Title of Invention | "FURAN RESIN COMPOSITION FOR PRODUCTION OF MOLDS." |
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Abstract | A furan resin composition for production of molds, characterized by that the composition comprises furan resin and urea; the composition contains urea in a content of 1 to 10% by weight; the composition has a pH value at 25°C of 7 to 10; and the urea is a urea remaining as unreacted or a separately added urea. |
Full Text | Technical Field The present invention relates to a furan resin composition used for addition to a refractory granular material in order to produce a mold. Prior arts A self-curing mold is produced by adding an acid-curing resin such as f urf uryl alcohol and a hardener such as phosphoric acid or benzene sulfonic acid to a refractory granular material such as silica sand, then mulling the resulting mixture, charging the resulting mulled sand into a wooden pattern, and curing the resin. However, the curing rate of the resin based on furfuryl alcohol is hardly regulated, and there is a tendency toward a reduction in mold strength, and for improving this, urea/formaldehyde modified furan resin having urea co-condensed therein is generally used ("Igata Zokeiho" (Foundry Molding Method), 4th ed., pp. 134-135, November 18 (1996), Japanese Association of Casting Technology (JACT)). For further improving the curing properties of a binder composition containing an acid-curing resin, various measures have been proposed. For example, JP-B 51-26122 discloses a sand binder for casting using furfuryl alcohol in combination with a composition prepared by reacting urea, glyoxal and formaldehyde in a specific ratio. JP-A 54-46126 discloses a sand binder composition for casting comprising an acid-curing compound, a phenol derivative and water in a specific ratio. JP-A 6-297072 discloses that a specific curing accelerator is contained in a binder composition for production of molds which is based on an acid-curing resin. JP-A 8-57577 discloses that a specific curing accelerator is contained in a binder composition for production of molds which is obtained by incorporating furfuryl alcohol as a major component. Summary of the invention The present invention relates to a furan resin composition for production of molds, which has a urea content of 1 to 10 wt-% and a pH value (25°C) of 7 to 10. The present invention also relates to a binder for production of molds, which comprises the furan resin composition for production of molds according to the present invention. Further, the present invention relates to a binder for production of molds, which comprises the furan resin composition for production of molds according to the present invention and at least one curing accelerator selected from the group consisting of a compound represented by the following general formula (1) and a phenol derivative having a substituent group increasing the charge density in the ortho-or para-position relative to a hydroxyl group of the phenol, as well as a method of producing molds comprising use of the binder for production of molds. (Figure Remove) wherein X1 and X2 each represent a hydrogen atom, CH, or C2H5. The invention provides use of the above shown furan resin composition as a binder for production of molds. Detailed explanation of the invention In the prior arts, the furan resin used as a binder for a self-curing mold is obtained usually by co-condensation of urea or formaldehyde with furfuryl alcohol, and from the viewpoint of improving working atmosphere during mold production (during resin curing), there is a desire for reduction in the concentration of formaldehyde in the product. For this purpose, it is conceivable to reduce the concentration of formaldehyde in furan resin by removing unreacted formaldehyde in a process of producing the resin, but this makes the process complicated and cannot be said to be industrially appropriate. Incorporation of formaldehyde scavengers such as urea and resorcinol is conceivable, but these compounds are poor in solubility and stability to generate turbidity and precipitation in the resin composition, thus suffering from a disadvantage of failure to achieve stable supply in a production line. It follows that in the furan resin for mold production, combined use of urea is desirable from the viewpoint of capturing formaldehyde, but is problematic in respect of stability. The present invention provides a furan resin composition for mold production obtained from furfuryl alcohol as a major component, which can suppress turbidity and precipitation in the resin composition and is excellent in curing properties even if urea is contained for improving working atmosphere (particularly for reducing formaldehyde generated during molding). According to the present invention, there is obtained a furan resin composition for mold production, which is excellent in solubility of urea, suppresses turbidity and precipitation and is excellent in working atmosphere (particularly for reduction in formaldehyde generated during molding). When a specific curing accelerator is further used in the furan resin composition for production of molds according to the present invention, there can be obtained a binder for production of molds, which is excellent in solubility of urea without deteriorating curing properties such as mold strength, curing rate etc. The invention improves the solubility and stability of urea in a furan resin composition for mold production using urea to reduce the folmaldehyde concentration and improve the working environment. The furan resin composition for production of molds according to the present invention is obtained by polycondensation of furfuryl alcohol as a major component. As shown on page 135 etc. in "Igata Zokeiho" (Foundry Molding Method), 4th ed., published in November 18, 1996 by Japanese Association of Casting Technology (JACT), the furan resin composition is obtained for example by polycondensation of furfuryl alcohol, urea and an aldehyde as major components. As the aldehyde, conventional known aldehyde compounds such as formaldehyde, glyoxal and furfural can be used. In the present invention, formaldehyde is particularly preferably used. When furfuryl alcohol, urea and an aldehyde are polycondensed, the furan resin composition of the present invention is obtained as a mixture of a furfuryl alcohol condensate, a furfuryl alcohol/alkylol urea polycondensate, a urea/aldehyde condensate, a polycondensate produced by further polycondensation of the respective condensates, unreacted components, water etc. , depending on the compounding ratio of the respective components. The urea in the furan resin composition of the present invention is urea not having undergone any condensation reaction with formaldehyde or furfuryl alcohol, and may be either urea remaining as unreacted or a separately added urea. In the present invention, the content of urea in the furan resin composition is 1 to 10 wt%, preferably 1 to 8 wt% . It is more preferably 1 to 6 wt%, even more preferably 2 to 6 wt.% or 1 to 4 wt. %, even more preferably 2 to 4 wt. % from the viewpoint of prevention of defects of casting depending on material of a cast product. The urea in the furan resin composition can be measured by the following procedures of LC/MS analysis. Column: TSK-gel Amido 80 (4.6 mm(j) * 250 mm) . Mobile phase: acetonitrile/water = 95/5 (isocratic). Column oven: 40°C. Flow rate: 1.0 mL/min (MS introduction split: 1/4). Detection: MSB (SIM), POSI detection; m/z, 60.1 ± 10; resolution, 0.5 amu; DWELL TIME, 250 msec; ion source heater, 300°C. Analysis time: 15 minutes. Preparation of a sample: dilution with acetone/water = 95/5. The furan resin composition of the present invention has a pH value (25°C) of 7 to 10, preferably 7.5 to 10, more preferably 8 to 10 to obtain a stable furan resin composition. By regulating the pH value in this range, the turbidity and precipitation of urea can be suppressed. The pH value (25°C) is preferably 7 to 10, more preferably 7 to 9 in order to obtain a mold having an excellent strength. The pH value of the furan resin composition of the present invention is a value determined by measuring a mixture at 25°C of the furan resin composition and water prepared in a weight ratio of 50/50 under stirring. Regulation of the pH can be conducted with an alkali such as potassium hydroxide or sodium hydroxide or an acid such as acetic acid or oxalic acid. Usually, the pH value of a urea/formaldehyde modified furan resin-based binder composition using urea is lower than 7. The furan resin composition of the present invention is characterized by having a urea content of 1 to 10 wt% and a pH value (at 25°C) of 7 to 10 thereby giving a furan resin composition for mold production excellent in working atmosphere and capable of suppressing the turbidity and precipitation of the resin composition. Although the reason that the effect of the present invention is demonstrated is not evident, it is considered that the effect of the present invention on suppression of the turbidity and precipitation of the furan resin composition is demonstrated because by regulating the pH (at 25°C) of the furan resin composition in the range of 7 to 10, the solubility of urea in the furan resin composition is improved or the reaction of urea with the furan resin composition is suppressed thereby permitting the urea to occur stably in the resin composition, thus exhibiting the effect of the present invention. The furan resin composition of the present invention can provide a binder for mold production containing the same. Further, the furan resin composition of the present invention can be used in combination with a hardener, to constitute a binder for mold production. When the furan resin composition of the present invention is used to produce a mold, a hardener such as a conventionally known phosphoric acid compound or a sulfonic acid compound can be used as the hardener for curing the resin composition. The content of the hardener in the binder is preferably 10 to 60 parts by weight, more preferably 15 to 40 parts by weight, based on 100 parts by weight of the furan resin composition. As the phosphoric acid compound, use is made of phosphoric acid, condensed phosphoric acid, phosphates such as methyl phosphate and ethyl phosphate, and phosphates such as potassium phosphate and potassium hydrogen phosphate. As the sulfonic acid compound, use is made of aliphatic sulfonic acid such as methane sulfonic acid and ethane sulfonic acid, aromatic sulfonic acid such as benzene sulfonic acid, toluene sulfonic acid, xylene sulfonic acid and phenol sulfonic acid, and inorganic acids such as sulfuric acid. The furan resin composition of the present invention can be used in combination with a hardener in order to serve as a binder, and can provide a binder for mold production not deteriorating curing properties such as mold strength and curing rate by further using at least one curing accelerator selected from the group consisting of a compound represented by the following general formula (1) [referred to hereinafter as curing accelerator (1)] and a phenol derivative having a substituent group increasing the charge density in the ortho-or para-position relative to a hydroxyl group [referred to hereinafter as curing accelerator (2)], (Figure Remove) wherein X.,^ and X2 each represent a hydrogen atom, CH3 or C2H5. The curing accelerator (1) includes 2,5- bishydroxymethyl furan, 2,5-bismethoxymethyl furan, 2,5-bisethoxymethyl furan, 2-hydroxymethyl-5-methoxymethyl furan, 2-hydroxymethyl-5-ethoxymethyl furan, and 2-methoxymethyl-5-methoxymethyl furan. In particular, 2,5-bishydroxymethyl furan is preferably used. This is because 2,5-bishydroxymethyl furan is more highly reactive than 2,5-bismethoxymethyl furan or 2,5-bisethoxymethyl furan and accelerates the curing reaction of a binder comprising furfuryl alcohol polycondensed as a major component. The reason for the high reactivity of 2,5-bishydroxymethyl furan is that its hydroxy group constitutes to the curing reaction. From the viewpoint of an effect of improving the initial strength of a mold and the solubility of the curing accelerator (1) in the furan resin composition, the curing accelerator (1) is used preferably in an amount of 0.5 to 63.0 parts by weight, more preferably 1.8 to 50.0 parts by weight, further more preferably 2.5 to 50.0 parts by weight, even more preferably 3.0 to 40.0 parts by weight, based on 100 parts by weight of the furan resin composition of the present invention. The curing accelerator (2) is a compound having a substituent group increasing the charge density in the ortho-or para-position relative to a hydroxyl group of phenol, and examples include resorcinol, cresol, hydroquinone, phloroglucinol, methylene bisphenol etc. In particular, resorcinol and phloroglucinol are preferable. From the viewpoint of an effect of improving the initial strength of a mold and the solubility of the curing accelerator (2) in a binder, the curing accelerator (2) is contained preferably in an amount of 1.5 to 25.0 parts by weight, more preferably 2.0 to 15.0 parts by weight, still more preferably 3 . 0 to 10.0 parts by weight, based on 100 parts by weight of the furan resin composition of the present invention. Further, a binder constituted by incorporating the furan resin composition of the present invention, the specific curing accelerator described above and the hardener described above can be obtained. The content of the furan resin composition in the constituent components of the binder of the present invention is preferably 50 to 90 wt%, more preferably 60 to 85 wt%. The respective components of the binder described above are admixed with a refractory granular material to give kneaded sand (sand composition for mold production). As the refractory granular material, it is possible to employ a conventionally known refractory granular material, for example new sand or reclaimed sand such as silica sand based on quartz, chromite sand, zircon sand, olivine sand, alumina sand, mullite sand and synthetic mullite sand. As the reclaimed sand, sand obtained by usual a mechanical attrition or calcine system is used, but sand reclaimed by the attrition system is preferable because it is produced in higher yield, is economically excellent and is generally used. For obtaining the mulled sand (the sand composition for mold production) , a silane coupling agent in addition to the binder of the present invention may be added for the purpose of further improving the strength of the resulting mold. The silane coupling agent includes, for example, y-(2-amino)aminopropyl methyl dimethoxy silane, Y"aminoProPyl trimethoxy silane, Y~amin°Pr°Pyl triethoxy silane, y~ glycidoxy propyl trimethoxy silane etc. The silane coupling agent may be used after incorporation into the binder. The sand composition for mold production obtained in this manner can be used to produce a mold by a general method of producing a self-curing mold. That is, the sand composition for mold production is charged into a predetermined wooden pattern, and the compounded and mulled furan resin composition for mold production, preferably used in combination with the specific curing accelerator described above, is cured by the action of a hardener or a curing composition, whereby a mold can be obtained. For mulling, mold production, curing temperature etc., heating or cooling is not particularly required, and ambient temperature may be used. Example The present invention is described in more detail by reference to the Examples. The Examples illustrate the present invention and are not intended to limit the present invention. Under the conditions of 25°C and 50% RH, 0.4 part by weight of a hardener (sulfuric acid/m-xylene-4-sulfonic acid/water = 4/26/70, ratio by weight) shown in Table 1 was added to 100 parts by weight of new sand of fremantle silica sand, and then 0.8 part by weight of a mixture of a furan resin composition and a curing accelerator shown in Table 1 was added thereto and mixed to give mulled sand which was then charged into a test piece frame to prepare a test piece in the form of a cylinder of 50 mm in diameter and 50 mm in height. The results of the compression strength (MPa) of the test piece, as determined after 30 minutes and after 24 hours by a method described in JIS Z 2604-1976, are shown in Table 1. When a step cone was formed and cast from a molding material FC-250 (S/M = 3.5), the evaluation results of offensive smell (stimulation) during molding and casting and the results of visual observation of the outward appearance, after 1-month storage at 35°C (closed system) , of the furan resin composition used .in the binder are collectively shown in Table 1. (Table Remove) The weight parts of the curing accelerator and the hardener in the table refer to ratios relative to 100 parts by weight of the furan resin composition. The pH of the furan resin composition was regulated with potassium hydroxide and oxalic acid. *Furan resin: 70.5 wt% furfuryl alcohol, 24.5 wt% furfuryl alcohol/urea/formaldehyde polycondensate, 4.0wt%water, and 1.0 wt% components other than urea. We Claim: 1. A furan resin composition for production of molds, characterized by that the composition comprises furan resin and urea; the composition contains urea in a content of 1 to 10% by weight; the composition has a pH value at 25°C of 7 to 10; and the urea is a urea remaining as unreacted or a separately added urea. 2. The furan resin composition as claimed in claim 1 as and when used as a binder for the production of molds wherein said binder comprises at least one curing accelerator selected from the group consisting of a compound represented by the general formula (I) and phenol derivative having a substituent group increasing the charge density in the ortho- or para- position relative to a hydroxyl group of phenol, wherein X1 and X2 each represent a hydrogen atom, CH3 or C2H5. 3. A method of producing molds, which comprises using the binder for production of molds as claimed in claim 2. |
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183-DELNP-2007-Abstract-(25-07-2012).pdf
183-DELNP-2007-Claims-(25-07-2012).pdf
183-DELNP-2007-Correspondence Others-(25-07-2012).pdf
183-DELNP-2007-Correspondence-Others.pdf
183-DELNP-2007-Description (Complete)-(25-07-2012).pdf
183-delnp-2007-description (complete).pdf
183-DELNP-2007-Form-3-(25-07-2012).pdf
183-DELNP-2007-GPA-(25-07-2012).pdf
183-delnp-2007-pct-search report.pdf
183-DELNP-2007-Petition-137-(25-07-2012).pdf
Patent Number | 254928 | ||||||||
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Indian Patent Application Number | 183/DELNP/2007 | ||||||||
PG Journal Number | 02/2013 | ||||||||
Publication Date | 11-Jan-2013 | ||||||||
Grant Date | 07-Jan-2013 | ||||||||
Date of Filing | 08-Jan-2007 | ||||||||
Name of Patentee | KAO CORPORATION | ||||||||
Applicant Address | 14-10, NIHONBASHI-KAYABACHO, 1-CHOME, CHUO-KU, TOKYO, JAPAN | ||||||||
Inventors:
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PCT International Classification Number | B22C 1/22 | ||||||||
PCT International Application Number | PCT/JP2005/014702 | ||||||||
PCT International Filing date | 2005-08-04 | ||||||||
PCT Conventions:
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