure, body, and trim mounted applications. Material selection must be reviewed and approved by Ford Materials Engineering. In addition to the requirements listed in this specification, requirements listed in the Dynamic Sealing (DYNA) SDS must be met unless otherwise agreed to by Ford engineeri

4、ng, including, but not limited to: RQT-010700-009303 (legacy DY-0003): Insertion Force Flanges RQT-010700-009304 (legacy DY-0004): Extraction Force Flanges RQT-010700-009318 (legacy DY-0018): Compression Set RQT-010700-009331 (legacy DY-0033): Key Life Aging CLD (Compression Load Deflection) RQT-010

5、700-009334 (legacy DY-0036): Compression Load Deflection (CLD) RQT-010700-009336 (legacy DY-0038): Low Temperature Performance RQT-010700-009338 (legacy DY-0040): Coating 2.1 LIMITATIONS This performance specification excludes belt weatherstrips and/or glass run weatherstrips integral to CPSC 01.07.

6、01. 3. REQUIREMENTS 3.1 STANDARD REQUIREMENTS FOR PRODUCTION MATERIALS Material suppliers and part producers must conform to the Companys Standard Requirements For Production Materials (WSS-M99P1111-A). For thermoplastic materials, this specification is based on virgin material only. The use of regr

7、ind is permitted for economic/environmental reasons, with compliance as indicated in WSS-M99P1111-A. ENGINEERING MATERIAL SPECIFICATION WSS-M9P9-C Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 2 of 14 Materials used in interior applications must meet the requirem

8、ents outlined in WSS-M99P2222-D1/Latest, Performance, Vehicle Interior Environment Quality Material/Component Requirements. Data must be included in material submission package. For odor testing, all weatherstrips should only be tested at 23C, 45C, and 65C. 3.2 DYNAMIC SEAL PERFORMANCE MANAGEMENT Al

9、l seals evaluated under this performance specification must have Supplement A completed and signed by Ford Materials Engineering, the material/coatings supplier, and the Tier One supplier. Compatibility of the seal coating with seal base material (s) is the responsibility of the Tier One supplier. T

10、he Tier One supplier shall have the seal tested against the applicable performance specification requirements, and must keep all tested samples for review by Ford Materials Engineering. Table 3.0 describes the construction of the dynamic seal, and must be submitted with Supplement A. (Reference Supp

11、lement A). The Tier One supplier is responsible for including Table 3.0 and this performance specification on the part drawing. 3.3 FINISHED PARTS Testing must be conducted at Design Verification (DV) and Product Validation (PV) per Table 2.0 (including Supplement A), unless otherwise agreed to by M

12、aterials Engineering, and on actual production parts or a section of the part whenever possible. Where part dimensions limit testing equipment access, representative test samples may be substituted. DV Testing must follow the Process Window DOE, paragraph 3.5. PV Testing must be conducted on actual

13、production processed parts. No change in material, facility, or processing is permitted without written approval from Ford Materials Engineering Activity, via SREA. All test values are based on parts conditioned in a controlled atmosphere of 23 +/- 2 C and 50% R.H. for not less than 24 h prior to te

14、sting and tested under the same conditions unless otherwise specified. 3.4 APPEARANCE: COLOR, FINISH, SURFACE (FLTM BI 109-01) The part shall be generic black (GAXA) in color and have, at most, a “K“ level (2-4 on a 60 gloss meter) for gloss, unless otherwise specified on the engineering drawing or

15、PDL. The color shall be uniform (no change in color less than Rating 5 of the Gray Scale, AATCC Evaluation Procedure 1/ISO 105-A02) along the entire length of the seal assembly, including molded or mitered corners and splices. The surface shall be free of blisters, voids and any bloom unless otherwi

16、se specified on the engineering drawing. 3.5 PROCESS WINDOW DEFINITION The supplier shall perform a DOE for development of new materials and for continuous improvement of current materials, utilizing response surface analysis to determine the Process Window of the system. The variables to be include

17、d in the design are cure temperature (material and coating), conveyor speed, and coating flow. An initial screening experiment should be run to determine what level will generate a window which includes testing to failure. This screening experiment should be reviewed with the Materials Engineer to s

18、et up the final DOE. Response attributes to the DOE should be based on the materials tested and should include, but not be limited to: ENGINEERING MATERIAL SPECIFICATION WSS-M9P9-C Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 3 of 14 Coefficient of Friction Film

19、 Thickness (if coating is present) Resistance to Cleaning Agents Resistance to Crocking Abrasion Naptha Solvent Rub (if coating is present only) Compression Load Deflection (per legacy DY-0036) TABLE 1.0 TEST REQUIREMENTS FOR SPECIFIC DYNAMIC SEAL TYPES Dynamic seal test requirements depend on their

20、 type, location and unique properties. Table 1.0 provides an overview of the test requirements in paragraphs 3.6 to 3.15 necessary for approval. All dynamic seal types must meet the requirements per paragraphs 3.1, 3.2, 3.3, 3.4, 3.5, 3.16, 3.17. Note: Non-visible seals to the exterior and interior

21、normal environments (closures closed) are not required to meet 3.7 Accelerated Weathering and 3.8 Aged Adhesion. 3.6 RESISTANCE PROPERTIES The following requirements shall be assessed on whole parts or sections of seal assemblies and must include all materials and constructions found within the part

22、s (molded corners, bright inserts, flock coating, etc.) Separate specimens are required for each test. The parts as received and after being subjected to the tests listed below shall conform to the following requirements as specified. (a) No evidence of color change less than Rating 4 of the Gray Sc

23、ale (AATCC Evaluation Procedure 1/ISO 105-A02). (b) No cracking, chalking, wrinkling, crazing, iridescence, bloom, milkiness, separation, loss of adhesion (coating), or loss of embossment allowed (as defined in ASTM D1566). (c) No evidence of shrinkage or incompatibility between materials of constru

24、ction. (Examples: coating to substrate, co-extruded materials, etc.) Dynamic Seal Type Location Tests Required Closure Mounted, Uncoated Body Mounted, Uncoated Trim Mounted, Uncoated Door, Hood, Lift-gate, Deck-lid Flange Cowl/Leaf Screen, Rocker, Cladding 3.6.1 - 3.6.9, 3.6.11 (3.6.4 for metal carr

25、ier only), 3.7, 3.10 3.15 Closure Mounted, Coated Body Mounted, Coated Trim Mounted, Coated Door, Hood, Lift-gate, Deck-lid Flange Cowl/Leaf Screen, Rocker, Cladding All. (3.6.4 for metal carrier only), Specific to coating: 3.6.8, 3.6.9, 3.6.10, 3.6.11, 3.8, 3.9 ENGINEERING MATERIAL SPECIFICATION WS

26、S-M9P9-C Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 4 of 14 (d) Any successful attempt to separate the components of coated and/or composite parts must result in cohesive failure only. Any adhesive failure will be cause for rejection. (e) For seals with metal

27、carriers, no visible corrosion or blistering is permitted. (f) For applications using hot melt sealant: After exposure, the loss of pull-off effort shall not exceed 25% of the original requirement stated in the dynamic sealing SDS, legacy DY-0004. Record original and after exposure pull-off efforts.

28、 When a seal assembly includes windlace/pinch weld retention systems additional samples shall be assembled to metal panels simulating production installation. All samples must be conditioned for 1 h +/- 5 minutes at 23 +/- 2 C and 50% R.H. prior to all assessments, unless otherwise specified. 3.6.1

29、Humidity Exposure (a), (b), (c), (d), (e), (f) (ASTM D2247, 14 d, 38 +/- 2 C, 95% to 100% R.H 100 mm long specimen, horizontal exposure) Note: Requirement 3.8 requires adhesion testing after humidity exposure. 3.6.2 Environmental Cycling Test (a), (b), (c), (d), (e), (f) (FLTM BQ 104-07, method 1, w

30、ithout CASS cabinet, 100 mm specimen, horizontal exposure) 4 cycles, each cycle shall consist of the following: 4 h at 100 +/- 2 C 4 h at 38 +/- 2 C, 95% to 100% R.H. 16 h at -40 +/- 2 C 4 h at 38 +/- 2 C, 95% to 100% R.H. 4 h at 100 +/- 2 C 16 h at -40 +/- 2 C Note: Requirement 3.8 requires adhesio

31、n testing after environmental cycling. 3.6.3 Cold Flexibility No cracks or breaks (FLTM BP 106-03,4 h at -40 +/- 2 C as examined with except carrier material, reference the unaided eye. ASTM D380 for apparatus) 3.6.4 Laboratory Accelerated Cyclic Corrosion (Only for parts containing metal carriers)

32、(Test Method 00.00-L-467, (formerly a CETP) 3.6.4.1 Closure Mounted Primary Seals or Must meet (e) Body Mounted Primary Seals, 9 weeks exposure. 3.6.4.2 Body Mounted Secondary Seals, Must meet (e) 6 weeks exposure. ENGINEERING MATERIAL SPECIFICATION WSS-M9P9-C Controlled document at www.MATS Copyrig

33、ht 2014, Ford Global Technologies, LLC Page 5 of 14 3.6.5 Ozone Resistance Rating 0 max (FLTM BP 101-01, Procedure B) No chalking or cracking visible at 2X magnification. 3.6.6 Heat Aging (ISO 188/ASTM D573) 3.6.6.1 Short Term: 22 h at 80 +/- 2 C Change in length +/- 0.5% max, (a), (b), (f) (Seals w

34、ith and without metal carrier), 100 mm long specimen, horizontal exposure For stand-alone dynamic seals that dont meet the above requirements, it is recommended that the dynamic seal(s) be tested simulating the production environment (Examples: sheetmetal flange, etc.). Note: Requirement 3.8 require

35、s adhesion testing after short term heat aging. 3.6.6.2 Long Term: 1000 h at 80 +/- 2 C (Use different specimens from 3.6.6.1) Change in length +/- 1.0% max, (a), (b), (f) (Seals with and without metal carrier), 100 mm long specimen, horizontal exposure For stand-alone dynamic seals that dont meet t

36、he above requirements, it is recommended that the dynamic seal(s) be tested simulating the production environment (Examples: sheetmetal flange, etc.). Note: Requirement 3.8 requires adhesion testing after long term heat aging. 3.6.7 Paint Staining 3.6.7.1 Simulated Paint Repair Rating 4 min (AATCC E

37、valuation Procedure 1/ISO 105-A02, Prepare paint panels per WSS-M33J7-A1 para 3.4, for Catalyzed Low Bake Repair) Test Method: Expose assembly at 120 +/- 2 C for 1 h. Cool to 23 +/- 2 C then remove the clamp. Separate the assembly by pulling apart rapidly by hand and rate the panel). Slight contact

38、stain is permitted. 3.6.7.2 Contact and Migration Staining of Paint Rating 4 min (FLTM BP 153-01, Procedure A & B) No visible stain or change in surface appearance produced on the painted panel beyond the boundaries of the test specimen. 3.6.8 Fluid Resistance Rating 4 min (FLTM BI 168-01, Method B)

39、 Additional fluids to include: Rubber Lubricant (ESE-M99B144-B), and soap and water referenced in FLTM BI 113-01. ENGINEERING MATERIAL SPECIFICATION WSS-M9P9-C Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 6 of 14 3.6.9 Resistance to Cleaning Agents Rating 4 min

40、(FLTM BN 107-01, Procedure C, 9N load AATCC Evaluation Procedure 1/ISO 105-A02) Cover the abrasion head with a double thickness of cloth with the fill direction parallel to the direction of rubbing. Note: A fresh sample of cloth must be used for each test. Install a 150mm section of seal so that it

41、is centered under the abrasion head. Clamp the baseplate to the bed of the crockmeter to prevent movement during the test. With the abrasion head resting on the seal, apply (to the cloth at the point where it contacts the seal) exactly 1 ml of the following: 1. Dry 2. Petroleum naphtha 3. Glass Clea

42、ner 4. Deionized Water 5. 1:1 ratio of Isopropyl Alcohol: Water 6. All Purpose Cleaner 7. Armor All Cleaner A hypodermic syringe or pipette may be used for this purpose. Subject the coated seal to 10 complete rubbing cycles (one cycle consists of one stroke of the abrasion head forward and back). Th

43、e time elapsed from the application of the solvent to the completion of the required cycles shall be not more than 20 s. Remove the seal and examine for coating removal and color change using the AATCC gray scale. 3.6.10 Resistance to Crocking Abrasion (for coated seals) (FLTM BN 107-01, Part C, Dry

44、 and Wet) 3.6.10.1 Dense Rubber Seals No visible coating failure at 2X magnification glass after 500 cycles 3.6.10.2 Sponge Rubber Seals No visible coating failure at 2X magnification glass after 300 cycles 3.6.10.3 Resistance to Soap and Water Crocking Abrasion The coating shall not be removed or s

45、how any adverse effects when rubbed 60 cycles, 9N load, with a cloth saturated with a 1 to 5 ratio of liquid soap (ESB-M1B9-A) to water. ENGINEERING MATERIAL SPECIFICATION WSS-M9P9-C Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 7 of 14 3.6.11 Abrasion Resistance

46、 Using a Vibration Test Rig (FLTM BP 119-01, Method B, 100 mm long specimen) Paint panel film build should be representative of the seal location in the vehicle (i.e. basecoat only for hood seals). Test Method: (Grit Solution) Apply 5 ml (1 tsp) of the grit solution at 0, 2500, 5000, and 6900 cycles

47、. Examine sealing surface for color coat wear through every 5,000 cycles. If no failure occurs at 50,000 cycles, test to failure or 100,000 cycles. Document number of cycles at which the seal has worn through the color coat. Requirement: (a) Dry (no grit solution): No visible wear-through on either

48、the paint panel or the seal after 20,000 cycles. No transfer of black rubber onto the panel after 20,000 cycles. (b) After application of grit solution: No visible wear-through on either the paint panel or the seal after 50,000 cycles. No transfer of black rubber onto the panel after 50,000 cycles.

49、Grit Solution: The grit solution is a mixture of dust, salt, and water. The amount of salt is equivalent to a 50% dilution of saturated salt water with fresh water. To prepare the mixture combine the following and mix completely. 65 g salt. 451 ml fresh water 13.5 g Arizona Test Dust (SAE Coarse ISO 12103-1, A4) or China Dust (FLTM BZ 106-01) based on region. For vehicles sold in: Arizona Test Dust China Test Dust FNA X FOE X FSA X FAPA X For facilities

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