FLUX COMPOSITION, LIQUID FLUX, RESIN FLUX CORED SOLDER, AND SOLDER PASTE

Information

  • Patent Application
  • 20150158128
  • Publication Number
    20150158128
  • Date Filed
    June 10, 2013
    11 years ago
  • Date Published
    June 11, 2015
    9 years ago
Abstract
Provided is flux composition which is capable of removing any metal oxide formed on a surface of aluminum and is unnecessary for washing any flux residues.
Description
TECHNICAL FIELD

The present invention relates to flux composition which removes any metal oxide existing on solder and a surface of metal to be soldered. Particularly, it relates to the flux composition that is capable of removing an oxide film of aluminum as the metal to be soldered, liquid flux obtained by solving this flux composition by a solvent, resin flux cored solder wire in which flux composed of the flux composition is included in solder, and solder paste in which a thixotropic agent, a solvent and solder powder are added to the flux composition.


BACKGROUND

In general, the flux used for the soldering has an effect of removing any metal oxide existing on the solder and the surface of metal to be soldered at a solder melting temperature and an effect of enabling metallic elements to be transferred at a boundary therebetween.


In recent years, trace by aluminum (Al) or an aluminum alloy has been proposed instead of trace by copper (Cu). It has been known that in the soldering to it is difficult to remove an oxide film formed on a surface of aluminum and the flux having enhanced activity has been used.


When, however, the flux has too enhanced activity, it corrodes base metal so that reliability cannot be maintained after the soldering. Further, the flux composition includes any components which cannot be decomposed and volatilized at a heating temperature at the soldering time and they remain as flux residue around the soldered portion after the soldering. In the flux having enhanced activity, water-soluble base materials have been often used and when the flux residue has water-soluble component, in a soldered product such as electronic parts and a board, there is a risk such that the corrosion facilitates in the soldered portion and the like because of moisture absorption into the flux residue. Therefore, it is necessary to wash the flux residue when components composing the flux residue are water-soluble.


On the other hand, when the flux has less activity, it is insufficient to remove the oxide film so that wettability thereof deteriorates and soldability thereof also deteriorates.


Accordingly, flux into which alcohol amine is added has been conventionally proposed (See patent document 1, for example).


DOCUMENT FOR PRIOR ART
Patent Document

Patent Document 1: Japanese Patent Application Publication No. 2002-59293


SUMMARY OF THE INVENTION
Problem to be Solved by the Invention

However, in the conventional flux, it is necessary to wash the flux residue because water solubility alcohol amine is added thereto as a main component.


The present invention is accomplished to resolve the problem and an object of the invention is to provide flux composition that is capable of removing an oxide film formed on a surface of aluminum and is unnecessary for washing the flux residue, liquid flux obtained by solving this flux composition by a solvent, resin flux cored solder wire in which flux composed the flux composition is included in solder, and solder paste in which a thixotropic agent, a solvent and solder powder are added to the flux composition.


Means for Solving the Problems

The inventors of this application have found out components such that it is capable of removing the oxide film formed on the surface of aluminum and making the wash of the flux residue unnecessary by using water-insoluble resin as base material and adding amine and fluorine series activator as the flux composition thereto.


This invention relates to flux composition containing water-insoluble resin of 65 through 94 mass % as base material, at least amine of 3 through 22 mass %, and amine fluoride salt as the fluorine series activator, which is formed by reacting amine and acid, of 1 through 30 mass %.


It is preferable that the amine is aromatic amine having an aromatic ring on a structure thereof. It is preferable to contain a compound having a guanidine skeleton as the amine It is preferable to contain ethylamine as the amine.


It is preferable that the amine contains at least any one species of the aromatic amine, the compound having a guanidine skeleton and the ethylamine, which have been described above, and it is preferable to contain at least any one species of a pyridine derivative, an imidazole derivative, a guanidine derivative, ethylamine and picoperine, as the amine.


It is preferable to contain, as the amine fluoride salt, at least any one species of salt formed from an amine compound including any of the pyridine derivative, the imidazole derivative, the guanidine derivative, the ethylamine and the picoperine, and acid including any of hydrofluoric acid, fluoboric acid and hexafluorosilicic acid, or amine-borontrifluoride complex.


It is preferable to contain any of 4-benzilpyridine, 4-phenylpyridine, 4-(3-phenylpropyl) pyridine as the pyridine derivative, any of 1-benzil-2-phenylimidazole, 2-phenylimidazole, 1-benzil-2-methylimidazole, 2-ethyl-4-methylimidazole, 1,2-dimethylimidazole as the imidazole derivative and any of 1,3-diphenylguanidine, 1,3-di-o-tolylguanidine, 1-o-tolylbiguanide as the guanidine derivative.


It is preferable to contain at least any one species of polymerized rosin, hydrogenated rosin and acid-modified rosin as the resin.


Further, this invention relates to liquid flux obtained by solving the above-mentioned flux composition by a solvent, resin flux cored solder wire in which flux composed of this flux composition is included in solder, and solder paste in which a thixotropic agent, a solvent and solder powder are added to this flux composition.


Effect of the Invention

According to the invention, by a combination of the amine and the amine fluoride salt in the flux composition, it is capable of removing an oxide film formed on a surface of aluminum. This allows the wettability to be improved at the soldering in the solder using the flux composed of the flux composition according to the invention and enables the solderability to be improved.


Further, since this invention uses water-insoluble resin as base material, it is possible to suppress moisture absorption into the flux residue and to suppress any corrosion of the soldered portion. Further, usage of the resin as the base material allows activator component such as the amine fluoride salt to be maintained in the flux residue with the component being trapped in the flux residue so that it is possible to suppress reaction of the soldered portion and the activator component.


The flux composition according to the invention, the liquid flux obtained by solving this flux composition by a solvent, the resin flux cored solder wire in which flux composed of this flux composition is included in solder, and the solder paste in which a thixotropic agent, a solvent and solder powder are added to the flux composition allow the wettability to be improved at the soldering and enable the solderability to be improved. Further, it is possible to suppress moisture absorption into the flux residue and to suppress any reaction of the activator component in the flux residue and the soldered portion to suppress the corrosion of the soldered portion. Thus, since the corrosion of the soldered portion by the flux residue is suppressed, their usage is allowable without washing the flux residue.





BRIEF DESCRIPTION OF DRAWINGS


FIG. 1 is a graph showing a relationship between an additive amount of amine fluoride salt and wetting speed.



FIG. 2 is a graph showing a relationship between an additive amount of amine compound and wetting speed.





MODES FOR IMPLEMENTING THE INVENTION

The flux composition according to this embodiment contains water-insoluble resin, which is fusible at a heating temperature at the soldering, as base material, amine compound and fluorine series activator. The fluorine series activator is preferably added as the salt thereof. The amine fluoride salt, which is formed by reacting the amine compound and any acid, is added. The liquid flux according this embodiment is composed by solving the flux composition according to the following embodiments by a solvent. The resin flux cored solder wire according to the embodiment is composed so that flux composed of the flux composition according to the following embodiments is included in linear solder. The solder paste according to this embodiment is composed so that a thixotropic agent, a solvent and solder powder are added to the flux composition according to the following embodiments.


The flux composition includes any components which cannot be decomposed and volatilized at a heating temperature in the soldering time and they remain as flux residue around the soldered portion after the soldering. When the flux residue has water-soluble component, in a soldered product such as electronic parts and a board, there is a risk such that the corrosion facilitates in the soldered portion and the like because of moisture absorption into the flux residue. Therefore, it is necessary to wash the flux residue when components becoming the flux residue are water-soluble.


For the flux composition according to this embodiment, in order to allow the soldered product to be used without washing the flux residue, the base material which is main component of the flux composition and becomes the residue is required to have water-insoluble component.


Further, the flux composition according to this embodiment is required to allow the activator component to be mixed thereinto, to present non-volatilizing at a heating temperature in a soldering time, and to have a heat-resisting property that can protect the activator component from heat and fusibility by which the activator component can contact metal to be soldered at the heating temperature in the soldering time.


Therefore, in the flux composition according to this embodiment, as the resin that is water-insoluble but is soluble in an organic solvent and is fusible at a heating temperature in the soldering time, rosin is used as the base material. As the rosin, any of the polymerized rosin, the hydrogenated rosin and the acid-modified rosin or their combination is preferable.


Regarding the flux composition according to this embodiment, the metal to be soldered is aluminum so that it is required to remove an oxide film formed on the surface of aluminum. In order to remove aluminum hydroxide (AlOOH) and aluminum oxide (Al2O3; alumina) which are the oxide film formed on the surface of the aluminum, the amine compound and the amine fluoride salt are added to the flux composition according to the invention.


The reaction of aluminum hydroxide (AlOOH), which is the oxide film formed on the surface of the aluminum, facilitates under an environment in which a hydrogen ion exponent (pH) is high.


By adding the amine compound into the flux composition according to this embodiment, the reaction of the oxide film on the aluminum facilitates by basic of the amine compound in the soldering time so that a product (AlOO) formed on the oxide film and a component of the amine compound are reacted to prevent a formation of the oxide film.


In this embodiment, as the amine compound to be added to the flux composition, it is desirable to have basic that allows the reaction of the oxide film on the aluminum to facilitate and to have low corrosive property because there is a possibility of remaining in the residue and high insulation reliability. Preferably, it is ethylamine, an aromatic amine having an aromatic ring on a structure thereof, or an amine compound having a guanidine skeleton.


As such an amine compound, it is preferable to contain any of a pyridine derivative, an imidazole derivative, a guanidine derivative and picoperine.


As the pyridine derivative, it is preferable to contain any of 4-benzilpyridine, 4-phenylpyridine and 4-(3-phenylpropyl) pyridine.


It is preferable that the imidazole derivative contains 1-benzil-2-phenylimidazole, 2-phenylimidazole, 1-benzil-2-methylimidazole, 2-ethyl-4-methylimidazole and/or 1,2-dimethylimidazole.


As the guanidine derivative, it is also preferable to contain any of 1,3-diphenylguanidine, 1,3-di-o-tolylguanidine and 1-o-tolylbiguanide.


In the aluminum oxide (Al2O3) which is the oxide film formed on the surface of the aluminum, fluorine ion (F) generates a crack through which the aluminum is exposed so that it is in a state where the reaction thereof facilitates.


In the flux composition according to this embodiment, by adding the amine fluoride salt, fluorine (F) constituting the amine fluoride salt is ionized. The fluorine ion (F) allows any cracks to be generated in the oxide film of aluminum and the aluminum is exposed from the oxide film through the cracks so that the reaction thereof facilitates and the oxide film peels off.


In this embodiment, as the amine fluoride salt to be added to the flux composition, it is preferable to contain at least any one species of salt formed from the above-mentioned amine including any of the pyridine derivative, the imidazole derivative, the guanidine derivative, the ethylamine and the picoperine, and acid including any of hydrofluoric acid (HF), fluoboric acid (HBF4) and hexafluorosilicic acid, or amine-borontrifluoride complex.


The amine fluoride salt to be added to the flux composition may be configured so that the previously produced one is mixed to the rosin. Further, it may be configured so that any of the above-mentioned amine compound and acid or a combination of them is mixed to the rosin and the amine fluoride salt is produced by the reaction in the base material.


EMBODIMENTS

They prepared flux of the embodiments and the comparison examples as indicated in the following respective tables and reviewed solderability, corrosive property and wettability thereof. In the embodiments and the comparison examples, liquid flux obtained by solving the flux composition was used. It is to be noted that a percentage of the composition in each engagement is mass % of the flux composition. First, the following will describe an evaluation method of each review and conditions thereof.


(1) Review of Solderability


(a) Evaluation Method:


They mounted ring-shaped solder on an aluminum plate, applied flux thereto and then, heated to melt the solder and to confirm the wettability thereof.


(b) Evaluation Conditions:


Test Piece; Aluminum Plate (A1050)


Size of Test Piece; Length of 30 mm, Width of 5 mm and Thickness of 0.3 mm


An amount of Flux Application; 0.05 ml


Solder; Sn-3.0Ag-0.5Cu


Soldering Temperature; 300° C.


(c) Decision Standards


Double Circle Mark; Well soldered


Single Circle Mark; Small soldered but being wet and spread-out


Triangle Mark; Soldered but being not spread-out


Cross Mark; Not soldered


(2) Review of Corrosive Property


(a) Evaluation Method:


They left each of the soldered test pieces as it is for 63 hours in an environment of the temperature of 40° C. and humidity of 90% and confirmed the corrosive property thereof after the soldering.


(b) Decision Standards


Double Circle Mark; No corrosion was seen


Single Circle Mark; Corrosion was partially seen


Triangle Mark; Corrosion was seen


Cross Mark; Corrosion was widely seen


Dash mark; Non-execution


(3) Wetting Speed of Solder


a) Evaluation Method:


They immersed and applied the flux to the aluminum plates and measured a period of wetting time for the solder using a meniscograph method.


(b) Evaluation Conditions


Test apparatus; Solder checker SAT-5200 manufactured by RHESCA


Solder; Sn-15Zn-0.3Ti-0.03Al


(1) Aluminum Plate; A1050


Size of Test Piece; Length of 30 mm, Width of 5 mm and Thickness of 0.3 mm


Soldering Temperature; 300° C.


Immersing speed; 20 min/sec


Depth of immersion; 3 mm


Period of immersing time; 10 sec


1. Review of Activator Component


They prepared the flux of the embodiments and the comparison examples based on the composition as indicated in Table 1 to order to review the solderability and the corrosive property by the activator component and reviewed the solderability and the corrosive property by the evaluation methods and the evaluation conditions, which were indicated by the above-mentioned items (1) and (2). In the flux composition indicated in Table 1, they used the amine fluoride salt composed of the amine compound and the fluorine series activator as the embodiments and they used the salt composed of the amine compound and bromine series activator or chlorine series activator as the comparison examples. Further, they used the pyridine derivative as the amine and the rosin as the resin.












TABLE 1










COMPARISON



EMBODIMENTS
EXAMPLES




















1
2
3
4
5
6
7
8
1
2
3
4























DPhG•HBF4
1
3
5
8
12.5
30








ETHYLAMINE•HF






12.5


PIPERIDINE•BF3







12.5


DPhG•HBr








12.5


DPhG•HCl









12.5


ETHYLAMINE•HBr










12.5


ETHYLAMINE•HCl











12.5


PYRIDINE
3
14
13.5
13
12.5
10
12.5
12.5
12.5
12.5
12.5
12.5


DERIVATIVE


ROSIN
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-



ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCEE
ANCE


SOLDERABILITY
Δ







X
X
X
X


CORROSIVE






Δ







PROPERTY









From the results of Table 1, they have found out that the flux of the embodiments in which the amine fluoride salt composed of the amine compound and the fluorine series activator is added thereto as the activator component presents good solderability. Additionally, they have also found out that the flux of the embodiments prevents the corrosion after the soldering. On the other hand, they have found out that the flux of the comparison examples in which the salt composed of the amine compound and the bromine series activator or the chlorine series activator is added thereto as the activator component presents no soldering in any examples, which results in a very bad solderability.


Here, they have found out, from the results of Table 1, that there is a difference in the solderability based on the additive amount of the amine fluoride salt which is an activator component. Accordingly, they showed the relationship between the additive amount of the amine fluoride salt and the wetting speed by the evaluation method and the evaluation conditions indicated in the above-mentioned item (3) in the FIG. 1. FIG. 1 is the graph showing the relationship between the additive amount of the amine fluoride salt and wetting speed. FIG. 1 shows a result obtained by reviewing, as the amine fluoride salt, the salt obtained by reacting diphenylguanidine with fluoboric acid (HBF4).


As shown in FIG. 1, they have found out that when the additive amount of the amine fluoride salt is 1% or more, the wetting speed of the solder increases but when the additive amount thereof is 4% or more, the wetting speed does not widely change to obtain a desired wetting speed. Therefore, they have found out that it is preferable that the additive amount of the amine fluoride salt in the flux is 1% or more. Here, an upper limit of the additive amount of the amine fluoride salt is determined by considering additive amount of other components.


2. Review of Amine Compound


They prepared the flux of the embodiments and the comparison examples based on the composition as indicated in Table 2 to order to review the solderability and the corrosive property by the amine compound and reviewed the solderability and the corrosive property by the evaluation methods and the evaluation conditions, which were indicated by the above-mentioned items (1) and (2).












TABLE 2










COMPARISON



EMBODIMENTS
EXAMPLES




















1
2
3
4
5
6
7
8
9
1
2
3























AMINE FLUORIDE
14
13.5
13
12.5
11
12.5
12.5
12.5
12.5
12.5
12.5
12.5


SALT


PYRIDINE
3
5
8
12.5
22


DERIVATIVE


IMIDAZOLE





12.5


DERIVATIVE


GUANIDINE






12.5


DEVIVATIVE


ETHYLAMINE







12.5


PICOPERIN








12.5


2-AMINOPROPIONIC









12.5


ACID


AMMONIUM










12.5


ADIPATE


STEARIC ACID











12.5


AMIDE


ROSIN
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-
BAL-



ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE
ANCE


SOLDERABILITY









X
X
X


CORROSIVE














PROPERTY









From the results of Table 2, they have found out that the flux of the embodiments into which any of the pyridine derivative, the imidazole derivative, the guanidine derivative, the ethylamine and the picoperine is added as the amine compound presents good solderability. Additionally, they have also found out that the flux of the embodiments prevents the corrosion after the soldering. On the other hand, they have found out that the flux of the comparison examples into which any of 2-aminopropionic acid, ammonium adipate, and stearic acid amide is added presents no soldering in any examples, which results in a very bad solderability.


Here, they have found out, from the results of Table 2, that there is a difference in the solderability based on the additive amount of the amine compound. Accordingly, they showed the relationship between the additive amount of the amine compound and the wetting speed by the evaluation method and the evaluation conditions indicated in the above-mentioned item (3) in the FIG. 2. FIG. 2 is the graph showing the relationship between the additive amount of the amine compound and wetting speed. FIG. 2 shows a result obtained by reviewing, as the amine compound, the 4-benzilpyridine which is the pyridine derivative.


As shown in FIG. 2, they have found out that when the additive amount of the 4-benzilpyridine is 3% or more, a desired wetting speed is obtained. Therefore, they have found out that it is preferable that the additive amount of the amine compound in the flux is 3% or more. Here, an upper limit of the additive amount of the amine compound is determined by considering additive amount of other components.


3. Review of Solderability and Corrosive Property by Resin-base Flux and Water Soluble Flux


They prepared the flux of the embodiments and the comparison examples based on the composition as indicated in Table 3 to order to review the solderability and the corrosive property of the resin-base flux and the water-soluble flux and reviewed the solderability and the corrosive property by the evaluation methods and the evaluation conditions, which were indicated by the above-mentioned items (1) and (2). In the flux composition indicated in Table 3, they used the flux, as the embodiments, in which the rosin as the water-insoluble resin was base material and to which the amine compound and the amine fluoride salt were added. On the other hand, they used the flux, as the comparison examples, in which water solubility triethanolamine was base material and to which fluoboric metal salt is added.












TABLE 3










COMPARISON



EMBODIMENTS
EXAMPLES















1
2
3
1
2
3
4


















AMINE FLUORIDE
12.5
12.5
12.5






SALT


PYRIDINE
12.5


DERIVATIVE


IMIDAZOLE

12.5


DERIVATIVE


GUANIDINE


12.5


DEVIVATIVE


ETHYLAMINE


ROSIN
BAL-
BAL-
BAL-



ANCE
ANCE
ANCE


FLUOBORIC ACID






10


FLUOBORIC ZINC



10

3


FLUOBORIC




10
10
7


CADMIUM


FLUOBORIC



8


AMMONIUM


FLUOBORIC




8
5


AMMONIA


TRIETHANOLAMINE



82
82
82
83


SOLDERABILITY









CORROSIVE



X
X
X
X


PROPERTY









From the results of Table 3, they have found out that the flux of all of the embodiments in which the rosin is base material and into which the amine compound and the amine fluoride is added presents good solderability. Additionally, they have also found out that the flux of the embodiments prevents the corrosion after the soldering. On the other hand, they have found out that the flux of the comparison examples in which the triethanolamine is base material and to which the fluoboric metal salt is added presents any soldering but have found out that the corrosion facilitates.


4. Review Results


The rosin which is the base material of the flux composition has been necessary to be of about 65% of the flux composition in order to maintain the amine and the amine fluoride salt. Accordingly, they have found out that the additive amount of the rosin is preferably of 65 through 94% of the flux composition.


Further, a lower limit of the additive amount of the amine compound is preferably 3% or more, which has been described above. They have found out that when determining the upper limit of the additive amount of amine compound taking into consideration the additive amount of other components such as the rosin and the amine fluoride, the additive amount of the amine compound is preferably of 3 through 22% of the flux composition.


Additionally, a lower limit of the additive amount of the amine fluoride salt is preferably 1% or more, which has been described above. They have found out that when determining the upper limit of the additive amount of the amine fluoride salt taking into consideration the additive amount of other components such as the rosin and the amine compound, the additive amount of the amine fluoride salt is preferably of 1 through 30% of the flux composition.


INDUSTRIAL AVAILABILITY

The present invention is preferably applicable to flux which is used for soldering aluminum (Al) and has such excellent solderability and corrosion resistance that cannot be obtained by flux used for a case where the metal to be soldered is copper (Cu) or the like.


Although the liquid flux obtained by solving the flux composition according to the invention by a solvent has been described as the embodiments of the invention, the present invention is also applicable to the resin flux cored solder wire in which the flux composed of the flux composition according to the invention is included in the solder, and the solder paste in which a thixotropic agent, a solvent and solder powder are added to the flux composition according to the invention.

Claims
  • 1. Flux composition comprising: water-insoluble resin of 65 through 94 mass % as base material,amine in an amount of at least of 3 through 22 mass %, andamine fluoride salt in an amount of 1 through 30 mass %, the amine fluoride salt being formed by reacting amine with acid.
  • 2. The flux composition according to claim 1 wherein the amine is aromatic amine having an aromatic ring on a structure thereof.
  • 3. The flux composition according to claim 1 wherein the flux composition contains a compound having a guanidine skeleton as the amine.
  • 4. The flux composition according to claim 1 wherein the flux composition contains at least any one species of a pyridine derivative, an imidazole derivative, a guanidine derivative, ethylamine and picoperine, as the amine.
  • 5. The flux composition according to claim 1 wherein the flux composition contains, as the amine fluoride salt, at least one species of salt formed from an amine compound including any of the pyridine derivative, the imidazole derivative, the guanidine derivative, the ethylamine and the picoperine, and acid including any of hydrofluoric acid, fluoboric acid and hexafluorosilicic acid, or amine-borontrifluoride complex.
  • 6. The flux composition according to claim 4 wherein the flux composition contains: any of 4-benzilpyridine, 4-phenylpyridine, 4-(3-phenylpropyl) pyridine as the pyridine derivative;any of 1-benzil-2-phenylimidazole, 2-phenylimidazole, 1-benzil-2-methylimidazole, 2-ethyl-4-methylimidazole, 1,2-dimethylimidazole as the imidazole derivative; andany of 1,3-diphenylguanidine, 1,3-di-o-tolylguanidine, 1-o-tolylbiguanide as the guanidine derivative.
  • 7. The flux composition according to claim 1 wherein the flux composition contains at least any one species of polymerized rosin, hydrogenated rosin and acid-modified rosin as the resin.
  • 8. Liquid flux wherein the liquid flux is obtained by dissolving the flux composition according to claim 1 in a solvent.
  • 9. Resin flux cored solder wire wherein a quantity of the flux composed of the flux composition according to claim 1 is included in solder.
  • 10. Solder paste comprising a thixotropic agent, a solvent and solder powder together with the flux composition according to claim 1.
  • 11. The flux composition according to claim 5 wherein the flux composition contains: any of 4-benzilpyridine, 4-phenylpyridine, 4-(3-phenylpropyl) pyridine as the pyridine derivative;any of 1-benzil-2-phenylimidazole, 2-phenylimidazole, 1-benzil-2-methylimidazole, 2-ethyl-4-methylimidazole, 1,2-dimethylimidazole as the imidazole derivative; and any of 1,3-diphenylguanidine, 1,3-di-o-tolylguanidine, 1-o-tolylbiguanide as the guanidine derivative.
Priority Claims (1)
Number Date Country Kind
2012-132095 Jun 2012 JP national
PCT Information
Filing Document Filing Date Country Kind
PCT/JP2013/065954 6/10/2013 WO 00