FORD WSS-M15P32-D-2014 TRIM ASSEMBLY ENCLOSED LUGGAGE COMPARTMENT COVERING TO BE USED WITH FORD WSS-M99P1111-A .pdf

1、 ENGINEERING MATERIAL SPECIFICATION TRIM ASSEMBLY, ENCLOSED LUGGAGE WSS-M15P32-D COMPARTMENT COVERING 1. SCOPE The material defined by this specification is the minimum durability and performance requirements of all enclosed carpeted luggage or load compartment trim components where various material

2、s are combined to provide a trim assembly having decorative and/or functional features. This includes: rear seat back trim in enclosed luggage compartment applications, deck lid trim and spare tire covers (not for exposed load compartment applications). 2. APPLICATION This specification was released

3、 originally for material used as enclosed luggage compartment trim parts. 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). 3.1.1 Vehicle Interior Envi

4、ronment Quality Materials/Component Performance Requirements Materials used in interior applications must meet the requirements outlined in WSS-M99P2222-D1/latest. Data for the component shall be performed at the appropriate program milestone. 3.1.2 In addition to the requirements listed herein, the

5、 individual carpet assembly components shall meet all the requirements of the applicable material specifications for the carpet, padding, adhesive, barrier, or trim application as well as any functional/SDS requirements as outlined by Engineering. 3.2 SAMPLE SELECTION See Table 1 and 2 for sample si

6、ze and testing requirements. When production test specimens are taken from an area in the carpet with padding, the padding should be stripped away as much as possible before evaluation, unless otherwise specified. 3.3 APPEARANCE (FLTM BI 109-01) The color, pattern, and finish shall match the approve

7、d Design Center master sample, or shall be as specified on the Engineering Drawing. 3.4 PHYSICAL PROPERTIES 3.4.1 Shrinkage, Water 2.0% max (FLTM BN 105-01) WMD and AMD Date Action Revisions Rev. 1 2014 07 24 Revised See Summary of Revisions L. Sinclair, NA 2011 10 17 Activated Replaces WSS-M15P32-C

8、 L. Sinclair NA, J. Williams, Eu Controlled document at www.MATS Copyright 2014, Ford Global Technologies, LLC Page 1 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D 3.4.2 Shrinkage, Heat 2.0% max (FLTM BN 105-01, except instead of water Use 7 days at 80 +/- 2 C) WMD and AMD 3.4.3 Dimensional

9、Stability 2.0% max (FLTM BN 105-03, 2 cycles) WMD and AMD 3.4.4 Resistance to Mildew The material shall exhibit no visible evidence of mildew growth and/or objectionable odor after 7 days exposure in a humidity cabinet maintained at 98 +/- 2 % relative humidity and 38 +/- 2 C. Use a sample size of 1

10、00 x 100 mm. 3.4.5 Stretch and Set (for cut and sew seat back applications only) (SAE J855) WMD No loss of adhesion, color change, wrinkling or de lamination is allowed at the completion of the test. There shall be no unacceptable odor after completion of the test. 2) Functionally/Dimensionally - no

11、 excessive expansion, shrinking, or warping that will interfere with normal functional operations. No movement exceeding what is required on the Engineering drawing from the original installed position during or after the test. No movement exceeding the general tolerance on the drawing for the compo

12、nent unless otherwise stated on the Engineering Drawing. For initial construction approval run evaluation on plaques 300 mm by 300 mm in size. No more than 2% expansion or contraction in any direction on the plaque. 3.7.2 Long Term Heat Exposure (See sample preparation, measurement technique and tes

13、t procedure from 3.7.1) 7 days at 80 C +/- 2 C Requirements: The trimmed assemblies shall remain relatively unaffected by the exposure cycles during and after the tests as demonstrated: 1) Tactually/visually - (AATCC Procedure 1, Rating 4, min); No loss of adhesion, color change, wrinkling or de lam

14、ination is allowed at the completion of the test. There shall be no unacceptable odor after completion of the test. 2) Functionally/Dimensionally - no excessive expansion, shrinking, or warping that will interfere with normal functional operations. No movement exceeding what is required on the Engin

15、eering drawing from the original installed position during or after the test. No movement exceeding the general tolerance on the drawing for the component unless otherwise stated on the Engineering Drawing. For initial construction approval run evaluation on plaques 300 mm by 300 mm in size. No more

16、 than 2% expansion or contraction in any direction on the plaque. 3.7.3 Cold Impact (Floor Components Only) (Age 24 h at 80 +/- 2 C, then condition for 5 h at - 30 C) Rubber Ball 4.5 kg weight, 127 mm dia 60 +/- 5, Durometer “A“, (ISO 686/ASTM D 2240) Mount the portion of the assembly to be tested o

17、n an actual or simulated production support foundation with the approved retention methods. Condition the sample then remove from the cold box and immediately (within 10 seconds), drop the rubber ball from a height indicated below in the most adverse locations as noted on the Engineering Drawing. Wi

18、thin the next 110 seconds, remove the trim from the actual or simulated production support foundation and evaluate. (See section 4 for rubber ball supplier contact information). Copyright 2014, Ford Global Technologies, LLC Page 4 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D Drop Height 610

19、 mm The assembly shall show no evidence of cracking or breaking after the ball drop test or removal from the support foundation and shall fully recover from indentation caused by the ball drop test in the time required for the assembly to return to 23 +/- 2 C. 3.7.4 Adhesion of Cover Material to Sub

20、strate (ASTM D 413, Machine Method, Strip Specimens Type A, sample size 200 x 50 mm, avg. 4 samples, jaw speed 305 mm/minute.) Original 10 N min Cycled 7 N min (Short Term Environmental Cycling para. 3.7.1) Heat 7 N min (Long Term Heat Exposure para. 3.7.2) Test Method: The above method is to be emp

21、loyed for all dielectric, heat or adhesively bonded materials. Individual bond lines less than 25 mm must also meet the above minimum requirements when computed on a per mm basis. Special bonded sections such as corrugated design, etc., as well as extra wide bonded areas exhibiting low prorated bond

22、 strength values may be accepted provided they have been approved by the Materials Engineering Activity. 3.8 FOGGING 3.8.1 Photometric 70 min (SAE J1756, 3 h at 100 C heating, 21 C cooling plate, post test conditioning 16 h) Formation of clear film, droplets or crystals is cause for rejection. 3.9 O

23、DOR (FLTM BO 131-03, Variant B or C) Report variant used Condition 1 Rating 3 max Condition 2 Rating 3 max Condition 3 Rating 3 max 3.10 FLAMMABILITY (SAE J369/ISO 3795) Burn Rate 100 mm/minute max 4. GENERAL INFORMATION This information given below is provided for clarification and assistance in me

24、eting the requirements of this specification. Contact for questions concerning Engineering Material Specifications. Copyright 2014, Ford Global Technologies, LLC Page 5 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D Rubber Ball Contact Information Dave Clow, Schap Specialty Machine, Inc 173

25、09 Taft Street Spring Lake, Mi 49456 Ph: (616)846-6530 5. SUMMARY OF REVISIONS 2014 07 24 Updated WSS-M99P2222-D1 requirement Added stretch and set for seating applications. Added samples size to resistance to mildew and heat aging. Updated long term and short term environmental test method and req

26、uirements Removed gravimetric fogging Added variant and conditions to odor Updated ball supplier Updated tables 1 and 2, added notes to the bottom of table 2. 2011 10 17 Added WSS-M99P2222-C2/Latest. Added water shrinkage (3.4.1), heat shrinkage (3.4.2) and dimensional stability (3.4.3). Changed Fib

27、er deterioration from tape pull to taber evaluation after UV exposure. Heat aging changed from 90 C to 80 C. Added Appendix 1 and 2 for pass/fail criteria for snag and taber. Changed short term heat aging from -40 C to 30 C. Clarified the cold impact testing requirement and added rubber ball contact

28、 information in section 4. Added gravimetric fogging Updated odor from BO 131-01 to BO 131-03 Added Table 1 for testing requirements/ sample size. Suffix bumped to D and replaces WSS-M15P32-C Copyright 2014, Ford Global Technologies, LLC Page 6 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D T

29、ABLE 1: Non Molded Testing Requirements New Construction (New Face Fiber and Backing)* New Backing Only * New Face Fiber Weight Only * New Color Only (MCDCC) 3.3 Appearance 1 1 1 3.4.1 Water Shrinkage 1 1 3.4.2 Heat Shrinkage 1 1 3.4.3 Dimensional Stability 1 1 3.4.4 Resistance to Mildew 1 1 3.4.5 S

30、tretch and Set (Seating Only) 3 per condition 3 per condition 3 per condition 3.5.1 Fade 1 1 3.5.2 Fiber Deterioration 1 1 1 3.5.3 Heat Aging 1 1 3.5.4 Bleeding 1 1 3.5.5 Resistance to Crocking 1 1 3.5.6 Soiling and Cleanability 1 percondition 1 per condition 3.6.1 Resistance to Abrasion 3 3 3 3 3.6

31、.2 Resistance to Snagging 3 3 3 3.7.1 Short Term Environmental Cycling 1 3.7.2 Long Term Heat 1 3.8.1 Photometric Fogging (plates) 1 1 1 3.9 Odor 1 per condition 1 per condition 1 per condition 3.10 Flammability* 5 5 5 *New construction is defined as new fiber supplier or new denier and new backing

32、type/weight. * Indicates that the face fiber and weight of fiber has been approved to the given Material Specification. * Indicates that the backing and denier/supplier has been approved to the given Material Specification. Change in face fiber weight only. *Sample size is Burn Rate dependent. Where

33、 flammability is required FMVSS 302 can be used instead of the ISO method. Tests italicized in the table must have samples reviewed and kept by Materials Engineering for construction package approval. Copyright 2014, Ford Global Technologies, LLC Page 7 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M

34、15P32-D Table 2: Molded / Composite Testing Component Level DV Component Level PV 3.3 Appearance 3.4.1 Water Shrinkage 1 1 3.4.2 Heat Shrinkage 1 1 3.4.3 Dimensional Stability 1 1 3.4.4 Resistance to Mildew 1 3.4.5 Stretch and Set (Seating only) 3 per condition 3 per condition 3.6.1 Resistance to Ab

35、rasion 3 3 3.6.2 Resistance to Snagging 3 3 3.7.1 Short Term Environmental Cycling 1 1 3.7.2 Long Term Heat 1 1 3.7.3 Cold Impact 1 1 3.7.4 Adhesion of Cover Material to Substrate 3 per condition 3 per condition 3.8.1 Photometric Fogging (plates) 1 1 3.9 Odor 1 per condition 1 per condition 3.10 Fla

36、mmability* 5 5 *Sample size is Burn Rate dependent. Where flammability is required FMVSS 302 can be used instead of the ISO method. * No surrogate test data is allowed for PV. Copyright 2014, Ford Global Technologies, LLC Page 8 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D Appendix 1: Abras

37、ion Acceptance Criteria Figure 1: Acceptable abrasion sample. Figure 2: Unacceptable abrasion sample. Copyright 2014, Ford Global Technologies, LLC Page 9 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D Figure 3: Unacceptable abrasion sample. Copyright 2014, Ford Global Technologies, LLC Page 10 of 11 ENGINEERING MATERIAL SPECIFICATION WSS-M15P32-D Appendix 2: Snag Acceptance Criteria. Figure 4: Acceptable snag sample. Figure 5: Unacceptable snag sample. Copyright 2014, Ford Global Technologies, LLC Page 11 of 11