Pretreatment agent and chemical conversion treatment agent
11965247 ยท 2024-04-23
Assignee
Inventors
Cpc classification
C23C22/361
CHEMISTRY; METALLURGY
C25D13/22
CHEMISTRY; METALLURGY
C23C22/68
CHEMISTRY; METALLURGY
C23C22/80
CHEMISTRY; METALLURGY
B32B15/01
PERFORMING OPERATIONS; TRANSPORTING
C23C22/06
CHEMISTRY; METALLURGY
International classification
C23C22/80
CHEMISTRY; METALLURGY
C23C22/06
CHEMISTRY; METALLURGY
Abstract
The present invention addresses the problem of providing, a metal surface treatment agent capable of exhibiting excellent corrosion resistance and excellent coating adhesion in painted metal materials; and a metal surface treatment method using the metal surface treatment agent. The problem is solved by a pretreatment agent that is used in a pretreatment of a chemical conversion treatment performed for forming a chemical conversion coating on/over a surface of a metal material, the pretreatment agent containing: a metal alkoxide (A) containing at least one metal element selected from zirconium, titanium, vanadium, and aluminum; and at least one sulfonic acid (B) selected from methanesulfonic acid, ethanesulfonic acid, hydroxymethanesulfonic acid, and hydroxyethanesulfonic acid. The problem is also solved by a chemical conversion treatment agent that contains a zirconium alkoxide (a) and a zirconium-containing ion supply source (b), and has a pH of 1.5 to 6.5.
Claims
1. A pretreatment agent, used as an agent in a pretreatment of a chemical conversion treatment performed for forming a chemical conversion coating on/over a surface of a metal material, comprising: a metal alkoxide (A) containing at least one metal element selected from the group consisting of zirconium, titanium, vanadium, and aluminum; at least one sulfonic acid (B) selected from the group consisting of methanesulfonic acid, ethanesulfonic acid, hydroxymethanesulfonic acid, and hydroxyethanesulfonic acid, and at least one alkoxysilyl group-containing organosilane compound (C), wherein, when a metal-equivalent molar concentration of the metal alkoxide (A) is defined as A.sub.M and a molar concentration of the sulfonic acid contained in the pretreatment agent is defined at B.sub.M, a molar concentration of [B.sub.M]/[A.sub.M] is 2.0 or higher.
2. A method of producing a metal material, comprising a pretreatment step of contacting the pretreatment agent according to claim 1 on/over a surface of a metal material.
3. The method of producing a metal material according to claim 2, further comprising, a chemical conversion treatment step of forming a chemical conversion coating over the surface of the metal material, after the pretreatment step.
4. The method of producing a metal material according to claim 3, wherein the chemical conversion treatment step comprises a step of contacting a chemical conversion treatment agent, comprising a zirconium alkoxide (a) and a zirconium-containing ion supply source (b) and having a pH of 1.5 to 6.5, with the metal material.
5. A metal material having a chemical conversion coating, obtained by the method according to claim 3.
6. A method of producing a painted metal material, further comprising a painting step of painting the metal material, after the chemical conversion treatment step according to claim 3.
7. A painted metal material having a paint film, the paint film comprising over a surface of the metal material having a chemical conversion coating according to claim 5.
Description
EXAMPLES
(1) The present invention will now be described more concretely by way of Examples and Comparative Examples. It is noted here, however, that the present invention is not restricted by the following Examples.
Example I
(2) [Production of Painted Metal Materials]
(3) <Metal Materials>
(4) As metal materials, a cold-reduced mild steel sheet prescribed in JIS G3141:2011 (SPCC: thickness=0.8 mm), a hot-dip zinc-coated steel sheet prescribed in JIS G3302:2012 (SGCC: thickness=0.8 mm), an alloyed hot-dip zinc-coated steel sheet prescribed in JIS G3302:2012 (SCGA: thickness=0.8 mm), an electrolytic zinc-coated steel sheet prescribed in JIS G3313:2010 (SECC: thickness=0.8 mm), a hot-rolled mild steel sheet prescribed in JIS G3131:2011 (SPHC: thickness=1.8 mm), an aluminum alloy sheet prescribed in JIS H4000:2014 (A6061: thickness=0.8 mm) and a rolled steel for general structure prescribed in JIS G3101:2015 (SS400: thickness=2.3 mm), which were each cut into a size of 70 mm?150 mm, were used. In the below-described evaluations of painted metal materials, the surface of each metal material on which a burr was generated on the edge was evaluated. The burr generated in this process had a height of about 100 ?m.
(5) <Degreasing Treatment of Metal Materials>
(6) The metal materials were immersed in an alkali degreasing agent [an aqueous solution obtained by mixing agents A and B of FINE CLEANER E2093 (manufactured by Nihon Parkerizing Co., Ltd.) with water at concentrations of 13 g/L and 11 g/L, respectively] at 45? C. for 2 minutes to remove oil and dirt from the surface of each metal material. Then, the surface of each metal material was washed with water.
(7) <Preparation of Pretreatment Agents>
(8) Pretreatment agents of Examples 1 to 71 and Comparative Examples 1 and 2 were each prepared by adding components to water at the respective prescribed molar concentrations as shown in Table 1 and subsequently adjusting the resultant to have a prescribed pH using methanesulfonic acid or an aqueous sodium hydroxide solution.
(9) In the preparation of the pretreatment agents, the following components were used as a metal alkoxide (A), a sulfonic acid component (B) and an organosilane compound (C). In addition, the below-listed contaminant components were used. A1: zirconium tetra-n-propoxide (ORGATIX ZA-45, manufactured by Matsumoto Fine Chemical Co., Ltd.) A2: zirconium tetra-n-butoxide (ORGATIX ZA-65, manufactured by Matsumoto Fine Chemical Co., Ltd.) A3: zirconium tetraisopropoxide (manufactured by Wako Pure Chemical Industries, Ltd.) A4: titanium tetraisopropoxide (ORGATIX TA-8, manufactured by Matsumoto Fine Chemical Co., Ltd.) A5: titanium tetra-n-butoxide (ORGATIX TA-21, manufactured by Matsumoto Fine Chemical Co., Ltd.) A6: vanadium oxyisopropoxide (VIP, manufactured by Nichia Corporation) A7: aluminum tri-s-butoxide (AL-3001, manufactured by Matsumoto Fine Chemical Co., Ltd.) B1: methanesulfonic acid (methanesulfonic acid, manufactured by Tokyo Chemical Industry Co., Ltd.) B2: ethanesulfonic acid (ethanesulfonic acid, manufactured by Tokyo Chemical Industry Co., Ltd.) B3: hydroxymethanesulfonic acid (hydroxymethanesulfonic acid, manufactured by Tokyo Chemical Industry Co., Ltd.) C1: N-2-(aminoethyl)-3-aminopropyltrimethoxysilane (KBM-603, manufactured by Shin-Etsu Chemical Co., Ltd.) C2: N-2-(aminoethyl)-3-aminopropylmethyldimethoxysilane (KBM-602, manufactured by Shin-Etsu Chemical Co., Ltd.) C3: 3-aminopropyltrimethoxysilane (KBM-903, manufactured by Shin-Etsu Chemical Co., Ltd.) C4: 3-aminopropyltriethoxysilane (KBE-903, manufactured by Shin-Etsu Chemical Co., Ltd.) C5: 3-glycidoxypropyltriethoxysilane (KBE-403, manufactured by Shin-Etsu Chemical Co., Ltd.) C6: 3-glycidoxypropyltrimethoxysilane (KBM-403, manufactured by Shin-Etsu Chemical Co., Ltd.) C7: 3-glycidoxypropylmethyldimethoxysilane (KBM-402, manufactured by Shin-Etsu Chemical Co., Ltd.) C8: tetraethoxysilane (KBE-04, manufactured by Shin-Etsu Chemical Co., Ltd.) C9: phenyltriethoxysilane (KBE-103, manufactured by Shin-Etsu Chemical Co., Ltd.) Fe of contaminant component: iron nitrate enneahydrate (manufactured by Junsei Chemical Co., Ltd., reagent, Grade 1, oxidation number of iron is 3) Al of contaminant component: aluminum nitrate enneahydrate (manufactured by Junsei Chemical Co., Ltd., reagent, Grade 1) Zn of contaminant component: zinc nitrate hexahydrate (manufactured by Junsei Chemical Co., Ltd., reagent, Grade 1)
(10) TABLE-US-00001 TABLE 1 Preparation of pretreatment agent Pretreatment agent (A) (B) (C) Added Added Added Added amount Added amount [B.sub.M]/ Added amount Added Example No. type [mmol/L] type [mmol/L] [A.sub.M] type1 [mmol/L] type2 Example 1 A1 0.1 B1 0.2 2.0 Example 2 A1 0.1 B1 0.25 2.5 Example 3 A1 0.1 B1 0.3 3.0 Example 4 A1 0.1 B1 1 10.0 Example 5 A1 0.1 B2 0.3 3.0 Example 6 A1 0.1 B3 0.3 3.0 Example 7 A1 0.005 B1 0.015 3.0 Example 8 A1 0.01 B1 0.03 3.0 Example 9 A1 0.05 B1 0.15 3.0 Example 10 A1 2 B1 6 3.0 Example 11 A1 0.1 B1 0.3 3.0 C8 0.1 Example 12 A2 0.1 B1 0.3 3.0 C8 0.1 Example 13 A3 0.1 B1 0.3 3.0 C8 0.1 Example 14 A4 0.1 B1 0.3 3.0 C8 0.1 Example 15 A5 0.1 B1 0.3 3.0 C8 0.1 Example 16 A6 0.1 B1 0.3 3.0 C8 0.1 Example 17 A7 0.1 B1 0.3 3.0 C8 0.1 Example 18 A1 0.1 B2 0.3 3.0 C8 0.1 Example 19 A1 0.1 B3 0.3 3.0 C8 0.1 Example 20 A1 0.1 B1 0.2 2.0 C8 0.1 Example 21 A1 0.1 B1 0.25 2.5 C8 0.1 Example 22 A1 0.1 B1 0.4 4.0 C8 0.1 Example 23 A1 0.1 B1 0.8 8.0 C8 0.1 Example 24 A1 0.005 B1 0.015 3.0 C8 0.005 Example 25 A1 0.01 B1 0.03 3.0 C8 0.01 Example 26 A1 0.05 B1 0.15 3.0 C8 0.05 Example 27 A1 0.5 B1 1.5 3.0 C8 0.5 Example 28 A1 2 B1 6 3.0 C8 2 Example 29 A1 4 B1 12 3.0 C8 4 Example 30 A1 0.1 B1 0.3 3.0 C1 0.1 Example 31 A1 0.1 B1 0.3 3.0 C2 0.1 Example 32 A1 0.1 B1 0.3 3.0 C3 0.1 Example 33 A1 0.1 B1 0.3 3.0 C4 0.1 Example 34 A1 0.1 B1 0.3 3.0 C5 0.1 Example 35 A1 0.1 B1 0.3 3.0 C6 0.1 Example 36 A1 0.1 B1 0.3 3.0 C7 0.1 Example 37 A1 0.1 B1 0.3 3.0 C9 0.1 Example 38 A1 0.1 B1 0.3 3.0 C8 0.01 Example 39 A1 0.1 B1 0.3 3.0 C8 0.02 Example 40 A1 0.1 B1 0.3 3.0 C8 0.25 Example 41 A1 0.1 B1 0.3 3.0 C8 0.4 Example 42 A1 0.1 B1 0.3 3.0 C8 0.5 Example 43 A1 0.1 B1 0.3 3.0 C8 0.8 Example 44 A1 0.1 B1 0.3 3.0 C8 1 Example 45 A1, A2 0.05 Each B1 0.3 3.0 C8 0.1 Example 46 A1, A4 0.05 Each B1 0.3 3.0 C8 0.1 Example 47 A1, A6 0.05 Each B1 0.3 3.0 C8 0.1 Example 48 A1, A7 0.05 Each B1 0.3 3.0 C8 0.1 Example 49 A1 0.1 B1 0.3 3.0 C1 0.05 C3 Example 50 A1 0.1 B1 0.3 3.0 C1 0.05 C5 Example 51 A1 0.1 B1 0.3 3.0 C1 0.05 C8 Example 52 A1 0.1 B1 0.3 3.0 C1 0.05 C9 Example 53 A1 0.1 B1 0.3 3.0 C3 0.05 C5 Example 54 A1 0.1 B1 0.3 3.0 C3 0.05 C8 Example 55 A1 0.1 B1 0.3 3.0 C3 0.05 C9 Example 56 A1 0.1 B1 0.3 3.0 C5 0.05 C8 Example 57 A1 0.1 B1 0.3 3.0 C5 0.05 C9 Example 58 A1 0.1 B1 0.3 3.0 C8 0.05 C9 Example 59 A1 0.1 B1 0.3 3.0 C1 0.033 C3 Example 60 A1 0.1 B1 0.3 3.0 C1 0.033 C3 Example 61 A1 0.1 B1 0.3 3.0 C1 0.033 C3 Example 62 A1 0.1 B1 0.3 3.0 C1 0.033 C5 Example 63 A1 0.1 B1 0.3 3.0 C1 0.033 C5 Example 64 A1 0.1 B1 0.3 3.0 C1 0.033 C8 Example 65 A1 0.1 B1 0.3 3.0 C3 0.033 C5 Example 66 A1 0.1 B1 0.3 3.0 C3 0.033 C5 Example 67 A1 0.1 B1 0.3 3.0 C3 0.033 C8 Example 68 A1 0.1 B1 0.3 3.0 C5 0.033 C8 Example 69 A1 0.1 B1 0.3 3.0 C8 0.1 Example 70 A1 0.1 B1 0.3 3.0 C8 0.1 Example 71 A1 0.1 B1 0.3 3.0 C8 0.1 Comparative example 1 A1 0.1 B1 0.3 3.0 Comparative example 2 A1 0.1 B1 0.3 3.0 C8 0.1 Pretreatment agent (C) Mixed components Added Added Added amount Added amount [C.sub.M]/ Added amount Example No. [mmol/L] type3 [mmol/L] [A.sub.M] type [mmol/L] pH Example 1 4 Example 2 4 Example 3 4 Example 4 4 Example 5 4 Example 6 4 Example 7 4 Example 8 4 Example 9 4 Example 10 4 Example 11 1.0 4 Example 12 1.0 4 Example 13 1.0 4 Example 14 1.0 4 Example 15 1.0 4 Example 16 1.0 4 Example 17 1.0 4 Example 18 1.0 4 Example 19 1.0 4 Example 20 1.0 4 Example 21 1.0 4 Example 22 1.0 4 Example 23 1.0 4 Example 24 1.0 4 Example 25 1.0 4 Example 26 1.0 4 Example 27 1.0 4 Example 28 1.0 4 Example 29 1.0 4 Example 30 1.0 4 Example 31 1.0 4 Example 32 1.0 4 Example 33 1.0 4 Example 34 1.0 4 Example 35 1.0 4 Example 36 1.0 4 Example 37 1.0 4 Example 38 0.1 4 Example 39 0.2 4 Example 40 2.5 4 Example 41 4.0 4 Example 42 5.0 4 Example 43 8.0 4 Example 44 10.0 4 Example 45 1.0 4 Example 46 1.0 4 Example 47 1.0 4 Example 48 1.0 4 Example 49 0.05 1.0 4 Example 50 0.05 1.0 4 Example 51 0.05 1.0 4 Example 52 0.05 1.0 4 Example 53 0.05 1.0 4 Example 54 0.05 1.0 4 Example 55 0.05 1.0 4 Example 56 0.05 1.0 4 Example 57 0.05 1.0 4 Example 58 0.05 1.0 4 Example 59 0.033 C5 0.033 1.0 4 Example 60 0.033 C8 0.033 1.0 4 Example 61 0.033 C9 0.033 1.0 4 Example 62 0.033 C8 0.033 1.0 4 Example 63 0.033 C9 0.033 1.0 4 Example 64 0.033 C9 0.033 1.0 4 Example 65 0.033 C8 0.033 1.0 4 Example 66 0.033 C9 0.033 1.0 4 Example 67 0.033 C9 0.033 1.0 4 Example 68 0.033 C9 0.033 1.0 4 Example 69 1.0 Fe 2 4 Example 70 1.0 Al 2 4 Example 71 1.0 Zn 2 4 Comparative example 1 4 Comparative example 2 4
(11) As shown in Tables 2-1 and 2-2, the below-described pretreatment, chemical conversion treatment, electrodeposition coating treatment and the like were performed on each of the metal materials subjected to the above-described degreasing treatment, whereby painted metal materials were produced. The details thereof are described below.
(12) <Pretreatment of Metal Materials>
(13) The metal materials subjected to the above-described degreasing treatment were immersed in the respective pretreatment agents shown in Table 1 (pretreatment agents of Examples 1 to 71 and Comparative Examples 1 and 2) at 25? C. for 30 seconds and thereby pretreated.
(14) <Preparation of Chemical Conversion Treatment Agents>
(15) As chemical conversion treatment agents, general zirconium chemical conversion treatment agent, titanium chemical conversion treatment agent, hafnium chemical conversion treatment agent, vanadium chemical conversion treatment agent, iron phosphate chemical conversion treatment agent, and zinc phosphate chemical conversion treatment agent were used.
(16) <Zirconium Chemical Conversion Treatment: Zr>
(17) The metal materials, which had been subjected to the pretreatment or only the degreasing treatment, were each immersed in a 50-g/L aqueous solution of a zirconium chemical conversion treatment agent (PALLUCID 1500, manufactured by Nihon Parkerizing Co., Ltd.) at 40? C. for 120 seconds to produce metal materials having a zirconium chemical conversion coating formed thereon.
(18) <Titanium Chemical Conversion Treatment: Ti>
(19) The SPCCs, which had been pretreated with the pretreatment agent of Example 11 or subjected to only the degreasing treatment, were each immersed in a chemical conversion treatment agent, which was prepared such that it contained hexafluorotitanic acid at a titanium-equivalent mass concentration of 0.1 g/kg, at 40? C. for 120 seconds to produce metal materials having a titanium chemical conversion coating.
(20) <Hafnium Chemical Conversion Treatment: Hf>
(21) The SPCCs, which had been pretreated with the pretreatment agent of Example 11 or subjected to only the degreasing treatment, were each immersed in a chemical conversion treatment agent, which was prepared such that it contained hexafluorohafnic acid at a hafnium-equivalent mass concentration of 0.1 g/kg, at 40? C. for 120 seconds to produce metal materials having a hafnium chemical conversion coating.
(22) <Vanadium Chemical Conversion Treatment: V>
(23) The SPCCs, which had been pretreated with the pretreatment agent of Example 11 or subjected to only the degreasing treatment, were each immersed in a chemical conversion treatment agent, which was prepared such that it contained ammonium metavanadate at a vanadium-equivalent mass concentration of 0.1 g/kg, at 40? C. for 120 seconds to produce metal materials having a vanadium chemical conversion coating.
(24) <Iron Phosphate Chemical Conversion Treatment: PFe>
(25) The SPCCs, which had been pretreated with the pretreatment agent of Example 11 or subjected to only the degreasing treatment, were each sprayed with an iron phosphate chemical conversion treatment liquid [a 50 g/L iron phosphate chemical conversion treatment liquid (PALFOS 1077, manufactured by Nihon Parkerizing Co., Ltd.)] at 50? C. for 120 seconds to produce metal materials having an iron phosphate chemical conversion coating.
(26) <Zinc Phosphate Chemical Conversion Treatment: PZn>
(27) The SPCCs, which had been pretreated with the pretreatment agent of Example 11 or subjected to only the degreasing treatment, were each immersed in a surface-adjusting treatment liquid [a 3-g/L surface-adjusting treatment liquid (PREPALENE X, manufactured by Nihon Parkerizing Co., Ltd.)] at 25? C. for 30 seconds and then in a zinc phosphate chemical conversion treatment liquid [a 50 g/L zinc phosphate chemical conversion treatment liquid (PALBOND SX35, manufactured by Nihon Parkerizing Co., Ltd.)] at 35? C. for 120 seconds to produce metal materials having a zinc phosphate chemical conversion coating.
(28) <Electrodeposition Coating Treatment of Metal Materials Having Chemical Conversion Coating>
(29) The metal materials having a chemical conversion coating formed by the respective chemical conversion treatment were washed with water, and 180-second constant-voltage cathodic electrolysis was subsequently performed using a cationic electrodeposition coating agent (GT-100, manufactured by Kansai Paint Co., Ltd.) with each metal material being set as a cathode, thereby allowing a paint film component to precipitate on the entire surface of each metal material. Thereafter, the metal materials were washed with pure water and then baked at 170? C. (PMT: highest temperature of each metal material during baking) for 20 minutes to produce painted metal materials No. 1 to 81 and No. 84 to No. 94, and the below-described evaluations were performed. Further, coating was also performed on the metal materials subjected to only the pretreatment in the same manner as described above to produce painted metal materials No. 82 and No. 83, followed by the below-described evaluations. It is noted here that the thickness of the resulting paint film on each painted metal material was adjusted to be 20 ?m.
(30) <Solvent Coating Treatment of Metal Materials Having Chemical Conversion Coating>
(31) The metal materials subjected to the zirconium chemical conversion treatment were washed with water, drain-dried at 100? C. for 20 minutes, and then air-spray-coated with a solvent coating material (MF COAT 300, manufactured by Kansai Paint Co., Ltd.). Thereafter, these metal materials were baked at 80? C. (PMT) for 20 minutes to produce painted metal materials No. 95 to No. 99. It is noted here that the resulting paint film thickness was adjusted to be 60 ?m.
(32) <Powder Coating Treatment of Metal Materials Having Chemical Conversion Coating>
(33) The metal materials subjected to the zirconium chemical conversion treatment were washed with water, drain-dried at 100? C. for 20 minutes, and then coated with a powder coating material (EVACLAD 2400, manufactured by Kansai Paint Co., Ltd.) using an electrostatic powder coating machine (manufactured by Nihon Parkerizing Co., Ltd.). Thereafter, these metal materials were baked at 160? C. (PMT) for 20 minutes to produce painted metal materials No. 100 to No. 104. It is noted here that the resulting paint film thickness was adjusted to be 60 ?m.
(34) TABLE-US-00002 TABLE 2-1 Preparation of painted metal materials Chemical formation types of the Treated Pretreatment chemical conversion steel agent treatment agent type No. 1 Example1 Zr SPCC No. 2 Example2 Zr SPCC No. 3 Example3 Zr SPCC No. 4 Example4 Zr SPCC No. 5 Example5 Zr SPCC No. 6 Example6 Zr SPCC No. 7 Example7 Zr SPCC No. 8 Example8 Zr SPCC No. 9 Example9 Zr SPCC No. 10 Example 10 Zr SPCC No. 11 Example 11 Zr SPCC No. 12 Example 12 Zr SPCC No. 13 Example 13 Zr SPCC No. 14 Example 14 Zr SPCC No. 15 Example 15 Zr SPCC No. 16 Example 16 Zr SPCC No. 17 Example 17 Zr SPCC No. 18 Example 18 Zr SPCC No. 19 Example 19 Zr SPCC No. 20 Example 20 Zr SPCC No. 21 Example 21 Zr SPCC No. 22 Example 22 Zr SPCC No. 23 Example 23 Zr SPCC No. 24 Example 24 Zr SPCC No. 25 Example 25 Zr SPCC No. 26 Example 26 Zr SPCC No. 27 Example 27 Zr SPCC No. 28 Example 28 Zr SPCC No. 29 Example 29 Zr SPCC No. 30 Example 30 Zr SPCC No. 31 Example 31 Zr SPCC No. 32 Example 32 Zr SPCC No. 33 Example 33 Zr SPCC No. 34 Example 34 Zr SPCC No. 35 Example 35 Zr SPCC No. 36 Example 36 Zr SPCC No. 37 Example 37 Zr SPCC No. 38 Example 38 Zr SPCC No. 39 Example 39 Zr SPCC No. 40 Example 40 Zr SPCC No. 41 Example 41 Zr SPCC No. 42 Example 42 Zr SPCC No. 43 Example 43 Zr SPCC No. 44 Example 44 Zr SPCC No. 45 Example 45 Zr SPCC No. 46 Example 46 Zr SPCC No. 47 Example 47 Zr SPCC No. 48 Example 48 Zr SPCC No. 49 Example 49 Zr SPCC No. 50 Example 50 Zr SPCC No. 51 Example 51 Zr SPCC No. 52 Example 52 Zr SPCC
(35) TABLE-US-00003 TABLE 2-2 Preparation of painted metal materials Chemical formation types of the chemical Treated Pretreatment conversion steel agent treatment agent type No. 53 Example 53 Zr SPCC No. 54 Example 54 Zr SPCC No. 55 Example 55 Zr SPCC No. 56 Example 56 Zr SPCC No. 57 Example 57 Zr SPCC No. 58 Example 58 Zr SPCC No. 59 Example 59 Zr SPCC No. 60 Example 60 Zr SPCC No. 61 Example 61 Zr SPCC No. 62 Example 62 Zr SPCC No. 63 Example 63 Zr SPCC No. 64 Example 64 Zr SPCC No. 65 Example 65 Zr SPCC No. 66 Example 66 Zr SPCC No. 67 Example 67 Zr SPCC No. 68 Example 68 Zr SPCC No. 69 Example 11 Ti SPCC No. 70 Example 11 Hf SPCC No. 71 Example 11 V SPCC No. 72 Example 11 PFe SPCC No. 73 Example 11 PZn SPCC No. 74 Example 11 Zr SGCC No. 75 Example 11 Zr SCGA No. 76 Example 11 Zr SECC No. 77 Example 11 Zr SPHC No. 78 Example 11 Zr A6061 No. 79 Example 69 Zr SPCC No. 80 Example 70 Zr SPCC No. 81 Example 71 Zr SPCC No. 82 Comparative example 1 absent SPCC No. 83 Comparative example 2 absent SPCC No. 84 Zr SPCC No. 85 Ti SPCC No. 86 Hf SPCC No. 87 V SPCC No. 88 PFe SPCC No. 89 PZn SPCC No. 90 Zr SGCC No. 91 Zr SCGA No. 92 Zr SECC No. 93 Zr SPHC No. 94 Zr A6061 No. 95 Zr SPCC No. 96 Example 3 Zr SPCC No. 97 Example 11 Zr SPCC No. 98 Example 59 Zr SPCC No. 99 Example 69 Zr SPCC No. 100 Zr SPCC No. 101 Example 3 Zr SPCC No. 102 Example 11 Zr SPCC No. 103 Example 59 Zr SPCC No. 104 Example 69 Zr SPCC
[Evaluation of Painted Metal Materials]
<Corrosion Resistance>
(36) In order to verify the corrosion resistance of the above-produced painted metal materials No. 1 to No. 104 at their edge burrs, the painted metal materials were each set in a composite cycle tester, and a 100-cycle composite cycle test was conducted in accordance with JASO-M609-91. After the 100 cycles, the maximum blister width from a burr generated at the time of cutting was measured, and the corrosion resistance of edge burr was evaluated based on the following evaluation criteria. It is noted here that, for the evaluation of edge burr, the edges and the back side of each painted metal material were not tape-sealed. The results are shown in Tables 3-1 and 3-2.
(37) (Evaluation Criteria for Cases where Electrodeposition Coating Treatment was Performed)
(38) S: The maximum blister width was less than 1.5 mm (most excellent). A: The maximum blister width was 1.5 mm or greater but less than 2.5 mm. B: The maximum blister width was 2.5 mm or greater but less than 5.0 mm. C: The maximum blister width was 5.0 mm or greater.
(Evaluation Criteria for Cases where Solvent Coating Treatment or Powder Coating Treatment was Performed) S: The maximum blister width was less than 2.0 mm (most excellent). A: The maximum blister width was 2.0 mm or greater but less than 4.0 mm. B: The maximum blister width was 4.0 mm or greater but less than 8.0 mm. C: The maximum blister width was 8.0 mm or greater.
<Coating Adhesion>
(39) In order to verify the coating adhesion of the painted metal materials No. 1 to No. 104, the painted metal materials were immersed in boiling water for 1 hour, and cuts were subsequently made on each painted metal material in a grid form at 1-mm intervals (10?10=100 cuts). Thereafter, water on the surface was wiped off and a cellophane tape was pasted to the grid-form cuts, after which the cellophane tape was peeled off, and the number of 1 mm-square grids where the paint film was not detached from the painted metal material was measured to evaluate the coating adhesion based on the following evaluation criteria. The results thereof are shown in Tables 3-1 and 3-2. It is noted here that chipping refers to a 1 mm-square paint film that was not completely detached but was partially detached. For the evaluation criteria B and C, there was no detachment with chipping.
(40) (Evaluation Criteria)
(41) S: The number of grids where the paint film was not detached was 100 (without chipping) (most excellent). A: The number of grids where the paint film was not detached was 100 (with chipping). B: The number of grids where the paint film was not detached was 90 to 99 (without chipping). C: The number of grids where the paint film was not detached was less than 90 (without chipping).
<Throwing Power of Electrodeposition Coating>
(42) In place of the electrodeposition coating treatment performed on the painted metal materials No. 1 to No. 73 and No. 79 to No. 89, the following electrodeposition coating throwing power test was conducted to form a paint film, and the throwing power of electrodeposition coating was evaluated for the thus obtained painted metal materials.
(43) Using four sheets of each kind of metal material having a chemical conversion coating, an electrodeposition coating throwing power test was conducted in accordance with a method of testing the throwing power of electrodeposition coating using a four-sheet box (see, for example, the paragraphs [0085] to [0090] of Japanese Unexamined Patent Application Publication No. 2010-90409). In this test, a 70 mm?150 mm?0.5 mm stainless-steel sheet (SUS304) sealed with an insulating tape on one side (the surface opposite to the surface facing the four-sheet box) was used as a counter electrode. The liquid surface of an electrodeposition coating material was adjusted to a position of the four-sheet box at which the evaluation surfaces of the metal materials having a chemical conversion coating and the electrified surface of the counter electrode were immersed. The electrodeposition coating material, with its temperature being maintained at 30? C., was stirred using a stirrer.
(44) In this state, by a cathodic electrolysis method using the counter electrode as an anode, a paint film was electrodeposited on the surfaces of the metal materials having a chemical conversion coating in the four-sheet box. As for specific electrolysis conditions, cathodic electrolysis was performed at a prescribed voltage for 180 seconds using a rectifier. The voltage was adjusted such that the metal material having a chemical conversion coating, which was arranged the closest to the counter electrode of the four-sheet box, would have a paint film thickness of 15 ?m on the surface facing the counter electrode. Subsequently, the painted metal materials were each washed with water and baked for 20 minutes under a condition having a PMT of 170? C. to form a paint film thereon, whereby painted metal materials were produced.
(45) Then, for the metal material having a chemical conversion coating which was arranged the farthest from the counter electrode, the thickness of the paint film formed on the surface of the counter electrode side was measured using an electromagnetic film thickness meter. The thickness of the paint film was determined by measuring the film thickness at 10 randomly selected spots on the painted metal material and calculating the average of the measured values.
(46) Thereafter, the throwing power of the electrodeposition coating material was calculated as a percentage of the ratio (T.sub.2/T.sub.1) of the thickness (T.sub.1) of the paint film formed on the counter electrode side of the metal material having a chemical conversion coating, which metal material was arranged the closest to the counter electrode, to the thickness (T.sub.2) of the paint film formed on the counter electrode side of the metal material having a chemical conversion coating, which metal material was arranged the farthest to the counter electrode.
(47) The throwing power of the electrodeposition coating was evaluated in terms of the thus calculated percentage based on the following evaluation criteria. The results thereof are shown in Tables 3-1 and 3-2.
(48) (Evaluation Criteria)
(49) A: The electrodeposition throwing power was 65% or higher (most excellent). B: The electrodeposition throwing power was 50% or higher but lower than 65%. C: The electrodeposition throwing power was lower than 50%.
(50) It is noted here that, in all the above-described evaluations, the evaluation criteria of B or higher were regarded as a practical range.
(51) TABLE-US-00004 TABLE 3-1 Evaluation of painted metal materials Evaluation Film coated Corrosion metal resistance Throwing Power materials of edge Coating of Electro- No. burr adhesion deposition Coating No. 1 A A B No. 2 A A B No. 3 A A B No. 4 A A B No. 5 A A B No. 6 A A B No. 7 B B B No. 8 B A B No. 9 A A B No. 10 A A B No. 11 S S A No. 12 S S A No. 13 S S A No. 14 S S A No. 15 S S A No. 16 S S A No. 17 S S A No. 18 S S A No. 19 S S A No. 20 A S A No. 21 S S A No. 22 S S A No. 23 S S A No. 24 A A A No. 25 A S A No. 26 S S A No. 27 S S A No. 28 A S A No. 29 A S A No. 30 S S A No. 31 S S A No. 32 S S A No. 33 S S A No. 34 S S A No. 35 S S A No. 36 S S A No. 37 S S A No. 38 A A A No. 39 S S A No. 40 S S A No. 41 S S A No. 42 S S A No. 43 A S A No. 44 A S A No. 45 S S A No. 46 S S A No. 47 S S A No. 48 S S A No. 49 S S A No. 50 S S A No. 51 S S A No. 52 S S A
(52) TABLE-US-00005 TABLE 3-2 Evaluation of painted metal materials Evaluation Film coated Corrosion metal materials resistance Coating Throwing Power of No. of edge burr adhesion Electrodeposition Coating No. 53 S S A No. 54 S S A No. 55 S S A No. 56 S S A No. 57 S S A No. 58 S S A No. 59 S S A No. 60 S S A No. 61 S S A No. 62 S S A No. 63 S S A No. 64 S S A No. 65 S S A No. 66 S S A No. 67 S S A No. 68 S S A No. 69 S S A No. 70 S S A No. 71 S S A No. 72 A S A No. 73 S S A No. 74 S S No. 75 S S No. 76 S S No. 77 S S No. 78 S S No. 79 S S A No. 80 S S A No. 81 S S A No. 82 C C C No. 83 C C C No. 84 C B C No. 85 C B C No. 86 C B C No. 87 C B C No. 88 C B B No. 89 C C B No. 90 C B No. 91 C B No. 92 C B No. 93 C B No. 94 C B No. 95 C S No. 96 B S No. 97 A S No. 98 A S No. 99 A S No. 100 C A No. 101 B S No. 102 A S No. 103 S S No. 104 A S
Example II
(53) [Production of Painted Metal Materials]
(54) <Preparation of Chemical Conversion Treatment Agents>
(55) Chemical conversion treatment agents of Examples II-1 to II-82 were each prepared by adding components to water at the respective prescribed molar concentrations as shown in Tables 4-1 and 4-2 and subsequently adjusting the resultant to have a pH of 4.0 using methanesulfonic acid or an aqueous sodium hydroxide solution.
(56) In the preparation of the chemical conversion treatment agents, the following materials were used as a zirconium alkoxide (a), a zirconium-containing ion supply source (b), an organosilane compound (d), a supply source (e) of ions containing at least one metal element selected from aluminum, magnesium and zinc, and other components (g). a1: zirconium tetra-n-propoxide a2: zirconium tetra-n-butoxide a3: zirconium tetraisopropoxide b1: hexafluorozirconic acid (hexafluorozirconic acid, manufactured by Morita Chemical Industries Co., Ltd.) b2: zirconium hydroxide (R zirconium hydroxide, manufactured by Daiichi Kigenso Kagaku Kogyo Co., Ltd.) d1: N-2-(aminoethyl)-3-aminopropyltrimethoxysilane d2: N-2-(aminoethyl)-3-aminopropylmethyldimethoxysilane d3: 3-aminopropyltrimethoxysilane d4: 3-aminopropyltriethoxysilane d5: 3-glycidoxypropyltriethoxysilane d6: 3-glycidoxypropyltrimethoxysilane d7: 3-glycidoxypropylmethyldimethoxysilane d8: tetraethoxysilane d9: phenyltriethoxysilane e1: aluminum nitrate enneahydrate (manufactured by Wako Pure Chemical Industries, Ltd.) e2: magnesium nitrate hexahydrate (manufactured by Wako Pure Chemical Industries, Ltd.) e3: zinc oxide (manufactured by Wako Pure Chemical Industries, Ltd.) e4: aluminum sulfate (manufactured by Wako Pure Chemical Industries, Ltd.) e5: magnesium sulfate (manufactured by Wako Pure Chemical Industries, Ltd.) g1: SUPERFLEX E620 (manufactured by DKS Co., Ltd.) g2: SUPERFLEX E650 (manufactured by DKS Co., Ltd.) g3: allylamine polymer (PAA-03, manufactured by Nittobo Medical Co., Ltd.) g4: allylamine hydrochloride-diallylamine hydrochloride copolymer (PAA-D1l-HCL, manufactured by Nittobo Medical Co., Ltd.) g5: diallylamine hydrochloride polymer (PAS-21CL, manufactured by Nittobo Medical Co., Ltd.) g6: diallylamine hydrochloride-sulfur dioxide copolymer (PAS-92, manufactured by Nittobo Medical Co., Ltd.) g7: methyldiallylamine hydrochloride polymer (PAS-M-1, manufactured by Nittobo Medical Co., Ltd.) g8: titanium tetraisopropoxide (manufactured by Wako Pure Chemical Industries, Ltd.) g9: 1-propanol (manufactured by Wako Pure Chemical Industries, Ltd.)
(57) In Tables 4-1 and 4-2, the content of Fluorine indicates the molar concentration of fluorine derived from hydrofluoric acid (manufactured by Morita Chemical Industries Co., Ltd.). Further, when hexafluorozirconic acid was used as the supply source (b), the content of Fluorine indicates a value that also includes the molar concentration of fluorine derived from the hexafluorozirconic acid.
(58) In these Tables, Nitrate ion content and Sulfate ion content indicate the molar concentrations of nitrate ions and sulfate ions in nitric acid (manufactured by Wako Pure Chemical Industries, Ltd.) and sulfuric acid (manufactured by Wako Pure Chemical Industries, Ltd.), respectively. Moreover, when the supply source (e) contained nitrate ions or sulfate ions, Nitrate ion content and Sulfate ion content each indicate a value including the nitrate ions or the sulfate ions.
(59) In these tables, the content of the other component (g) is indicated in terms of mass concentration based on pure content of each component (ppm).
(60) TABLE-US-00006 TABLE 4-1 (a) (b) Fluorine (d) Example/ Amount of Amount of a.sub.M/ Amount of Type of component/ Comparative Type of component Type of component b.sub.M component Amount of example component [mmol/L] component [mmol/L] [] [mmol/L] component[mmol/L] Example II-1 a1 0.005 b1 0.05 0.1 15 Example II-2 a1 0.01 b1 0.1 0.1 16 Example II-3 a1 0.03 b1 0.3 0.1 17 Example II-4 a1 0.1 b1 1 0.1 21 Example II-5 a1 1 b1 10 0.1 75 Example II-6 a1 0.1 b1 1 0.1 6 Example II-7 a1 0.1 b2 1 0.1 Example II-8 a1 0.1 b2 1 0.1 6 Example II-9 a1 0.1 b1 1 0.1 21 Example II-10 a1 0.1 b1 1 0.1 6 Example II-11 a1 0.1 b1 1 0.1 6 Example II-12 a1 0.1 b1 1 0.1 21 Example II-13 a1 0.1 b1 1 0.1 21 Example II-14 a1 0.1 b1 1 0.1 21 Example II-15 a1 0.1 b1 1 0.1 6 Example II-16 a1 0.1 b1 1 0.1 6 Example II-17 a1 0.1 b1 1 0.1 21 Example II-18 a1 0.1 b1 1 0.1 21 Example II-19 a1 0.1 b1 1 0.1 21 Example II-20 a1 0.1 b1 1 0.1 6 Example II-21 a1 0.1 b1 1 0.1 6 Example II-22 a1 0.1 b1 1 0.1 6 d1 0.1 Example II-23 a1 0.1 b1 1 0.1 6 d2 0.1 Example II-24 a1 0.1 b1 1 0.1 6 d3 0.1 Example II-25 a1 0.1 b1 1 0.1 6 d4 0.1 Example II-26 a1 0.1 b1 1 0.1 6 d5 0.1 Example II-27 a1 0.1 b1 1 0.1 6 d6 0.1 Example II-28 a1 0.1 b1 1 0.1 6 d7 0.1 Example II-29 a1 0.1 b1 1 0.1 6 d8 0.1 Example II-30 a1 0.1 b1 1 0.1 6 d9 0.1 Example II-31 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 Example II-32 a1 0.1 b1 1 0.1 6 d1 0.1 d6 0.1 Example II-33 a1 0.1 b1 1 0.1 6 d1 0.1 d7 0.1 Example II-34 a1 0.1 b1 1 0.1 6 d1 0.1 d8 0.1 Example II-35 a1 0.1 b1 1 0.1 6 d1 0.1 d9 0.1 Example II-36 a1 0.1 b1 1 0.1 6 d3 0.1 d5 0.1 Example II-37 a1 0.1 b1 1 0.1 6 d3 0.1 d6 0.1 Example II-38 a1 0.1 b1 1 0.1 6 d3 0.1 d7 0.1 Example II-39 a1 0.1 b1 1 0.1 6 d3 0.1 d8 0.1 Example II-4-0 a1 0.1 b1 1 0.1 6 d3 0.1 d9 0.1 Example II-4-1 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 d8 0.1 Example II-4-2 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 d9 0.1 Example II-4-3 a1 0.1 b1 1 0.1 6 d3 0.1 d5 0.1 d8 0.1 Example II-4-4 a1 0.1 b1 1 0.1 6 d3 0.1 d5 0.1 d9 0.1 Example II-4-5 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 d8 0.3 Example II-4-6 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 d9 0.3 Example II-4-7 a1 0.1 b1 1 0.1 6 d3 0.1 d5 0.1 d8 0.3 Example II-4-8 a1 0.1 b1 1 0.1 6 d3 0.1 d5 0.1 d9 0.3 (e) Nitrate Sulfate (g) Example/ Type of component/ ion ion Amount of Comparative Amount of content content Type of component example component[mmol/L] [mmol/L] [mmol/L] component [ppm] Example II-1 e1 5 e2 5 e3 15 50 Example II-2 e1 5 e2 5 e3 15 50 Example II-3 e1 5 e2 5 e3 15 50 Example II-4 e1 5 e2 5 e3 15 50 Example II-5 e1 5 e2 5 e3 15 50 Example II-6 Example II-7 Example II-8 Example II-9 e1 5 50 Example II-10 e2 5 50 Example II-11 e3 15 50 Example II-12 e1 5 e3 15 50 Example II-13 e1 5 e2 5 50 Example II-14 e4 5 50 Example II-15 e5 5 50 Example II-16 e3 15 50 Example II-17 e4 5 e3 15 50 Example II-18 e4 5 e5 5 50 Example II-19 e4 5 e5 5 e3 15 50 Example II-20 50 Example II-21 50 Example II-22 50 Example II-23 50 Example II-24 50 Example II-25 50 Example II-26 50 Example II-27 50 Example II-28 50 Example II-29 50 Example II-30 50 Example II-31 50 Example II-32 50 Example II-33 50 Example II-34 50 Example II-35 50 Example II-36 50 Example II-37 50 Example II-38 50 Example II-39 50 Example II-4-0 50 Example II-4-1 50 Example II-4-2 50 Example II-4-3 50 Example II-4-4 50 Example II-4-5 50 Example II-4-6 50 Example II-4-7 50 Example II-4-8 50
(61) TABLE-US-00007 TABLE 4-2 (a) (b) Fluorine (d) Example/ Amount of Amount of a.sub.M/ Amount of Type of component/ Comparative Type of component Type of component b.sub.M component Amount of example component [mmol/L] component [mmol/L] [] [mmol/L] component[mmol/L] Example II-49 a1 0.1 b1 1 0.1 6 d3 0.0067 d5 0.0067 Example II-50 a1 0.1 b1 1 0.1 6 d3 0.0033 d5 0.0033 Example II-51 a1 0.1 b1 1 0.1 6 d3 0.0017 d5 0.0017 Example II-52 a1 0.1 b1 1 0.1 6 d3 0.3333 d5 0.3333 Example II-53 a1 0.1 b1 1 0.1 6 d3 0.6667 d5 0.6667 Example II-54 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.2 Example II-55 a1 0.1 b1 1 0.1 6 d1 0.2 d5 0.1 Example II-56 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-57 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 Example II-58 a1 0.1 b1 1 0.1 6 d1 0.1 d5 0.1 Example II-59 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-60 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-61 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-62 a1 0.01 b1 1 0.01 21 Example II-63 a1 0.03 b1 1 0.03 21 Example II-64 a1 0.05 b1 1 0.05 21 Example II-65 a1 1 b1 1 1 21 Example II-66 a1 5 b1 1 5 21 Example II-67 a1 10 b1 1 10 21 Example II-68 a1 20 b1 1 20 21 Example II-69 a1 0.1 b1 1 0.1 9 Example II-70 a1 0.1 b1 1 0.1 12 Example II-71 a1 0.1 b1 1 0.1 51 Example II-72 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-73 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-74 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-75 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-76 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-77 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-78 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-79 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-80 a1 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-81 a2 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 Example II-82 a3 0.1 b1 1 0.1 21 d1 0.1 d5 0.1 (d) (e) Nitrate Sulfate (g) Example/ Type of component/ Type of component/ ion ion Amountof Comparative Amount of Amount of content content Type of component example component[mmol/L] component[mmol/L] [mmol/L] [mmol/L] component [ppm] Example II-49 d8 0.0067 50 Example II-50 d8 0.0033 50 Example II-51 d8 0.0017 50 Example II-52 d8 0.3333 50 Example II-53 d8 0.6667 50 Example II-54 d9 0.1 50 Example II-55 d9 0.1 50 Example II-56 d9 0.1 e1 5 50 Example II-57 d9 0.1 e2 5 50 Example II-58 d9 0.1 e3 15 50 Example II-59 d9 0.1 e1 5 e3 15 50 Example II-60 d9 0.1 e1 5 e2 5 50 Example II-61 d9 0.1 e1 5 e2 5 e3 15 50 Example II-62 e1 5 e2 5 e3 15 50 Example II-63 e1 5 e2 5 e3 15 50 Example II-64 e1 5 e2 5 e3 15 50 Example II-65 e1 5 e2 5 e3 15 50 Example II-66 e1 5 e2 5 e3 15 50 Example II-67 e1 5 e2 5 e3 15 50 Example II-68 e1 5 e2 5 e3 15 50 Example II-69 e1 1 50 Example II-70 e1 2 50 Example II-71 e1 15 50 Example II-72 d9 0.1 e1 5 e3 15 50 G1 500 Example II-73 d9 0.1 e1 5 e3 15 50 G2 500 Example II-74 d9 0.1 e1 5 e3 15 50 G3 100 Example II-75 d9 0.1 e1 5 e3 15 50 G4 100 Example II-76 d9 0.1 e1 5 e3 15 50 G5 100 Example II-77 d9 0.1 e1 5 e3 15 50 G6 100 Example II-78 d9 0.1 e1 5 e3 15 50 G7 100 Example II-79 d9 0.1 e1 5 e3 15 50 G8 100 Example II-80 d9 0.1 e1 5 e3 15 50 G9 100 Example II-81 d9 0.1 e1 5 e2 5 e3 15 50 Example II-82 d9 0.1 e1 5 e2 5 e3 15 50
(62) The following chemical conversion treatment and coating treatment were performed on the metal materials that had been subjected to the above-described degreasing treatment, whereby various painted metal materials were produced.
(63) <Chemical Conversion Treatment>
(64) The metal materials, which had been subjected to the degreasing treatment, were each immersed in one of the chemical conversion treatment agents (Example II-1 to II-82) at 40? C. for 2 minutes to perform a chemical conversion treatment. In addition, the metal materials, which had been subjected to the degreasing treatment, were each immersed in the pretreatment agent of Example 3, 11, 59 or 69 at 25? C. for 30 seconds to be pretreated, followed by a chemical conversion treatment where the pretreated metal materials were immersed in a chemical conversion treatment agent (Example II-4, II-6 or II-59) at 40? C. for 2 minutes.
(65) <Electrodeposition Coating>
(66) The metal materials subjected to the above chemical conversion treatment were washed with water, and an electrodeposition coating treatment was subsequently performed in the above-described manner using an electrodeposition coating agent (GT-100, manufactured by Kansai Paint Co., Ltd.) with each metal material being set as a cathode, whereby painted metal materials were produced. It is noted here that the resulting paint film thickness was adjusted to be 20 ?m.
(67) <Solvent Coating and Powder Coating>
(68) The metal materials subjected to the above chemical conversion treatment were washed with water, drain-dried at 100? C. for 20 minutes, and then subjected to a solvent coating treatment or a powder coating treatment, whereby painted metal materials were produced. It is noted here that the resulting paint film thickness was adjusted to be 60 ?m.
(69) [Evaluation of Painted Metal Materials]
(70) <Corrosion Resistance>
(71) In order to verify the corrosion resistance of the above-produced painted metal materials (test pieces of No. II-1 to No. II-564), an X-shaped cut reaching the metal base was made at a size of a 10-cm square on each painted metal material, and a neutral salt spray test (NSS, JIS Z2371:2015) was conducted thereon. After 96 hours of spraying, each painted metal material was washed with water and then dried. Subsequently, a 24 mm-wide tape was pasted to the cut portion and then peeled off, and the maximum peeled width of the paint film peeled off from the cut portion was measured. For the results thereof, the corrosion resistance was evaluated based on the following evaluation criteria. It is noted here that the evaluation criteria of C or higher were regarded as a practical range.
(72) (Evaluation Criteria)
(73) S: The maximum peeled width was less than 1.0 mm. A: The maximum peeled width was greater than 1.0 mm but less than 2.0 mm. B: The maximum peeled width was greater than 2.0 mm but less than 4.0 mm. C: The maximum peeled width was greater than 4.0 mm but less than 6.0 mm. D: The maximum peeled width was 6.0 mm or greater.
<Adhesion Performance>
(74) In order to verify the coating adhesion of the painted metal materials (test pieces of No. II-1 to II-564), the painted metal materials were immersed in boiling water for 1 hour, and cuts were subsequently made on each painted metal material in a grid form at 1-mm intervals (10?10=100 cuts). Thereafter, water on the surface was wiped off and a cellophane tape was pasted to the grid-form cuts, after which the cellophane tape was peeled off, and the number of grids where the paint film was not detached was measured to evaluate the adhesion based on the following evaluation criteria. It is noted here that the evaluation criteria of B or higher were regarded as a practical range.
(75) (Evaluation Criteria)
(76) S: The number of grids where the paint film was not detached was 100. A: The number of grids where the paint film was not detached was 90 to 99. B: The number of grids where the paint film was not detached was 80 to 89. C: The number of grids where the paint film was not detached was 79 or less.
(77) The evaluation results are shown in Tables 5-1 to 5-14.
(78) TABLE-US-00008 TABLE 5-1 Chemical Film coated conversion metal treatment Corrosion materials agent Metal material Film coating resistance Adhesion NO. II-1 Example II-1 SPCC Electrodeposition coating B A No. II-2 Example II-2 SPCC Electrodeposition coating A A NO. II-3 Example II-3 SPCC Electrodeposition coating A S NO. II-4 Example II-4 SPCC Electrodeposition coating S S NO. II-5 Example II-5 SPCC Electrodeposition coating A A NO. II-6 Example II-6 SPCC Electrodeposition coating B A NO. II-7 Example II-7 SPCC Electrodeposition coating B A NO. II-8 Example II-8 SPCC Electrodeposition coating B S NO. II-9 Example II-9 SPCC Electrodeposition coating S S NO. II-10 Example II-10 SPCC Electrodeposition coating A S NO. II-11 Example II-11 SPCC Electrodeposition coating A S NO. II-12 Example II-12 SPCC Electrodeposition coating S S NO. II-13 Example II-13 SPCC Electrodeposition coating S S NO. II-14 Example II-14 SPCC Electrodeposition coating A S NO. II-15 Example II-15 SPCC Electrodeposition coating A S NO. II-16 Example II-16 SPCC Electrodeposition coating A S NO. II-17 Example II-17 SPCC Electrodeposition coating A S NO. II-18 Example II-18 SPCC Electrodeposition coating A S NO. II-19 Example II-19 SPCC Electrodeposition coating A S NO. II-20 Example II-20 SPCC Electrodeposition coating A A NO. II-21 Example II-21 SPCC Electrodeposition coating A A NO. II-22 Example II-22 SPCC Electrodeposition coating A A NO. II-23 Example II-23 SPCC Electrodeposition coating A A NO. II-24 Example II-24 SPCC Electrodeposition coating A A NO. II-25 Example II-25 SPCC Electrodeposition coating A A NO. II-26 Example II-26 SPCC Electrodeposition coating A A NO. II-27 Example II-27 SPCC Electrodeposition coating A A NO. II-28 Example II-28 SPCC Electrodeposition coating A A NO. II-29 Example II-29 SPCC Electrodeposition coating B A NO. II-30 Example II-30 SPCC Electrodeposition coating A A NO. II-31 Example II-31 SPCC Electrodeposition coating A S NO. II-32 Example II-32 SPCC Electrodeposition coating A S NO. II-33 Example II-33 SPCC Electrodeposition coating A S NO. II-34 Example II-34 SPCC Electrodeposition coating A A NO. II-35 Example II-35 SPCC Electrodeposition coating A A NO. II-36 Example II-36 SPCC Electrodeposition coating A S NO. II-37 Example II-37 SPCC Electrodeposition coating A S NO. II-38 Example II-38 SPCC Electrodeposition coating A S NO. II-39 Example II-39 SPCC Electrodeposition coating A A NO. II-40 Example II-40 SPCC Electrodeposition coating A A NO. II-41 Example II-41 SPCC Electrodeposition coating A S NO. II-42 Example II-42 SPCC Electrodeposition coating A A NO. II-43 Example II-43 SPCC Electrodeposition coating A S NO. II-44 Example II-44 SPCC Electrodeposition coating A A NO. II-45 Example II-45 SPCC Electrodeposition coating A S NO. II-46 Example II-46 SPCC Electrodepositan coating A A NO. II-47 Example II-47 SPCC Electrodeposition coating A S NO. II-48 Example II-48 SPCC Electrodeposition coating A A
(79) TABLE-US-00009 TABLE 5-2 Chemical Film coated conversion metal treatment Corrosion materials agent Metal material Film coating resistance Adhesion NO. II-49 Example II-49 SPCC Electrodeposition coating A A NO. II-50 Example II-50 SPCC Electrodeposition coating A A NO. II-51 Example II-51 SPCC Electrodeposition coating A A NO. II-52 Example II-52 SPCC Electrodeposition coating A S NO. II-53 Example II-53 SPCC Electrodeposition coating A S NO. II-54 Example II-54 SPCC Electrodeposition coating A S NO. II-55 Example II-55 SPCC Electrodeposition coating A S NO. II-56 Example II-56 SPCC Electrodeposition coating A S NO. II-57 Example II-57 SPCC Electrodeposition coating S S NO. II-58 Example II-58 SPCC Electrodeposition coating A S NO. II-59 Example II-59 SPCC Electrodeposition coating S S NO. II-60 Example II-60 SPCC Electrodeposition coating S S NO. II-61 Example II-61 SPCC Electrodeposition coating S S NO. II-62 Example II-62 SPCC Electrodeposition coating A A NO. II-63 Example II-63 SPCC Electrodeposition coating A S NO. II-64 Example II-64 SPCC Electrodeposition coating S S NO. II-65 Example II-65 SPCC Electrodeposition coating S S NO. II-66 Example II-66 SPCC Electrodeposition coating S S NO. II-67 Example II-67 SPCC Electrodeposition coating S S NO. II-68 Example II-68 SPCC Electrodeposition coating S A NO. II-69 Example II-69 SPCC Electrodeposition coating B A NO. II-70 Example II-70 SPCC Electrodeposition coating B A NO. II-71 Example II-71 SPCC Electrodeposition coating B B NO. II-72 Example II-72 SPCC Electrodeposition coating S S NO. II-73 Example II-73 SPCC Electrodeposition coating S S NO. II-74 Example II-74 SPCC Electrodeposition coating S S NO. II-75 Example II-75 SPCC Electrodeposition coating S S NO. II-76 Example II-76 SPCC Electrodeposition coating S S NO. II-77 Example II-77 SPCC Electrodeposition coating S S NO. II-78 Example II-78 SPCC Electrodeposition coating S S NO. II-79 Example II-79 SPCC Electrodeposition coating S S NO. II-80 Example II-80 SPCC Electrodeposition coating S S NO. II-81 Example II-81 SPCC Electrodeposition coating S S NO. II-82 Example II-82 SPCC Electrodeposition coating S S
(80) TABLE-US-00010 TABLE 5-3 Film coated Chemical metal conversion Corrosion materials treatment agent Metal material Film coating resistance Adhesion NO. II-83 Example II-1 SPCC Solvent Coating B B No. II-84 Example II-2 SPCC Solvent Coating B A NO. II-85 Example II-3 SPCC Solvent Coating A S NO. II-86 Example II-4 SPCC Solvent Coating S S NO. II-87 Example II-5 SPCC Solvent Coating A S NO. II-88 Example II-6 SPCC Solvent Coating B A NO. II-89 Example II-7 SPCC Solvent Coating B B NO. II-90 Example II-8 SPCC Solvent Coating B B NO. II-91 Example II-9 SPCC Solvent Coating S S NO. II-92 Example II-10 SPCC Solvent Coating A S NO. II-93 Example II-11 SPCC Solvent Coating A S NO. II-94 Example II-12 SPCC Solvent Coating S S NO. II-95 Example II-13 SPCC Solvent Coating S S NO. II-96 Example II-14 SPCC Solvent Coating A S NO. II-97 Example II-15 SPCC Solvent Coating A S NO. II-98 Example II-16 SPCC Solvent Coating A S NO. II-99 Example II-17 SPCC Solvent Coating A S NO. II-100 Example II-18 SPCC Solvent Coating A S NO. II-101 Example II-19 SPCC Solvent Coating A S NO. II-102 Example II-20 SPCC Solvent Coating A A NO. II-103 Example II-21 SPCC Solvent Coating A A NO. II-104 Example II-22 SPCC Solvent Coating A A NO. II-105 Example II-23 SPCC Solvent Coating A A NO. II-106 Example II-24 SPCC Solvent Coating A A NO. II-107 Example II-25 SPCC Solvent Coating A A NO. II-108 Example II-26 SPCC Solvent Coating A A NO. II-109 Example II-27 SPCC Solvent Coating B A NO. II-110 Example II-28 SPCC Solvent Coating B A NO. II-111 Example II-29 SPCC Solvent Coating B A NO. II-112 Example II-30 SPCC Solvent Coating A A NO. II-113 Example II-31 SPCC Solvent Coating A A NO. II-114 Example II-32 SPCC Solvent Coating A A NO. II-115 Example II-33 SPCC Solvent Coating A A NO. II-116 Example II-34 SPCC Solvent Coating B A NO. II-117 Example II-35 SPCC Solvent Coating B A NO. II-118 Example II-36 SPCC Solvent Coating A A NO. II-119 Example II-37 SPCC Solvent Coating A A NO. II-120 Example II-38 SPCC Solvent Coating A A NO. II-121 Example II-39 SPCC Solvent Coating B A NO. II-122 Example II-40 SPCC Solvent Coating B A NO. II-123 Example II-41 SPCC Solvent Coating B A NO. II-124 Example II-42 SPCC Solvent Coating A A NO. II-125 Example II-43 SPCC Solvent Coating A A NO. II-126 Example II-44 SPCC Solvent Coating A A NO. II-127 Example II-45 SPCC Solvent Coating A A NO. II-128 Example II-46 SPCC Solvent Coating A A NO. II-129 Example II-47 SPCC Solvent Coating A A NO. II-130 Example II-48 SPCC Solvent Coating A A
(81) TABLE-US-00011 TABLE 5-4 Film coated Chemical metal conversion Corrosion materials treatment agent Metal material Film coating resistance Adhesion NO. II-131 Example II-49 SPCC Solvent Coating A A NO. II-132 Example II-50 SPCC Solvent Coating A A NO. II-133 Example II-51 SPCC Solvent Coating A A NO. II-134 Example II-52 SPCC Solvent Coating A A NO. II-135 Example II-53 SPCC Solvent Coating A S NO. II-136 Example II-54 SPCC Solvent Coating A S NO. II-137 Example II-55 SPCC Solvent Coating A S NO. II-138 Example II-56 SPCC Solvent Coating S S NO. II-139 Example II-57 SPCC Solvent Coating A S NO. II-140 Example II-58 SPCC Solvent Coating A S NO. II-141 Example II-59 SPCC Solvent Coating S S NO. II-142 Example II-60 SPCC Solvent Coating S S NO. II-143 Example II-61 SPCC Solvent Coating S S NO. II-144 Example II-62 SPCC Solvent Coating B A NO. II-145 Example II-63 SPCC Solvent Coating A A NO. II-146 Example II-64 SPCC Solvent Coating S S NO. II-147 Example II-65 SPCC Solvent Coating S S NO. II-148 Example II-66 SPCC Solvent Coating S S NO. II-149 Example II-67 SPCC Solvent Coating S A NO. II-150 Example II-68 SPCC Solvent Coating S A NO. II-151 Example II-69 SPCC Solvent Coating B A NO. II-152 Example II-70 SPCC Solvent Coating B A NO. II-153 Example II-71 SPCC Solvent Coating B B NO. II-154 Example II-72 SPCC Solvent Coating S S NO. II-155 Example II-73 SPCC Solvent Coating S S NO. II-156 Example II-74 SPCC Solvent Coating S S NO. II-157 Example II-75 SPCC Solvent Coating S S NO. II-158 Example II-76 SPCC Solvent Coating S S NO. II-159 Example II-77 SPCC Solvent Coating S S NO. II-160 Example II-78 SPCC Solvent Coating S S NO. II-161 Example II-79 SPCC Solvent Coating S S NO. II-162 Example II-80 SPCC Solvent Coating S S NO. II-163 Example II-81 SPCC Solvent Coating S S NO. II-164 Example II-82 SPCC Solvent Coating S S
(82) TABLE-US-00012 TABLE 5-5 Chemical Film coated conversion metal treatment Corrosion materials agent Metal material Film coating resistance Adhesion NO. II-165 Example II-1 SPCC Powder Coating B A No. II-166 Example II-2 SPCC Powder Coating A A NO. II-167 Example II-3 SPCC Powder Coating A S NO. II-168 Example II-4 SPCC Powder Coating S S NO. II-169 Example II-5 SPCC Powder Coating A S NO. II-170 Example II-6 SPCC Powder Coating B A NO. II-171 Example II-7 SPCC Powder Coating B A NO. II-172 Example II-8 SPCC Powder Coating B A NO. II-173 Example II-9 SPCC Powder Coating S S NO. II-174 Example II-10 SPCC Powder Coating A S NO. II-175 Example II-11 SPCC Powder Coating A S NO. II-176 Example II-12 SPCC Powder Coating S S NO. II-177 Example II-13 SPCC Powder Coating S S NO. II-178 Example II-14 SPCC Powder Coating A S NO. II-179 Example II-15 SPCC Powder Coating A S NO. II-180 Example II-16 SPCC Powder Coating A S NO. II-181 Example II-17 SPCC Powder Coating A S NO. II-182 Example II-18 SPCC Powder Coating A S NO. II-183 Example II-19 SPCC Powder Coating A S NO. II-184 Example II-20 SPCC Powder Coating A A NO. II-185 Example II-21 SPCC Powder Coating A A NO. II-186 Example II-22 SPCC Powder Coating A S NO. II-187 Example II-23 SPCC Powder Coating A S NO. II-188 Example II-24 SPCC Powder Coating A A NO. II-189 Example II-25 SPCC Powder Coating A A NO. II-190 Example II-26 SPCC Powder Coating A A NO. II-191 Example II-27 SPCC Powder Coating A A NO. II-192 Example II-28 SPCC Powder Coating A A NO. II-193 Example II-29 SPCC Powder Coating B A NO. II-194 Example II-30 SPCC Powder Coating A A NO. II-195 Example II-31 SPCC Powder Coating A A NO. II-196 Example II-32 SPCC Powder Coating A S NO. II-197 Example II-33 SPCC Powder Coating A A NO. II-198 Example II-34 SPCC Powder Coating A A NO. II-199 Example II-35 SPCC Powder Coating A A NO. II-200 Example II-36 SPCC Powder Coating B A NO. II-201 Example II-37 SPCC Powder Coating A A NO. II-202 Example II-38 SPCC Powder Coating A A NO. II-203 Example II-39 SPCC Powder Coating A A NO. II-204 Example II-40 SPCC Powder Coating B A NO. II-205 Example II-41 SPCC Powder Coating A A NO. II-206 Example II-42 SPCC Powder Coating A A NO. II-207 Example II-43 SPCC Powder Coating A S NO. II-208 Example II-44 SPCC Powder Coating A A NO. II-209 Example II-45 SPCC Powder Coating A A NO. II-210 Example II-46 SPCC Powder Coating B A NO. II-211 Example II-47 SPCC Powder Coating A A NO. II-212 Example II-48 SPCC Powder Coating A A
(83) TABLE-US-00013 TABLE 5-6 Film Chemical coated conversion metal treatment Metal Corrosion Ad- materials agent material Film coating resistance hesion NO. II-213 Example II-49 SPCC Powder Coating A A NO. II-214 Example II-50 SPCC Powder Coating A A NO. II-215 Example II-51 SPCC Powder Coating A A NO. II-216 Example II-52 SPCC Powder Coating A A NO. II-217 Example II-53 SPCC Powder Coating A S NO. II-218 Example II-54 SPCC Powder Coating A S NO. II-219 Example II-55 SPCC Powder Coating A S NO. II-220 Example II-56 SPCC Powder Coating S S NO. II-221 Example II-57 SPCC Powder Coating A S NO. II-222 Example II-58 SPCC Powder Coating A S NO. II-223 Example II-59 SPCC Powder Coating S S NO. II-224 Example II-60 SPCC Powder Coating S S NO. II-225 Example II-61 SPCC Powder Coating S S NO. II-226 Example II-62 SPCC Powder Coating A A NO. II-227 Example II-63 SPCC Powder Coating A S NO. II-228 Example II-64 SPCC Powder Coating S S NO. II-229 Example II-65 SPCC Powder Coating S S NO. II-230 Example II-66 SPCC Powder Coating S S NO. II-231 Example II-67 SPCC Powder Coating S S NO. II-232 Example II-68 SPCC Powder Coating S S NO. II-233 Example II-69 SPCC Powder Coating B A NO. II-234 Example II-70 SPCC Powder Coating B A NO. II-235 Example II-71 SPCC Powder Coating B A NO. II-236 Example II-72 SPCC Powder Coating S S NO. II-237 Example II-73 SPCC Powder Coating S S NO. II-238 Example II-74 SPCC Powder Coating S S NO. II-239 Example II-75 SPCC Powder Coating S S NO. II-240 Example II-76 SPCC Powder Coating S S NO. II-241 Example II-77 SPCC Powder Coating S S NO. II-242 Example II-78 SPCC Powder Coating S S NO. II-243 Example II-79 SPCC Powder Coating S S NO. II-244 Example II-80 SPCC Powder Coating S S NO. II-245 Example II-81 SPCC Powder Coating S S NO. II-246 Example II-82 SPCC Powder Coating S S
(84) TABLE-US-00014 TABLE 5-7 Chemical Film coated conversion metal treatment Corrosion materials agent Metal material Film coating resistance Adhesion NO. II-247 Example II-1 SS400 Electrodeposition coating C B No. II-248 Example II-2 SS400 Electrodeposition coating C A NO. II-249 Example II-3 SS400 Electrodeposition coating B A NO. II-250 Example II-4 SS400 Electrodeposition coating B A NO. II-251 Example II-5 SS400 Electrodeposition coating B A NO. II-252 Example II-6 SS400 Electrodeposition coating C B NO. II-253 Example II-7 SS400 Electrodeposition coating C B NO. II-254 Example II-8 SS400 Electrodeposition coating C B NO. II-255 Example II-9 SS400 Electrodeposition coating B A NO. II-256 Example II-10 SS400 Electrodeposition coating B A NO. II-257 Example II-11 SS400 Electrodeposition coating B A NO. II-258 Example II-12 SS400 Electrodeposition coating B A NO. II-259 Example II-13 SS400 Electrodeposition coating B A NO. II-260 Example II-14 SS400 Electrodeposition coating B A NO. II-261 Example II-15 SS400 Electrodeposition coating B A NO. II-262 Example II-16 SS400 Electrodeposition coating C A NO. II-263 Example II-17 SS400 Electrodeposition coating C A NO. II-264 Example II-18 SS400 Electrodeposition coating B A NO. II-265 Example II-19 SS400 Electrodeposition coating B A NO. II-266 Example II-20 SS400 Electrodeposition coating B A NO. II-267 Example II-21 SS400 Electrodeposition coating C A NO. II-268 Example II-22 SS400 Electrodeposition coating B A NO. II-269 Example II-23 SS400 Electrodeposition coating B B NO. II-270 Example II-24 SS400 Electrodeposition coating B B NO. II-271 Example II-25 SS400 Electrodeposition coating B B NO. II-272 Example II-26 SS400 Electrodeposition coating B B NO. II-273 Example II-27 SS400 Electrodeposition coating B B NO. II-274 Example II-28 SS400 Electrodeposition coating B B NO. II-275 Example II-29 SS400 Electrodeposition coating B B NO. II-276 Example II-30 SS400 Electrodeposition coating B B NO. II-277 Example II-31 SS400 Electrodeposition coating B B NO. II-278 Example II-32 SS400 Electrodeposition coating B A NO. II-279 Example II-33 SS400 Electrodeposition coating B B NO. II-280 Example II-34 SS400 Electrodeposition coating B B NO. II-281 Example II-35 SS400 Electrodeposition coating B B NO. II-282 Example II-36 SS400 Electrodeposition coating B B NO. II-283 Example II-37 SS400 Electrodeposition coating B B NO. II-284 Example II-38 SS400 Electrodeposition coating B B NO. II-285 Example II-39 SS400 Electrodeposition coating B B NO. II-286 Example II-40 SS400 Electrodeposition coating B B NO. II-287 Example II-41 SS400 Electrodeposition coating B B NO. II-288 Example II-42 SS400 Electrodeposition coating B B NO. II-289 Example II-43 SS400 Electrodeposition coating B A NO. II-290 Example II-44 SS400 Electrodeposition coating B B NO. II-291 Example II-45 SS400 Electrodeposition coating B B NO. II-292 Example II-46 SS400 Electrodeposition coating B B NO. II-293 Example II-47 SS400 Electrodeposition coating B A NO. II-294 Example II-48 SS400 Electrodeposition coating B B
(85) TABLE-US-00015 TABLE 5-8 Chemical Film coated conversion metal treatment Corrosion materials agent Metal material Film coating resistance Adhesion NO. II-295 Example II-49 SS400 Electrodeposition coating B B NO. II-296 Example II-50 SS400 Electrodeposition coating B A NO. II-297 Example II-51 SS400 Electrodeposition coating B A NO. II-298 Example II-52 SS400 Electrodeposition coating B A NO. II-299 Example II-53 SS400 Electrodeposition coating B A NO. II-300 Example II-54 SS400 Electrodeposition coating B A NO. II-301 Example II-55 SS400 Electrodeposition coating B A NO. II-302 Example II-56 SS400 Electrodeposition coating A A NO. II-303 Example II-57 SS400 Electrodeposition coating A A NO. II-304 Example II-58 SS400 Electrodeposition coating B A NO. II-305 Example II-59 SS400 Electrodeposition coating A S NO. II-306 Example II-60 SS400 Electrodeposition coating A S NO. II-307 Example II-61 SS400 Electrodeposition coating A S NO. II-308 Example II-62 SS400 Electrodeposition coating B A NO. II-309 Example II-63 SS400 Electrodeposition coating B A NO. II-310 Example II-64 SS400 Electrodeposition coating B A NO. II-311 Example II-65 SS400 Electrodeposition coating A A NO. II-312 Example II-66 SS400 Electrodeposition coating A A NO. II-313 Example II-67 SS400 Electrodeposition coating A A NO. II-314 Example II-68 SS400 Electrodeposition coating A A NO. II-315 Example II-69 SS400 Electrodeposition coating B A NO. II-316 Example II-70 SS400 Electrodeposition coating B A NO. II-317 Example II-71 SS400 Electrodeposition coating A A NO. II-318 Example II-72 SS400 Electrodeposition coating A S NO. II-319 Example II-73 SS400 Electrodeposition coating A S NO. II-320 Example II-74 SS400 Electrodeposition coating A A NO. II-321 Example II-75 SS400 Electrodeposition coating A S NO. II-322 Example II-76 SS400 Electrodeposition coating A S NO. II-323 Example II-77 SS400 Electrodeposition coating A S NO. II-324 Example II-78 SS400 Electrodeposition coating A S NO. II-325 Example II-79 SS400 Electrodeposition coating A S NO. II-326 Example II-80 SS400 Electrodeposition coating A S NO. II-327 Example II-81 SS400 Electrodeposition coating A S NO. II-328 Example II-82 SS400 Electrodeposition coating A S
(86) TABLE-US-00016 TABLE 5-9 Chemical Film coated conversion metal treatment Metal Corrosion materials agent material Coating resistance Adhesion NO. II-329 Example II-1 SS400 Solvent Coating C B No. II-330 Example II-2 SS400 Solvent Coating C A NO. II-331 Example II-3 SS400 Solvent Coating B A NO. II-332 Example II-4 SS400 Solvent Coating B A NO. II-333 Example II-5 SS400 Solvent Coating B A NO. II-334 Example II-6 SS400 Solvent Coating C B NO. II-335 Example II-7 SS400 Solvent Coating C B NO. II-336 Example II-8 SS400 Solvent Coating C B NO. II-337 Example II-9 SS400 Solvent Coating B A NO. II-338 Example II-10 SS400 Solvent Coating B A NO. II-339 Example II-11 SS400 Solvent Coating C A NO. II-340 Example II-12 SS400 Solvent Coating B A NO. II-341 Example II-13 SS400 Solvent Coating B A NO. II-342 Example II-14 SS400 Solvent Coating B A NO. II-343 Example II-15 SS400 Solvent Coating B A NO. II-344 Example II-16 SS400 Solvent Coating C A NO. II-345 Example II-17 SS400 Solvent Coating C A NO. II-346 Example II-18 SS400 Solvent Coating B A NO. II-347 Example II-19 SS400 Solvent Coating B A NO. II-348 Example II-20 SS400 Solvent Coating B A NO. II-349 Example II-21 SS400 Solvent Coating C A NO. II-350 Example II-22 SS400 Solvent Coating B B NO. II-351 Example II-23 SS400 Solvent Coating B B NO. II-352 Example II-24 SS400 Solvent Coating B B NO. II-353 Example II-25 SS400 Solvent Coating B B NO. II-354 Example II-26 SS400 Solvent Coating B B NO. II-355 Example II-27 SS400 Solvent Coating B B NO. II-356 Example II-28 SS400 Solvent Coating B B NO. II-357 Example II-29 SS400 Solvent Coating C B NO. II-358 Example II-30 SS400 Solvent Coating A B NO. II-359 Example II-31 SS400 Solvent Coating B B NO. II-360 Example II-32 SS400 Solvent Coating B B NO. II-361 Example II-33 SS400 Solvent Coating B B NO. II-362 Example II-34 SS400 Solvent Coating A B NO. II-363 Example II-35 SS400 Solvent Coating B B NO. II-364 Example II-36 SS400 Solvent Coating B B NO. II-365 Example II-37 SS400 Solvent Coating B B NO. II-366 Example II-38 SS400 Solvent Coating B B NO. II-367 Example II-39 SS400 Solvent Coating B B NO. II-368 Example II-40 SS400 Solvent Coating A B NO. II-369 Example II-41 SS400 Solvent Coating B B NO. II-370 Example II-42 SS400 Solvent Coating B B NO. II-371 Example II-43 SS400 Solvent Coating B B NO. II-372 Example II-44 SS400 Solvent Coating B B NO. II-373 Example II-45 SS400 Solvent Coating B B NO. II-374 Example II-46 SS400 Solvent Coating B B NO. II-375 Example II-47 SS400 Solvent Coating B B NO. II-376 Example II-48 SS400 Solvent Coating A B
(87) TABLE-US-00017 TABLE 5-10 Chemical Film coated conversion metal treatment Metal Corrosion materials agent material Film coating resistance Adhesion NO. II-377 Example II-49 SS400 Solvent Coating B B NO. II-378 Example II-50 SS400 Solvent Coating B B NO. II-379 Example II-51 SS400 Solvent Coating B B NO. II-380 Example II-52 SS400 Solvent Coating B B NO. II-381 Example II-53 SS400 Solvent Coating B A NO. II-382 Example II-54 SS400 Solvent Coating B B NO. II-383 Example II-55 SS400 Solvent Coating B B NO. II-384 Example II-56 SS400 Solvent Coating A A NO. II-385 Example II-57 SS400 Solvent Coating B A NO. II-386 Example II-58 SS400 Solvent Coating B A NO. II-387 Example II-59 SS400 Solvent Coating A A NO. II-388 Example II-60 SS400 Solvent Coating A A NO. II-389 Example II-61 SS400 Solvent Coating A A NO. II-390 Example II-62 SS400 Solvent Coating B A NO. II-391 Example II-63 SS400 Solvent Coating B A NO. II-392 Example II-64 SS400 Solvent Coating B A NO. II-393 Example II-65 SS400 Solvent Coating B A NO. II-394 Example II-66 SS400 Solvent Coating A A NO. II-395 Example II-67 SS400 Solvent Coating A A NO. II-396 Example II-68 SS400 Solvent Coating A A NO. II-397 Example II-69 SS400 Solvent Coating B A NO. II-398 Example II-70 SS400 Solvent Coating B A NO. II-399 Example II-71 SS400 Solvent Coating B B NO. II-400 Example II-72 SS400 Solvent Coating A A NO. II-401 Example II-73 SS400 Solvent Coating A A NO. II-402 Example II-74 SS400 Solvent Coating A A NO. II-403 Example II-75 SS400 Solvent Coating A A NO. II-404 Example II-76 SS400 Solvent Coating A S NO. II-405 Example II-77 SS400 Solvent Coating A A NO. II-406 Example II-78 SS400 Solvent Coating A A NO. II-407 Example II-79 SS400 Solvent Coating A A NO. II-408 Example II-80 SS400 Solvent Coating A A NO. II-409 Example II-81 SS400 Solvent Coating A A NO. II-410 Example II-82 SS400 Solvent Coating A A
(88) TABLE-US-00018 TABLE 5-11 Chemical Film coated conversion metal treatment Metal Corrosion materials agent material Film coating resistance Adhesion NO. II-411 Example II-1 SS400 Powder Coating C B No. II-412 Example II-2 SS400 Powder Coating B B NO. II-413 Example II-3 SS400 Powder Coating B A NO. II-414 Example II-4 SS400 Powder Coating B A NO. II-415 Example II-5 SS400 Powder Coating A A NO. II-416 Example II-6 SS400 Powder Coating B A NO. II-417 Example II-7 SS400 Powder Coating B B NO. II-418 Example II-8 SS400 Powder Coating B B NO. II-419 Example II-9 SS400 Powder Coating B A NO. II-420 Example II-10 SS400 Powder Coating B A NO. II-421 Example II-11 SS400 Powder Coating B B NO. II-422 Example II-12 SS400 Powder Coating B A NO. II-423 Example II-13 SS400 Powder Coating B A NO. II-424 Example II-14 SS400 Powder Coating B A NO. II-425 Example II-15 SS400 Powder Coating B A NO. II-426 Example II-16 SS400 Powder Coating C A NO. II-427 Example II-17 SS400 Powder Coating C A NO. II-428 Example II-18 SS400 Powder Coating B A NO. II-429 Example II-19 SS400 Powder Coating B A NO. II-430 Example II-20 SS400 Powder Coating B A NO. II-431 Example II-21 SS400 Powder Coating C A NO. II-432 Example II-22 SS400 Powder Coating A A NO. II-433 Example II-23 SS400 Powder Coating B A NO. II-434 Example II-24 SS400 Powder Coating B A NO. II-435 Example II-25 SS400 Powder Coating B A NO. II-436 Example II-26 SS400 Powder Coating B A NO. II-437 Example II-27 SS400 Powder Coating B A NO. II-438 Example II-28 SS400 Powder Coating B A NO. II-439 Example II-29 SS400 Powder Coating B A NO. II-440 Example II-30 SS400 Powder Coating B A NO. II-441 Example II-31 SS400 Powder Coating B A NO. II-442 Example II-32 SS400 Powder Coating B A NO. II-443 Example II-33 SS400 Powder Coating B A NO. II-444 Example II-34 SS400 Powder Coating B A NO. II-445 Example II-35 SS400 Powder Coating B A NO. II-446 Example II-36 SS400 Powder Coating B A NO. II-447 Example II-37 SS400 Powder Coating B A NO. II-448 Example II-38 SS400 Powder Coating B A NO. II-449 Example II-39 SS400 Powder Coating B A NO. II-450 Example II-40 SS400 Powder Coating B A NO. II-451 Example II-41 SS400 Powder Coating B A NO. II-452 Example II-42 SS400 Powder Coating B A NO. II-453 Example II-43 SS400 Powder Coating B A NO. II-454 Example II-44 SS400 Powder Coating B A NO. II-455 Example II-45 SS400 Powder Coating B A NO. II-456 Example II-46 SS400 Powder Coating B A NO. II-457 Example II-47 SS400 Powder Coating B A NO. II-458 Example II-48 SS400 Powder Coating B A
(89) TABLE-US-00019 TABLE 5-12 Chemical Film coated conversion metal treatment Metal Corrosion materials agent material Film coating resistance Adhesion NO. II-459 Example II-49 SS400 Powder Coating B A NO. II-460 Example II-50 SS400 Powder Coating B A NO. II-461 Example II-51 SS400 Powder Coating B A NO. II-462 Example II-52 SS400 Powder Coating B A NO. II-463 Example II-53 SS400 Powder Coating B A NO. II-464 Example II-54 SS400 Powder Coating B A NO. II-465 Example II-55 SS400 Powder Coating B A NO. II-466 Example II-56 SS400 Powder Coating A A NO. II-467 Example II-57 SS400 Powder Coating A A NO. II-468 Example II-58 SS400 Powder Coating B A NO. II-469 Example II-59 SS400 Powder Coating A A NO. II-470 Example II-60 SS400 Powder Coating A A NO. II-471 Example II-61 SS400 Powder Coating A S NO. II-472 Example II-62 SS400 Powder Coating B A NO. II-473 Example II-63 SS400 Powder Coating B A NO. II-474 Example II-64 SS400 Powder Coating B A NO. II-475 Example II-65 SS400 Powder Coating A A NO. II-476 Example II-66 SS400 Powder Coating A A NO. II-477 Example II-67 SS400 Powder Coating A A NO. II-478 Example II-68 SS400 Powder Coating A A NO. II-479 Example II-69 SS400 Powder Coating B A NO. II-480 Example II-70 SS400 Powder Coating B A NO. II-481 Example II-71 SS400 Powder Coating B A NO. II-482 Example II-72 SS400 Powder Coating A S NO. II-483 Example II-73 SS400 Powder Coating A S NO. II-484 Example II-74 SS400 Powder Coating A A NO. II-485 Example II-75 SS400 Powder Coating A S NO. II-486 Example II-76 SS400 Powder Coating S S NO. II-487 Example II-77 SS400 Powder Coating A S NO. II-488 Example II-78 SS400 Powder Coating A S NO. II-489 Example II-79 SS400 Powder Coating A S NO. II-490 Example II-80 SS400 Powder Coating A S NO. II-491 Example II-81 SS400 Powder Coating A S NO. II-492 Example II-82 SS400 Powder Coating A S
(90) TABLE-US-00020 TABLE 5-13 Chemical Film coated conversion metal Pretreatment treatment materials agent agent Metal material Film coating Corrosion resistance Adhesion NO. II-493 Example 3 Example II-4 SPCC Electrodeposition coating S S NO. II-494 Example 3 Example II-6 SPCC Electrodeposition coating A A NO. II-495 Example 3 Example II-59 SPCC Electrodeposition coating S S NO. II-496 Example 11 Example II-4 SPCC Electrodeposition coating S S NO. II-497 Example 11 Example II-6 SPCC Electrodeposition coating S S NO. II-498 Example 11 Example II-59 SPCC Electrodeposition coating S S NO. II-499 Example 59 Example II-4 SPCC Electrodeposition coating S S NO. II-500 Example 59 Example II-6 SPCC Electrodeposition coating S S NO. II-501 Example 59 Example II-59 SPCC Electrodeposition coating S S NO. II-502 Example 69 Example II-4 SPCC Electrodeposition coating S S NO. II-503 Example 69 Example II-6 SPCC Electrodeposition coating S S NO. II-504 Example 69 Example II-59 SPCC Electrodeposition coating S S NO. II-505 Example 3 Example II-4 SPCC Solvent Coating S S NO. II-506 Example 3 Example II-6 SPCC Solvent Coating A A NO. II-507 Example 3 Example II-59 SPCC Solvent Coating S S NO. II-508 Example 11 Example II-4 SPCC Solvent Coating S S NO. II-509 Example 11 Example II-6 SPCC Solvent Coating S S NO. II-510 Example 11 Example II-59 SPCC Solvent Coating S S NO. II-511 Example 59 Example II-4 SPCC Solvent Coating S S NO. II-512 Example 59 Example II-6 SPCC Solvent Coating S S NO. II-513 Example 59 Example II-59 SPCC Solvent Coating S S NO. II-514 Example 69 Example II-4 SPCC Solvent Coating S S NO. II-515 Example 69 Example II-6 SPCC Solvent Coating S A NO. II-516 Example 69 Example II-59 SPCC Solvent Coating S S NO. II-517 Example 3 Example II-4 SPCC Powder Coating S S NO. II-518 Example 3 Example II-6 SPCC Powder Coating A A NO. II-519 Example 3 Example II-59 SPCC Powder Coating S S NO. II-520 Example 11 Example II-4 SPCC Powder Coating S S NO. II-521 Example 11 Example II-6 SPCC Powder Coating S S NO. II-522 Example 11 Example II-59 SPCC Powder Coating S S NO. II-523 Example 59 Example II-4 SPCC Powder Coating S S NO. II-524 Example 59 Example II-6 SPCC Powder Coating S S NO. II-525 Example 59 Example II-59 SPCC Powder Coating S S NO. II-526 Example 69 Example II-4 SPCC Powder Coating S S NO. II-527 Example 69 Example II-6 SPCC Powder Coating S A NO. II-528 Example 69 Example II-59 SPCC Powder Coating S S
(91) TABLE-US-00021 TABLE 5-14 Chemical Film coated conversion metal Pretreatment treatment materials agent agent Metal material Film coating Corrosion resistance Adhesion NO. II-529 Example 3 Example II-4 SS400 Electrodeposition coating B A NO. II-530 Example 3 Example II-6 SS400 Electrodeposition coating B B NO. II-531 Example 3 Example II-59 SS400 Electrodeposition coating A S NO. II-532 Example 11 Example II-4 SS400 Electrodeposition coating B A NO. II-533 Example 11 Example II-6 SS400 Electrodeposition coating B A NO. II-534 Example 11 Example II-59 SS400 Electrodeposition coating A S NO. II-535 Example 59 Example II-4 SS400 Electrodeposition coating A A NO. II-536 Example 59 Example II-6 SS400 Electrodeposition coating B A NO. II-537 Example 59 Example II-59 SS400 Electrodeposition coating S S NO. II-538 Example 69 Example II-4 SS400 Electrodeposition coating B A NO. II-539 Example 69 Example II-6 SS400 Electrodeposition coating B A NO. II-540 Example 69 Example II-59 SS400 Electrodeposition coating A S NO. II-541 Example 3 Example II-4 SS400 Solvent Coating B A NO. II-542 Example 3 Example II-6 SS400 Solvent Coating B B NO. II-543 Example 3 Example II-59 SS400 Solvent Coating A A NO. II-544 Example 11 Example II-4 SS400 Solvent Coating B A NO. II-545 Example 11 Example II-6 SS400 Solvent Coating B A NO. II-546 Example 11 Example II-59 SS400 Solvent Coating A A NO. II-547 Example 59 Example II-4 SS400 Solvent Coating A A NO. II-548 Example 59 Example II-6 SS400 Solvent Coating A A NO. II-549 Example 59 Example II-59 SS400 Solvent Coating A S NO. II-550 Example 69 Example II-4 SS400 Solvent Coating B A NO. II-551 Example 69 Example II-6 SS400 Solvent Coating B A NO. II-552 Example 69 Example II-59 SS400 Solvent Coating A A NO. II-553 Example 3 Example II-4 SS400 Powder Coating B A NO. II-554 Example 3 Example II-6 SS400 Powder Coating B A NO. II-555 Example 3 Example II-59 SS400 Powder Coating A A NO. II-556 Example 11 Example II-4 SS400 Powder Coating A A NO. II-557 Example 11 Example II-6 SS400 Powder Coating A A NO. II-558 Example 11 Example II-59 SS400 Powder Coating A A NO. II-559 Example 59 Example II-4 SS400 Powder Coating A A NO. II-560 Example 59 Example II-6 SS400 Powder Coating A A NO. II-561 Example 59 Example II-59 SS400 Powder Coating S S NO. II-562 Example 69 Example II-4 SS400 Powder Coating B A NO. II-563 Example 69 Example II-6 SS400 Powder Coating A A NO. II-564 Example 69 Example II-59 SS400 Powder Coating A A