introduction of related testing standards of qualicoat ...iso 4628-2,1$(, 242 s2 3 6 &5,...
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Introduction of related testing standardsof Qualicoat�Qualanod
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Hangzhou IFO Quality Testing Co., Ltd (hereinafter referred to as IFO China) is a subsidiary of German IfO Institut für Oberflaechentechnik GmbH (recognized registration number: D-PL-11086-01-00) in China, which is currently the only authorized third-party laboratory to carry out European quality standards for aluminum-QUALICOAT and QUALANOD inspection and testing in China. Our German laboratory is the only one authorized third-party testing laboratory by AAMA, GSB, QUALICOAT , QUALISTEELCOAT and QUALIDECO in the world.
IFO China is an independent third party testing laboratory, recognized by China National Accreditation Service for Conformity Assessment (Registration Number CNAS L7640). We are specialized in coating test of metal and non-metallic materials.
9)�-=�P��5S��4.�IfO Institut für Oberflaechentechnik GmbHW��A��ZD-PL-11086-01-00X��G�"��Y�4H�������#31�+,'=B��8L6�C�P�/QUALICOAT���8R:?��P�/QUALANOD*�� �����GJ�3�%V0��.�G�%4E��O�AAMA, GSB, QUALICOAT, QUQLISTEELCOAT � QUALIDECOKNUFM��!�P�����G�%V9)�-=�P��5S��4 5DI@��<GJ�3�>��7;YO����<�$�&�� ���WA�� CNAS L7640XY4����Q(�TQ(82NUC��P��G����7;V
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Introduction of laboratory
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IFO China is a QC approved testing institute
http://www.qualicoat.net/main/qualisurfal/testing-institutes-bodies.html
Introduction of laboratory
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Introduction of laboratory
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Introduction of laboratory
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lQualicoat �����lQualanod �����
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Qualicoat �����
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Qualicoat �����
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ISO 2813:2014- ���60 ���� 1 � 0-30 +/- 5 ���� 2 � 31-70 +/- 7 ���� 3 � 71-100 +/- 10 ���
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ISO 1520:20061hiA�ISO 1520:20061.5,2,3hiA�ISO 1520 �'BH�4�,Zn0t\PyGU[$Qq��dd( $Q�����R�e�8LO�1����]wW6~(.GU�[n09��1..G#V&(&,'&,X" l�J���=��)���Q/� �J���*�Y4[�g�+�G#[��:x�2..�*[�Y4�g�Kc0.1mm-0.3mm[7~; yE�]p{�v,S25mm�T��}%���3.'-��Zm_IFyE[Q/>!3r�1C��b�
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15. ISO 2810
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- ΔE CIELAB ISO 11664/4 - D65 10
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16. Machu<N�TIKNZ��%,� 2AA6060+HAA6063�=;��*YC�C'��?J!2�$G15FE�����NZB>�8�W� 50 � 1�/��U��VU� � 10 � 15�/�R7�6� 30 � � � 5 � 15�/�A)� 37 º � 1 ℃<N/X� 48 � 0.5&/<NB>EpH 03.0 -3 .3, 24&/���#(L���R7�655�/4�(R7�630 �) �pH �C�VU+67�WO-�43NZ*Y�"C.E<NB>�
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17.ISO 4623-2
± 10mm 2 (1 0,l)mm30mm 10mm 50mm
1037% 1.18g/cm3
40 2℃ 82 5%1000
10cmL ≤ 4mmA ≤ 30mm2
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17. G6.9Q43- �=I60℃@B0�C�6@<2�<2@6"0+'��P;$���43": 6���&V�%�O43<2#R*N��60�1℃�:824�/�<2UR0MA�T56�@K��9QF1��43"D�����?E �!6��H,(�WJ���ΔE�ΔL@9S)>ISO 11664-4�The demineralised water shall be heated up to 60℃in a beaker of the proper size and kept under stirring to uniform temperature.The test panels shall be immersed for a half in water. Care must be taken not to put the panel in contact with the bottom of the beaker.The panel shall be immersed for 24 hours at 60�1℃. The glass shall be properly covered to avoid water evaporation.At the end of the test, the panel shall be immediately cooled down in demineralisedwater. It shall then be dried with paper towels without rubbing.Colour change: ΔE and ΔL CIELAB formula according to ISO 11664-4,measurement including specular reflection.
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Mass loss test with predip2���/+3This test assesses the ability of the surface of an anodic oxidation coating to resist chemical attack by an acid.,+3*�0����#(1��.#��&#%��
This test shall be carried out as specified by ISO 3210:2010 method 2 using test solution B, phosphoric acid, and which includes the prior acid treatment in a nitric acid solution, but with changes to the procedure as specified below. ,+3��!ISO 3210��2#)�-'�,����$. ��-'2�#.�"�
Sealing tests� �+
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Resistance to wear / abrasionpj/pj>
Principle �_The test is based on Mohs’s principle that a substance will be scratched only by a material harder than itself. The surface abrasion resistance of an anodic coating is evaluated by using a glass-coated abrasive paper to determine whether or not the coating is harder than the glass-coated abrasive paper. It is a test for anodic film quality. |Y{*�vUc����]~xT�M�IhcNE��� ���b^`Z4cfmOz �PV�Z3cw�pj:�i0Z3G!T^`Z4cfmIh� /xbOY{V�r~��
Scope u%The test is applicable to anodic oxidation coatings produced by sulfuric acid-based anodizing. It is not applicable to anodic oxidation coatings produced by hard anodizing or integral colouring methods. |{��b���g��PV��,c�PV�Z3�/��b���h~�PV�=D�etFW�ac�PV�Z3�
Apparatus�$Validated glass-coated abrasive paper. It should be used as strips 12 mm wide and 150 to 200 mm long. Note that the paper should be kept in a warm, dry place. n�yc^`fm� /6|J12 mm1�150�200 mm�� }X<�m86�.'[H�5\c(F�Glass-coated abrasive paper can be validated by testing it using standard specimens. Type P standard specimens pass the test using valid paper while type F standard specimens fail the test using valid paper. Qualanod can provide information on sourcing standard specimens. ^`Z3fm����bQ�R#Y{O�y� P)Q�R#��JCmcY{�oF)Q�R#L��JCmcY{�Qualanod�?�J���Q�R#c�;�Resilient support for the paper during the test, 6 mm to 8 mm thick and approximately 30 mmwide and 40 mm long. The hardness of the support shall be 30 to 70 International RubberHardness Degrees (IRHD). A rubber or soft-plastic pencil eraser can be suitable. 'Y{K�2m8c9:B@�6mms8mm��-l30mm1"40mm�� B@�ch76�30s70&�Sqh7�IRHD�� Sq=�+E�kSdAG �cB@�
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Test specimen MhG�The test specimen normally consists of a production article (or part thereof), which has been fully processed and is clean and dry. If the test specimen is a production article (or part thereof), the test shall be performed on a significant surface. hGm*V)_%6�(.�@,��,OW���7��n��� $EhG@���7��n����hr/ A>eq�kd�
Test method Mh?LWrap the glass-coated paper round the resilient support with the abrasive side outwards and lying across the narrow part of the block as shown in Figure 2. Hold the paper tightly in place as shown and pressing the abrasive strip firmly against the anodic oxide surface, make 10 double strokes (one double stroke is one passage backwards and forwards across the test area) with an amplitude of 25-30 mm. It is important that the abrasive paper lies flat on the anodic oxide surface. After 10 double strokes examine the part of the abrasive paper which has been in contact with the anodic oxidation coating.$�28[�&ST^a` 24<;���YZ��#�.Ii<;WR\n��$�8[&^1]]!=b l3 b�&YZBP�!� pDK�eq�� �+025-30mmW10JC���JC�@mjMh�"WC���� ofW@�X^-= pDK�Qeq�� 10JC���HF�pDK�N':gWX^n��
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Resistance to wear / abrasioncZ/cZ9
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If the anodic oxidation coating is harder than the abrasive, the paper slips easily across the surface and the coating is merely burnished. If the abrasive is harder than the coating, a definite resistance is felt as the abrasive bites into the coating. The coating is degraded and a significant quantity of dense, chalky white powder is deposited on the abrasive paper (Fig. 3a) )O�NS�X1Relf��l7-F$r��Y��{�X1��s=�� )OelRX1f�8gC"�X1E�<t��,c���X1sg@�5(}cn.cbojJUi$el��#3a�Fig 3. Photographs of specimens of glass-coated abrasive paper specimens exhibiting: a) a dense, chalky white powder deposit; b) a light powder deposit. #3.]_elA>vP!cZ[�Gh�a�n.cbojJUi\; b�0ujJUi\�
light powder deposit (Fig. 3b), not filling completely all the spaces between the abrasive particles, can indicate the removal of a very thin, superficial sealing smut. If in doubt, wipe the tested area clean with a dry cloth, locate a fresh area of abrasive paper round the support and test again in the original area. 0ujJUi\�#3b��+�'�$gC�k �� �?h���3qcr�/*Tz� )OIa~�w`42A>Wv�&�|D�`��D�el�&�5$�Lc�&�QWv�Note. It can be helpful to test a vertical surface so that any loose abraded particles fall awayand do not themselves cause abrasion. V;� Wv%dcr�H^:��9��MBcg@�kp�5Ky6xg@�
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