ANSI BHMA A156.18-2000 pdf download

ANSI BHMA A156.18-2000 pdf download

ANSI BHMA A156.18-2000 pdf download.AMERICAN NATIONAL STANDARD FOR MATERIALS AND FINISHES
3.1.2  Components without surfaces which  are  compatible with the prescribed test methods, shall use  a finished flat test panel  using substrate of the same base material of the actual product or component. The flat x  95  mm)  and shall  be  0,064  f  0.004  in  (1.6  f  panels shall have a  minimum  exposed  area  of  2.50  x 3.75  in  (64 0.1 mm) thick. other materials are permitted to  be specified by the affected  ANSI  Al 56 product standards.
3.2  Salt  Spray  Test.
This test shall be conducted in accordance with ASTM  B 1 17‑95 Standard Method  of Salt Spray  (Fog)  Testing.  Parts shall  withstand  exposure  for  the time specified in the applicable ANSVBHMA A156 Series Standard without base material or substrate corrosion exceeding one spot visible to the unaided eye per one square inch  (25.4  square mm) of significant surface and without any spot larger than 1/16  in  (1.6  mm)  in diameter. Staining shall not exceed 5% of the significant surface area of the 114 in. (6.4  mm)  in diameter.  component under test and without any spot larger  than 5%  relative humidity at 100
3.3  Humidity Test.
This  test  shall be conducted in a chamber having a  95%  f 5 degrees (38 degrees C  f  3 degrees) for the times specified in the applicable ANSI/BHMA  degrees F  f A 156 Series Standard. The parts shall be allowed to stabilize at room temperature for 30 minutes before they are examined. Blistering or staining of the  part  shall not be visible to the unaided eye. The coating shall, within  an  additional 15 minutes, pass a pencil  hardness  test (see 3.4) as specified in the applicable ANSVBHMA A156 Series Standard and shall pass the method B Cross‑Cut Tape Test  as  defined in ASTM D  3359‑95A Method for Measuring Adhesion by Tape Test. The rating  shall be as specified in the applicable ANSVBHMA A156 Series Standard.
3.5 Perspiration Test.
This test shall be conducted using a reagent made up by weight of 5% sodium chloride, 5% acetic acid, 3% butyric acid, 3% valeric acid and 84% distilled water which is less than one year old and has been stored at 40 degree F+5 degrees F (4 degrees C+3 degrees C). An epoxy dam shall be used to contain the solution over an area between % and 1 square in. (323 and 645 square mm) with a minimum solution depth of 1/16 in. (1.6 mm). Apply the reagent; let stand for 15 minutes and wash off with cold water. The coating shall then pass a pencil hardness test in accordance with 3.4 using a pencil lead of 2B hardness. This constitutes one cycle. Repeat on the same area the number of cycles specified in the applicable ANSI/BHMA A156 Series Standard. 3.6 Abrasion Resistance Test. The surface of protective or decorative surface treatments shall be subjected to the Abrasion Resistance Test in accordance with ASTM D968-93 Test Method for Abrasion Resistance of Organic Coatings by Falling Abrasive. The quantity of falling sand or silicon carbide and other values shall be as specified in the applicable ANSI/BHMA A156 Series Standard.
3.7 Ultraviolet Light and Condensation Test.  This  test shall be conducted in accordance with ASTM  G 53‑96 Standard Recommended Practice for Operating Light and Water Exposure Apparatus (Fluorescent UV‑Condensation Type) for Exposure of Nonmetallic Materiais except  as follows. For products having only interior exposure, use UVA‑351 lamps. For  all  other products, use UVA‑340 lamps. The test cycles and Three test specimens shall be  duration shall  be  specified in the applicable  ANSIIBHMA  A156 Series  Standards. tested for each finish and one additional specimen shall  be  retained for comparison at the end of the test. For coatings used on multiple base materials, testing of  only  one material is required. The retained specimen shall be  stored  in a controlled environment and protected fiom  UV  exposure.  Start  the test at the beginning of a  Wcycle and end it at the conclusion of a condensation cycle. ANSI BHMA A156.18-2000 pdf download

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