AU2004318290B2 - Cement dispersant and concrete composition containing the dispersant - Google Patents
Cement dispersant and concrete composition containing the dispersant Download PDFInfo
- Publication number
- AU2004318290B2 AU2004318290B2 AU2004318290A AU2004318290A AU2004318290B2 AU 2004318290 B2 AU2004318290 B2 AU 2004318290B2 AU 2004318290 A AU2004318290 A AU 2004318290A AU 2004318290 A AU2004318290 A AU 2004318290A AU 2004318290 B2 AU2004318290 B2 AU 2004318290B2
- Authority
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- Australia
- Prior art keywords
- compound
- concrete
- acid
- cement
- cement dispersant
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 239000002270 dispersing agent Substances 0.000 title claims description 95
- 239000004568 cement Substances 0.000 title claims description 87
- 239000004567 concrete Substances 0.000 title claims description 82
- 239000000203 mixture Substances 0.000 title claims description 47
- 150000001875 compounds Chemical class 0.000 claims description 126
- 229920001577 copolymer Polymers 0.000 claims description 79
- 239000004570 mortar (masonry) Substances 0.000 claims description 42
- 239000000178 monomer Substances 0.000 claims description 34
- 239000002253 acid Substances 0.000 claims description 33
- 229920001515 polyalkylene glycol Polymers 0.000 claims description 33
- 125000004432 carbon atom Chemical group C* 0.000 claims description 30
- 229920000768 polyamine Polymers 0.000 claims description 30
- CERQOIWHTDAKMF-UHFFFAOYSA-N Methacrylic acid Chemical compound CC(=C)C(O)=O CERQOIWHTDAKMF-UHFFFAOYSA-N 0.000 claims description 29
- LFQSCWFLJHTTHZ-UHFFFAOYSA-N Ethanol Chemical compound CCO LFQSCWFLJHTTHZ-UHFFFAOYSA-N 0.000 claims description 28
- 239000004952 Polyamide Substances 0.000 claims description 27
- 229920002647 polyamide Polymers 0.000 claims description 27
- 125000002947 alkylene group Chemical group 0.000 claims description 24
- 150000002148 esters Chemical class 0.000 claims description 23
- NIXOWILDQLNWCW-UHFFFAOYSA-N 2-Propenoic acid Natural products OC(=O)C=C NIXOWILDQLNWCW-UHFFFAOYSA-N 0.000 claims description 22
- 229940126062 Compound A Drugs 0.000 claims description 21
- NLDMNSXOCDLTTB-UHFFFAOYSA-N Heterophylliin A Natural products O1C2COC(=O)C3=CC(O)=C(O)C(O)=C3C3=C(O)C(O)=C(O)C=C3C(=O)OC2C(OC(=O)C=2C=C(O)C(O)=C(O)C=2)C(O)C1OC(=O)C1=CC(O)=C(O)C(O)=C1 NLDMNSXOCDLTTB-UHFFFAOYSA-N 0.000 claims description 21
- 239000003795 chemical substances by application Substances 0.000 claims description 20
- LVTJOONKWUXEFR-FZRMHRINSA-N protoneodioscin Natural products O(C[C@@H](CC[C@]1(O)[C@H](C)[C@@H]2[C@]3(C)[C@H]([C@H]4[C@@H]([C@]5(C)C(=CC4)C[C@@H](O[C@@H]4[C@H](O[C@H]6[C@@H](O)[C@@H](O)[C@@H](O)[C@H](C)O6)[C@@H](O)[C@H](O[C@H]6[C@@H](O)[C@@H](O)[C@@H](O)[C@H](C)O6)[C@H](CO)O4)CC5)CC3)C[C@@H]2O1)C)[C@H]1[C@H](O)[C@H](O)[C@H](O)[C@@H](CO)O1 LVTJOONKWUXEFR-FZRMHRINSA-N 0.000 claims description 19
- 125000004435 hydrogen atom Chemical group [H]* 0.000 claims description 18
- SMZOUWXMTYCWNB-UHFFFAOYSA-N 2-(2-methoxy-5-methylphenyl)ethanamine Chemical compound COC1=CC=C(C)C=C1CCN SMZOUWXMTYCWNB-UHFFFAOYSA-N 0.000 claims description 17
- 239000000654 additive Substances 0.000 claims description 14
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- 150000003839 salts Chemical class 0.000 claims description 13
- 239000002518 antifoaming agent Substances 0.000 claims description 11
- 125000002496 methyl group Chemical group [H]C([H])([H])* 0.000 claims description 11
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Landscapes
- Curing Cements, Concrete, And Artificial Stone (AREA)
Description
DESCRIPTION CEMENT DISPERSANT AND CONCRETE COMPOSITION CONTAINING THE DISPERSANT 5 Technical Field The present invention relates to a cement dispersant and a concrete composition containing the dispersant. In more particular, the present invention relates to a cement 10 dispersant suitably used for ultrahigh performance concrete and to a concrete composition, such as a ultrahigh performance concrete composition, containing the above dispersant. Since being a copolymer containing a polyamide polyamine group, a long-chain polyalkylene glycol group, and a short-chain 15 polyalkylene glycol group in one molecular of the copolymer, the cement dispersant of the present invention has superior dispersibility, slump flow retention, and strength development after hardening in a region having a low water/binder ratio, and in particular, is suitably applied to ultrahigh 20 performance concrete since the viscosity of a concrete paste which is peculiarly high in the region described above is decreased and the workability is improved thereby. Background Art 25 Heretofore, as cement dispersants, polymelamine sulfonates, lignin sulfonates, copolymers of an olefin and maleic acid, known polycarboxylic acid-base dispersants, and the like have been used. However, in recent years, since the number of building and construction works has been progressively increased in urban areas, and the situation of this business field has been changed such that, for example, 5 the JIS on the strength required for buildings was revised, the number of buildings which require a high strength has been increased. In order to obtain a high strength structure, unlike a conventional common structure, a new concrete composition using a low-heat cement, silica fume cement or the 10 like is frequently used for construction works, and a polycarboxylic acid-base dispersant suitably used for the above composition has been required to be improved. As major requirements for the dispersant, for example, there may be mentioned a water reducing property which is effective in 15 construction performed at a low water/cement ratio (hereinafter referred to as W/C; and in addition, a water/binder ratio is abbreviated as W/B), slump flow retention, measures against setting retardation caused by a large amount of additives, superior strength development after 20 hardening, and superior effect of decreasing the viscosity of a concrete paste, which effect is required since the workability thereof is degraded by a particular concrete viscosity generated as the W/C is decreased. In order to respond to the requirements described above, 25 various polycarboxylic acid-base cement dispersants have been proposed. For example, in Patent Document 1, a copolymer of a (meth)acrylate, (meth)acryl sulfonate, and a monoacrylic ester 2 of a polyethylene glycol alkyl ether or a monoacrylic ester of a polypropylene glycol alkyl ether has been disclosed. In addition, according to Patent Document 2, a cement dispersant has been disclosed which contains polyalkylene glycol chains 5 having different chain lengths in one molecule of a copolymer, and as a dispersant which satisfies both the decrease in viscosity under high-share conditions and the inhibition of setting retardation, this cement dispersant is evaluated at W/C=29.0% by using a flow value and a spreading rate (seconds) 10 of concrete until the spread thereof reaches 50 cm. In addition, in Patent Document 3, a cement dispersant has been disclosed which contains polyalkylene glycol chains having different chain lengths in one molecule of a copolymer, and the evaluation thereof is performed using the flow value at a 15 W/C=25%. As is the dispersant described above, in Patent Document 4, a cement dispersant has been disclosed which contains polyalkylene glycol chains having different lengths in one molecule of a copolymer, and the evaluation thereof is performed using the flow value and the air content with time 20 elapsed at W/C=40%. Furthermore, in Patent Documents 5, 6, and 7, a cement dispersant has been disclosed which is manufactured by a polymerization method in which the molar ratio of a monomer containing a long-chain polyalkylene glycol group and the molar ratio of a monomer containing a short 25 chain polyalkylene glycol group are both changed at least once in the polymerization reaction. In addition, as documents which have disclosed a cement 3 dispersant composed of a copolymer containing a polyamide polyamine-base monomer which is the feature of the present invention, Patent Documents 8 and 9 may be mentioned. However, since the requirements for dispersants used for a high 5 strength structure have become more demanding, supply of dispersants which can more totally satisfy the requirements has been desired. Patent Document 1: JP-A 1-226757 (p. 1 and pp. 3-6) Patent Document 2: Japanese Patent No. 3285526 (pp. 2-5 10 and 7-9) Patent Document 3: JP-A 9-286645 (pp. 2-6) Patent Document 4: Japanese Patent No. 3184698 (pp. 1-8) Patent Document 5: JP-A 2002-003258 (pp. 2-6 and 8-11) Patent Document 6: JP-A 2002-179448 (pp. 2-5 and 7-17) 15 Patent Document 7: JP-A 2002-179449 (pp. 2-5 and 9-20) Patent Document 8: Japanese Patent No. 3235002 (pp. 1-8) Patent Document 9: Japanese Patent No. 3336456 (pp. 1-11) Disclosure of Invention 20 Problems to be Solved by. the Invention The present invention was made in consideration of the situation described above, and the problems of conventional cement dispersants are solved thereby. That is, an object of the present invention is to provide a cement dispersant which 25 satisfies the water reducing effect, the slump flow retention, and rapid strength development in a well-balanced manner in a region having a low water/binder ratio, and, in particular, 4 5 having a superior effect of decreasing high concrete paste viscosity and a concrete composition containing the above cement dispersant. Means for Solving the Problems Through intensive research carried out by the inventors of the present invention in 5 order to achieve the above object, it was found that a copolymer formed from a polyalkylene polyamide monomer, a long-chain polyalkylene glycol monomer, a short chain polyalkylene glycol monomer, and a (meth)acrylic acid-base monomer, which are contained in one molecule of the copolymer, can satisfy the desired effects, and as a result, the present invention was made. 10 According to a first aspect of the present invention, there is provided a cement dispersant comprising a water-soluble amphoteric copolymer, or a partly or a fully neutralized salt thereof, the copolymer being formed by copolymerizing a monomer mixture containing as a main monomer component, at least one compound (compound A) obtained by addition of 0 to 8 moles of an is alkylene oxide having 2 to 4 carbon atoms with respect to one equivalent of amino residues of a polyamide polyamine obtained by condensation of 1.0 mole of a polyalkylene polyamine, 0.5 to 0.95 moles of a dibasic acid or an ester of the dibasic acid with a lower alcohol having 1 to 4 carbon atoms, and 0.05 to 0.70 moles of acrylic acid or methacrylic acid, or an ester of acrylic acid or methacrylic acid with a lower alcohol 20 having 1 to 4 carbon atoms; at least one compound (compound B) represented by general formula (1) CHFC-COOM R 1 (1) (in the formula, R' represents a hydrogen atom or a methyl group, and M represents a hydrogen atom, an alkali metal, an alkali earth metal, an ammonium group, or an 25 alkanolammonium); at least one compound (compound C) represented by general formula (2) CHj=C-COO(R 3 O)mR 4 R 2 (2) (in the formula, R 2 represents a hydrogen atom or a methyl group, R 3 represents an alkylene group having 2 to 4 carbon atoms, R 4 represents a hydrogen atom or an alkyl 30 group having 1 to 4 carbon atoms, and m represents the number of addition molecules of a polyalkylene glycol and is an integer of 1 to 35); and at least one compound (compound D) represented by general formula (3) 5a CHi=-COO(RO)nR
R
5 (3) (in the formula, R 5 represents a hydrogen atom or a methyl group, R 6 represents an alkylene group having 2 to 4 carbon atoms, R 7 represents a hydrogen atom or an alkyl group having 1 to 4 carbon atoms, and n represents the number of addition molecules of a 5 polyalkylene glycol and is an integer of 40 to 100), wherein, when the total of the compounds A to D is set to be 100 percent by weight, the water-soluble amphoteric copolymer is obtained by copolymerizing 5 to 25 percent by weight of the compound A, 5 to 30 percent by weight of the compound B, 5 to 40 percent to by weight of the compound C, and 20 to 80 percent by weight of the compound D. According to a second aspect of the present invention, there is provided a concrete admixture for mortar and concrete, comprising a mixture which contains the cement dispersant according to the first aspect and at least one additive for mortar and concrete selected from the group consisting of a cement dispersant different from said cement is dispersant, a defoaming agent and an air-entraining agent. According to a third aspect of the present invention, there is provided a concrete composition comprising the cement dispersant according to the first aspect. According to a fourth aspect of the present invention, there is provided a concrete composition comprising the cement admixture for mortar and concrete according to the 20 second aspect. There is disclosed herein a cement dispersant comprising a water-soluble amphoteric copolymer, or a partly or a fully neutralised salt thereof, the copolymer being formed by copolymerising a monomer mixture containing as a primary monomer component, at least one compound (compound A) obtained by addition of 0 to 8 moles of 25 an alkylene oxide having 2 to 4 carbon atoms with respect to one equivalent of amino residues in polyamide polyamine obtained by condensation of 1.0 mole of a polyalkylene polyamine, 0.5 to 0.95 mole of a dibasic acid or an ester of the dibasic acid with a lower alcohol having 1 to 4 carbon atoms, and 0.05 to 0.70 mole of acrylic acid or methacrylic acid, or an ester of acrylic acid or methacrylic acid with a lower alcohol having I to 4 30 carbon atoms and, at least one compound (compound B) represented by general formula (1),
CH
2 =C-COOM (i) R ' 5 (in the formula, R' represents a hydrogen atom or a methyl group, and M represents a hydrogen atom, an alkali metal, an alkali earth metal, an ammonium group, and an alkanolammonium), at least one compound (compound C) represented by general formula (2), 10
CH
2 =C-COO
(R
3 0) mR 4 (2)
R
2 (in the formula, R 2 represents a hydrogen atom or a methyl group, R 3 represents an alkylene group having 2 to 4 carbon 15 atoms, R 4 represents a hydrogen atom or an alkyl group having 1 to 4 carbon atoms, and m represents the number of addition molecules of a polyalkylene glycol and is an integer of 1 to 35), and at least one compound (compound D) represented by general 20 formula (3), 6 CHZ=C-COO (RIO) nR 7 (3) R5 (in the formula, R 5 represents a hydrogen atom or a methyl group, R represents an alkylene group having 2 to 4 carbon 5 atoms, R' represents a hydrogen atom or an alkyl group having 1 to 4 carbon atoms, and n represents the number of addition molecules of a polyalkylene glycol and is an integer of 40 to 100). The present invention also particularly relates to the 10 cement dispersant of the present invention used in ultrahigh performance concrete composition. The present invention furthermore relates to a concrete composition characterized by containing the cement dispersant of the present invention and particularly relates to the concrete composition for ultrahigh 15 performance concrete. In this specification, the ultrahigh performance concrete represents a well-conditioned concrete obtained at a low W/C. As described above, the compound A used in the present invention is a compound formed by addition of a specific 20 amount of an alkylene oxide (compound d) to a polyamide polyamine obtained by condensation of a polyalkylene polyamine (compound a), a dibasic acid or an ester of the dibasic acid with a lower alcohol having 1 to 4 carbon atoms (compound b), and acrylic acid or methacrylic acid, or an ester of acrylic 25 acid or methacrylic acid with a lower alcohol having 1 to 4 7 carbon atoms and (compound c), in a definite proportion. Examples of the polyalkylene polyamine of the compound a include diethylenetriamine, triethylenetetramine, tetraethylenepentamine, pentaethylenehexamine, 5 dipropylenetriamine, tripropylenetetramine and tetrapropylenepentamine, and among those mentioned above, for example, diethylene triamine and triethylene tetramine are preferable from both points of effectiveness and economical angle. 10 Examples of the dibasic acid and the ester thereof with a lower alcohol having 1 to 4 carbon atoms of the compound b include malonic acid, succinic acid, fumaric acid, maleic acid, glutaric acid, adipic acid, pimelic acid, phthalic acid, azelaic acid, sebacic acid, and an ester thereof with a lower 15 alcohol having 1 to 4 carbon atoms such as methanol, ethanol, propanol, butanol, or an isomer thereof if present. Of those mentioned above, adipic acid is most preferable from both effectiveness and economical angle. Examples of acrylic acid or methacrylic acid and the 20 ester thereof with a lower alcohol having 1 to 4 carbon atoms of the compound c include acrylic acid, methacrylic acid, methyl acrylate, methyl methacrylate, ethyl acrylate, ethyl methacrylate, propyl acrylate, propyl methacrylate, butyl acrylate and butyl methacrylate. 25 The polyamide polyamine comprising the three components of the above compounds a, b and c can be easily obtained by the conventional polycondensation technique. In addition, the 8 alkylene oxide having 2 to 4 carbon atoms, which is the compound d, to be added to the amino residues of the polyamide polyamine is ethylene oxide, propylene oxide or butylene oxide. Those alkylene oxide mentioned above may be used alone or in 5 combination. As preparation of the polyamide polyamine, that is, the polycondensation reaction of the compounds a, b and c, there are two-stage reaction method comprising polycondensation of only the compound a and the compound b, and thereafter further 10 polycondensation with the compound c as a monobasic acid, or one-stage reaction method comprising simultaneous polycondensation with the compounds a, b, and c from the start. However, in both cases described above, since this polycondensation reaction, that is, amidization reaction 15 proceeds in parallel with an amide interchange reaction, acrylic acid residues or methacrylic acid residues derived from the compound c is finally located at the terminal of the polyamide chain, and hence it can be assumed that the same result is obtained in the above two cases. 20 Next, the reaction molar ratios of the above three components constituting the polyamide polyamine will be described. The reaction molar ratio of the compound b (dibasic acid or its ester) with respect to 1.0 mole of the compound a (polyalkylene polyamine) is 0.5 to 0.95 moles. 25 Polycondensation product of the compound a and the compound b reacted in the molar ratio defined above produces, on the average, a polyamide with a chain length in a predetermined 9 range, comprising polycondensation of from (2 moles of a polyalkylene polyamine: 1 mole of a dibasic acid) to (20 moles of a polyalkylene polyamine: 19 moles of a dibasic acid), and therefore, a dispersant obtained by using the polyamide 5 exhibits high water reducing property and slump flow retention. When the chain length of this polyamide is shorter than the case described above (in the case in which the reaction ratio is less than 0.5 moles), a polyamide polyamine having a predetermined structure cannot be obtained. In addition, when 10 the chain length is longer than that described above (in the case in which the reaction ratio is more than 0.95 moles), it is not preferable since the water reducing property is remarkably degraded. The polyamide polyamine of the present invention has 0.10 15 moles (in the case of a:b:c=1.0:0.5:0.05 (moles)) to 14 moles (in the case of a:b:c=1.0:0.95:0.70 (moles)) of acrylic acid residues or methacrylic acid residues per one molecule, but a preferable range is 0.5 to 2.0 moles from the standpoints of effect. When the value is less than 0.5 moles (for example, 20 in the case of a:b=1.0:0.5, and the molar ratio of the compound c to the compound a is less than 0.25), the proportion of the compound A obtained from this ratio in the final copolymer decreases, and the property as a cement dispersant is seriously diminished. On the other hand, when 25 the value exceeds 2.0 moles (for example, in the case of a:b=1.0:0.95, and the molar ratio of the compound c to the compound a exceeds 0.10), overformation of the three 10 dimensional structure of the copolymer is observed and sufficient effect cannot be obtained. In particular, with respect to 1.0 mole of the polyalkylene polyamine, when the number of molecules of the 5 dibasic acid or the ester of the dibasic acid with a lower alcohol having 1 to 4 carbon atoms is represented by x, and the number of molecules of acrylic acid or methacrylic acid, or the ester of acrylic acid or methacrylic acid with a lower alcohol having 1 to 4 carbon atoms is represented by y, 10 the relationship between the two compounds in the number of molecules preferably satisfies the condition of 0.6<y/(l-x)<1.4. In case of 0.6:y/(1-x), polyamide polyamine base monomers are not sufficiently incorporated in the copolymer, and in case of y/(l-x) ! 1.4, a large amount of 15 diamide(polyamide polyamine)-base monomers having reactive groups at both terminals is contained in the copolymer; hence, as a result, the increase in molecular weight of the copolymer and the gelation thereof occur, and in the two cases described above, a sufficient effect of decreasing the viscosity cannot 20 be obtained. Amount of the alkylene oxide to be added to the polyamide polyamine is 0 to 8 moles per one equivalent of the amino acid residues of the polyamidee polyamine. When the value exceeds 8 moles, molecular weight of the compound A increases with 25 inevitable decrease in cation equivalent and sufficient effect as the amphoteric polymer expected of the present invention cannot be obtained. In the present invention, the addition of 11 12 the alkylene oxide is preferably performed, and the amount thereof is preferably in the range of 0.5 to 6.0 mole to one equivalent of the amino acid residue of the polyamide polyamine and is particularly preferably in the range of 1.0 to 5.5 moles. Examples of the compound B used in the present invention include acrylic acid or 5 methacrylic acid, or their sodium, potassium, ammonium, monoethanolamine, diethanolamine and triethanolamine salt, and among those mentioned above, acrylic acid or methacrylic acid is preferable from standpoints of effectiveness and economical efficiency. As the form of the compound B after it is finally incorporated in the copolymer, an 10 acid or/and a (partially or fully) neutralised salt by sodium, potassium, or ammonium is preferable in view of water-soluble properties. Neutralisation may be performed after synthesis is performed in the form of an acid, or neutralisation may be performed to form a salt before the polymerisation. Examples of the compound C and the compound D used in the present invention is include (meth)acrylic acid esters of a methoxypolyethylene glycol, (meth)acrylic acid esters of an ethoxypolyethylene glycol, (meth)acrylic acid esters of an ethylene oxide/polypropylene oxide adduct of methanol, and mono(meth)acrylic acid esters of a polyalkylene glycol. The number of addition molecules of the alkylene oxides for the compound C used 20 in the present invention is I to 35 moles. When the number is less than I mole, the water solubility of the polymer is seriously degraded, and when the number is more than 35, the slump flow retention is degraded. The number of addition molecules of the alkylene oxides for the compound D used in the present invention is 40 to 100. 5 When the number is less than 40, the water reducing property is degraded, and when the number is more than 100, the slump flow retention is seriously degraded. In the copolymer as the cement dispersant of the present invention, in addition to the compounds A, B, C and D, other 10 copolymerizable monomers may also be contained. As the monomers mentioned above, the following known monomers may be mentioned. For example, examples of these monomers in include (non-)aqueous monomers such as methyl (meth)acrylate, ethyl (meth)acrylate, butyl (meth)acrylate and styrene; anionic 15 monomers such as itaconic acid, maleic acid (anhydride), vinyl sulfonic acid, and styrene sulfonic acid; amide-base monomers such as acrylamide and alkylene oxide adducts of acrylamide; and polyalkylene glycol-base monomers such as alkylene oxide adducts of allyl alcohol, a mono- or a diester of a 20 polyalkylene glycol and maleic anhydride, and esters of a polyalkylene glycol and itaconic acid. The compounding proportion of the other copolymerizable monomers described above is 30 percent by weight or less of the total of all the monomers to be charged, is preferably 20 25 percent by weight or less, and is even more preferably 10 percent by weight or less. The compounding proportion of compound A:compound B: 13 compound C:compound D used in the present invention are 5 to 25 percent by weight:5 to 30 percent by weight:5 to 40 percent by weight:20 to 80 percent by weight when the total of these compounds is set to 100 percent by weight, and when the 5 compounds in an appropriate amount are selected in accordance with the ranges described above, the water reducing property, the slump flow retention, rapid strength development, and effective decrease of a high concrete viscosity can be realized in a well-balanced manner. However, when the ratios 10 of the compounds are out of the ranges described above, the above effects cannot be obtained. A method for producing the cement dispersant according to the present invention is not particularly limited, and for example, a known polymerization method, such as solution 15 polymerization or bulk polymerization, using a polymerization initiator can be adopted. The solution polymerization may be performed by both batch and continuous methods, and as solvents used in this polymerization, for example, water; alcohols such as methyl 20 alcohol, ethyl alcohol, and isopropyl alcohol; aromatic and aliphatic hydrocarbons such as benzene, toluene, xylene, cyclohexane, and n-hexane; ester compounds such as ethyl acetate; ketone compound such as acetone and methyl ethyl ketone; and cyclic ether compounds such as tetrahydrofuran and 25 dioxane are raised. However, in consideration of the solubility of starting monomers and that of the copolymer to be obtained, at least one selected from the group consisting 14 of water and lower alcohols having 1 to 4 carbon atoms is preferably used, and among those mentioned above, water is more preferably used as the solvent. When aqueous solution polymerization is carried out, 5 as a radical polymerization initiator, a water-soluble polymerization initiator may be used. Examples thereof are persulfates such as ammonium persulfate, sodium persulfate and potassium persulfate; hydrogen peroxide; and water-soluble azo-base initiators including azoamidine compounds such as 10 2,2'-azobis(2-methylpropionamidine)hydrochloride, cyclic azoamidine compounds such as 2,2'-azobis-2-(2 imidazolin-2-yl)propane hydrochloride, and water soluble azo compounds including azonitrile compounds such as 2-carbamoylazoisobutyronitrile. In this case, for example, 15 alkali metal sulfites such as sodium hydrogen sulfite, metabisulfite salts, sodium hypophosphite, Fe(II) salts such as Mohr's salt, sodium hydroxymethanesulfonate dihydrate, hydroxyl amine salts, thiourea, L-ascorbic acid (salt), and erysorbic acid (salt) may be additionally used as an 20 accelerator. In addition, in solution polymerization in which a lower alcohol, an aromatic or an aliphatic hydrocarbon, an ester compound or a ketone compound is used as a solvent, as radical polymerization initiators, for example, there may be used 25 peroxides such as benzoyl peroxide, lauroyl peroxide, and sodium peroxide; hydroperoxide such as t-butyl hydroperoxide and cumene hydroperoxide; and azo compounds such as 15 azobisisobutyrylonitrile. In this case, an accelerator such as an amine compound may also be used. Furthermore, when a mixed solvent of water and a lower alcohol is used, the above various radical initiators may be optionally selected together 5 with or without an accelerator. When bulk polymerization is performed, as radical polymerization initiators, for example, there may be used peroxides such as benzoyl peroxide, lauroyl peroxide, and sodium peroxide; hydroperoxide such as t-butyl hydroperoxide 10 and cumene hydroperoxide; and azo compounds such as azobisisobutyrylonitrile. The reaction temperature in copolymerization is not particularly limited; however, when a persulfate is used as an initiator, the reaction temperature is preferably in the range 15 of 30 to 950C. In copolymerization, a chain transfer agent may be used. As the chain transfer agent, for example, a thiol-base chain transfer agent such as mercaptoethanol, thioglycerol, thioglycolic acid, 2-mercaptopropionic acid, 20 3-mercaptopropionic acid, thiomalic acid, octyl thioglycolate, octyl 3-mercaptopropionate and 2-mercaptoethanesulfonate may be used. In addition, two or more of the above chain-transfer agents may also be used together. 25 The polymerization time in copolymerization is not particularly limited; however, for example, the time is suitably 1 to 10 hours, preferably 1 to 8 hours, and more 16 preferably 1.5 to 6 hours. When the polymerization time is shorter or longer than the range described above, the polymerization yield and productivity are unfavorably decreased. 5 A dropwise addition method in copolymerization is not particularly limited, for example, the following methods are raised: a method in which after each monomer is partly or entirely charged in a reaction vessel, an initiator and the like are dropwise added; a method in which after one or more 10 of monomers is charged in a reaction vessel, the remaining other monomers, an initiator, a chain transfer agent and the like are dropwise added; a method disclosed in Japanese Patents No. 3235002 in which a mixture of monomers, a radical polymerization initiator and a chain transfer agent are 15 individually dropwise added; and a method described in Japanese Patent No. 3336456 in which a mixture of monomers, a chain transfer agent and a radical polymerization initiator are individually dropwise added. The molecular weight of the copolymer obtained in the 20 present invention is not particularly limited; however, the weight average molecular weight (measured in terms of polyethylene glycol by a gel permeation chromatographic method) is preferably in the range of 3,000 to 500,000, and when the molecular weight is out of the above range, the 25 dispersibility is decreased. As the cement dispersant, the water-soluble amphoteric copolymer of the present invention thus obtained has superior 17 water reducing property, slump flow retention, and rapid strength development in a region having a low water/binder ratio, and also has an effect of decreasing a particularly high concrete viscosity; hence, the copolymer of the present 5 invention achieves properties which cannot be obtained by conventionally used or proposed cement dispersants. It has been believed that the effects described above can be obtained since carboxyl groups (anionic groups), polyalkylene polyamide groups (cationic groups), and non-ionic hydrophilic groups 10 formed of long and short-chain polyalkylene glycol groups are together present in a molecular structure of the copolymer. The use of the copolymer having the unique structure described above is the fundamental concept of the present invention. In particular, synergic effect is generated by effective 15 functions of an electrical action of the cationic group moiety of the polyamide polyamine, a hydrophilic action of hydroxide groups and a steric hindrance action of the long polyalkylene glycol, which is generated by appropriate combination thereof with the short-chain polyalkylene glycol group and therefore, 20 even in a small amount of water in a region having a low water/binder ratio, the cement dispersant is effectively adsorbed onto an inorganic material (cement particles), and the presence of the short-chain polyalkylene glycol group enables the long-chain polyalkylene glycol to effectively 25 function, so that the effects described above of the present invention can be finally obtained. Furthermore, it is estimated that, since the effective function of the cement 18 dispersant indicates that the amount thereof can be decreased, for example, the setting retardation caused by charge of an excess amount of the cement dispersant can be suppressed and that the rapid strength development can be obtained. From the 5 above effects of the cement dispersant of the present invention, the mechanism has been estimated as described above; however, it has not been fully analyzed as of today. Effect of Invention 10 As described in detail, in the region having a low water/binder ratio, since the cement dispersant of the present invention has high water reducing property, superior slump flow retention and a rapid strength development and has further an effect of decreasing a peculiar concrete viscosity, 15 the cement dispersant of the present invention can be preferably used as a dispersant for ultrahigh performance concrete. In addition, the water-soluble amphoteric copolymer of the present invention can also be used as a high performance AE water reducing agent. Since a concrete 20 composition containing the cement dispersant of the present invention has a significantly superior water reducing property, slump flow retention, strength development and effect of decreasing concrete viscosity, excellent on-site workability can be obtained. As described above, the present invention 25 provides a dispersant or a water reducing agent which has been enthusiastically desired in the field described above, and the contribution of the present invention to this industrial field 19 is significant. Best Mode for Carrying Out the Invention Amount of the cement dispersant composed of the water 5 soluble amphoteric copolymer of the present invention to be added is about 0.1 to 1.8% in terms of the solid content in a binder including a material for concrete. In particular, when the water/binder ratio is low such as that W/B is 20% or less, more than 1.0% of the cement dispersant is added in many cases. 10 That is, the more dispersant added, the better water reducing property and the slump flow retention are. However, if the amount of the cement dispersant is too much excess, the setting retardation and in a worst case, poor hardening may be observed. The way to use the cement dispersant of the present 15 invention is the same as in currently available general cement dispersants, and the cement dispersant of the present invention is added in the form of a stock solution at the time of kneading concrete, or in previously diluted form with kneading water. Alternatively, the cement dispersant may be 20 added after kneading a concrete or a mortar, and the resulting mixture may again be kneaded homogenously. The present invention also provides a concrete composition containing the cement dispersant of the present invention. Components other than the cement dispersant are 25 conventionally used components for concrete such as ordinary Portland cement, early-strength Portland cement, low heat moderate heat Portland cement or blast furnace cement, silica 20 fume cement and VKC-100SF for cements; aggregates, that is, fine aggregates and course aggregate; and admixtures such as silica fume, fly ash, a calcium carbonate powder, a blast furnace slag powder, an expanding agent and water. 5 In addition, it is needless to say that, besides the dispersant of the present invention, a conventional cement dispersant, an air-entraining agent, a defoaming agent, a setting retarder, an accelerator, a thickening agent, a separation inhibitor, a shrinkage reducing agent, a releasing 10 agent and the like can appropriately be compounded. The compounding proportion of each of those components can easily be determined in accordance with the type of selected component and the purpose of the use. The dispersant of the present invention has the water 15 reducing property, the slump flow retention and the rapid strength development in a region having a low water/binder ratio and, especially, has a superior effect of decreasing high concrete paste viscosity; however, the dispersant of the present invention can also be used in a region having a 20 general water/binder ratio. For example, the cement dispersant of the present invention alone or in combination with a common cement dispersant may be applied to precast application or application in a region having a general water/binder ratio. In the cases described above, by the use 25 of the cement dispersant of the present invention, improvement in initial water reducing property, and early strength development can be naturally expected. 21 The cement dispersant of the present invention and a common cement dispersant may be compounded together at a ratio of 1 to 99 to 99 to 1. The general compounding ratio thereof is changed in accordance with the ratio of water to the binder 5 and the application thereof. The common cement dispersant which can be compounded with the cement dispersant of the present invention is not particularly limited, and known cement dispersants can be used. Examples of these cement dispersants include a lignin 10 sulfonate, a naphthalene sulfonic acid-formalin condensate salt, a melamine sulfonic acid-formalin condensate salt and a polystyrene-sulfonic acid condensate salt. In addition, as polycarboxylic acid-base dispersants, there may be mentioned, for example, a copolymer of a polyethylene glycol monoallyl 15 ether and an unsaturated dicarboxylic acid disclosed in JP-B 58-383380; a copolymer of a polyalkylene glycol mono(meth)acrylate and (meth)acrylic acid disclosed in JP-B 59-18338; a four-component copolymer disclosed in Japanese Patent No. 2628486 which is formed from a monomer having a 20 sulfonic acid group at the terminal, a polyalkylene glycol mono(meth)acrylate, a polyalkylene glycol mono(meth)acrylate and (meth)acrylic acid; a copolymer of a polyalkylene glycol mono(meth)acrylate and (meth)acrylic acid disclosed in Japanese Patent No. 2774445; and a copolymer having a 25 polyamide polyamine-base monomer disclosed in Japanese Patent No. 3235002 and Japanese Patent No. 3336456. In order to obtain a well-conditioned concrete 22 composition, an air-entraining agent, a setting retarder, an accelerator, a separation inhibitor, a thickening agent and the like are generally compounded. In this specification, a cement dispersant different from the cement dispersant of the 5 present invention and those additives mentioned above are all called different additives for mortar and concrete. Accordingly, the present invention also provides an admixture for mortar and concrete composed of the cement dispersant of the present invention and the different 10 additives for mortar and concrete described above, and a concrete composition containing the above admixture for mortar and concrete. As the different additives for mortar and concrete except for the cement dispersant, for example, as described above, 15 the air-entraining agent, the defoaming agent, the setting retarder, the accelerator, the thickening agent and the separation inhibitor are mentioned. Those additives may be compounded with the cement dispersant of the present invention before the formation of a concrete paste or may be compounded 20 with kneading water. When the different additives for mortar and concrete are particularly described, as the air-entraining agent, for example, (1) an anionic air-entraining agent, (2) a nonionic air-entraining agent, and (3) an amphoteric air-entraining 25 agent composed of anions and cations may be generally mentioned. As the anionic air-entraining agents (1), higher alcohol(alkoxylate)sulfuric acid ester, resin soap salts, 23 higher alcohol(alkoxylate)phosphoric acid ester and the like may be mentioned; as the nonionic air-entraining agents (2), polyalkylene glycols, alkylene oxide adducts of a higher alcohol, esters of a fatty acid and a polyalkylene glycol, 5 alkylene oxide adducts of a sugar alcohol-fatty acid ester, and the like may be mentioned; and as the amphoteric air entraining agents (3) composed of anions and cations, for example, an alkyl betaine type, an alkylamide betaine type, and an amino acid-base amphoteric activator type may be 10 mentioned. However, the air-entraining agent is not limited thereto. Concrete examples of the defoaming agent as one of the different additives for mortar and concrete are (1) an activator-base defoaming agent, (2) a silicone-base defoaming 15 agent, and (3) a mineral oil-base defoaming agent. As the activator-base defoaming agents (1), polyalkylene glycols, alkylene oxide adducts of a higher alcohol, esters of a fatty acid and an alkylene oxide adduct of a higher alcohol, esters of a polyalkylene glycol and a fatty acid, and the like may be 20 mentioned; as the silicone-base defoaming agents (2), dimethyl silicones, silicone emulsions and the like may be mentioned; and as the mineral oil-base defoaming agents (3), mineral oil emulsions, paraffin wax emulsions, higher alcohol emulsions and the like may be mentioned. 25 Concrete examples of the setting retarder as one of the different additives for mortar and concrete are (1) inorganic setting retarders such as phosphates, silicon fluoride 24 compounds, zinc oxide, zinc carbonate, zinc chloride, zinc monoxide, copper hydroxide, magnesium salts, borax, boron oxide and the like; and (2) organic setting retarders such as phosphonic acid derivatives, sugar and its derivatives, 5 hydroxycarboxylates and lignin sulfonates. When the setting retarder is more particularly described, there may be mentioned phosphonic acid derivatives such as aminotri(methylene phosphonic acid), aminotri(methylene phosphonic acid)pentasodium salt, 1-hydroxyethylidene-1,1 10 diphosphonic acid, ethylenediaminetetra(methylene phosphonic acid), diethylenetriaminepenta(methylene phosphonic acid), and phosphonates of an alkali metal and an alkali earth metal and the derivatives thereof; sugars such as saccharose, maltose, raffinose, lactose, glucose, fructose, mannose, arabinose, 15 xylose, abitose and ribose; and hydroxycarboxylates such as gluconic acid, citric acid, glucoheptonic acid, malic acid, an tartaric acid, and alkali metal salts and alkali earth metal salts thereof. The preferable amount of this agent for addition is 0.1 to 20 parts by weight with respect to the 20 binder such as cement. Examples of the accelerator as one of the different additives for mortar and concrete are inorganic accelerators such as calcium chloride, calcium nitride and calcium nitrite, and organic accelerators such as alkanolamines. 25 Examples of the thickening agent and separation inhibitor as one of the different additives for mortar and concrete are (1) cellulose-base water-soluble polymers such as cellulose 25 26 ethers (MC and the like), (2) polyacrylamide-base water-soluble polymers such as polyacrylamides, (3) biopolymers such as curdlan and welan gum, (4) non-ionic thickening agents such as fatty acid diesters of a polyalkylene glycol and urethane condensates of a polyalkylene glycol. The preferable compounding ratio of this agent is 5 0.5 to 3.0 kg/m 3 with respect to the inorganic material. Examples Hereinafter, the present invention will be described in detail with reference to the examples; however, the present invention is not limited thereto. Example 1 1o <Method of Forming Compound A-1> Into a reaction vessel equipped with a stirrer, 103 g (1.00 mole) of diethylenetriamine and 97.3 g (0.67 moles) of adipic acid were charged, and the mixture thus obtained was mixed together by stirring in a nitrogen atmosphere by introduction of nitrogen. The temperature was increased to 150*C, and the reaction was continued for 20 15 hours until the acid value reached 22 while removing water of the reaction accompanied with product generated by polycondensation. Next, 1.1 g of hydroquinone methyl ether and 27.5 g (0.32 moles) of methacrylic acid were charged and were allowed to react at the same temperature (150*C) for 10 hours. Accordingly, 187 g of a polyamide polyamine (melting point of 122 0 C, acid value of 23) was obtained together with 42 g in total of 20 reaction distilled water. The total amount of the polyamide polyamine thus obtained was dissolved in 272 g of water, and the temperature was increased to 50 0 C. Furthermore, 220 g of ethylene oxide (corresponding to 3.0 moles to the total amino 5 residues including unreacted amino groups) was sequentially added over 4 hours at the same temperature (500C), and matured for 2 hours. Accordingly, 680 g (solid content of 60%) of the compound A-1 of the present invention was obtained. 10 <Method 1 for Manufacturing Copolymer> Into a reaction vessel equipped with a stirrer, 180 g of water was charged, and while nitrogen was introduced to make the inside of synthesis system to be nitrogen atmosphere, and the temperature was increased to 800C. A mixture of 150 g of 15 water, 98.2 g of the compound A-1, 72.0 g of methacrylic acid (compound B), 60.9 g of a short-chain methoxypolyethylene glycol monomethacrylate (compound C, molecular weight of 1000), and 183 g of a long-chain methoxypolyethylene glycol monomethacrylate (compound D, molecular weight of 2000), (when 20 the compound B was assumed to be a Na salt, the ratios of the compound A: compound B: compound C: compound D were 15 percent by weight: 23 percent by weight: 15 percent by weight: 47 percent by weight, and the total was 100 percent by weight), and 66.4 g of a 5% thioglycolic acid aqueous solution were 25 individually dropwise added to the synthesis system over 2 hours, and in addition, 123 g of an aqueous sodium persulfate solution at a concentration of 5% was also dropwise added to 27 the synthesis system over 3 hours. After completion of the dropwise addition, maturation and cooling were performed for 2 hours. Subsequently, neutralization was performed using a 48% NaOH aqueous solution until a pH of 7 was obtained, thereby 5 obtaining 1,029 g of a water-soluble amphoteric copolymer (copolymer (A) : hereinafter referred to as "copolymer of Example 1" in some cases) . This copolymer (A) was a copolymer having a weight average molecular weight of 46,000 which was measured by GPC molecular weight measurement. The measurement 10 conditions are as follows. Column: OHpak SB-803HQ, OHpak SB-804HQ (manufactured by Showa Denko K. K.) Eluent: a 50-mM sodium nitrate aqueous solution and acetonitrile at a ratio of 80:20 15 Detector: Differential refractometer M.W. Calibration Standard: Polyethylene glycol <Method 2 for Manufacturing Copolymer> Into a reaction vessel equipped with a stirrer, 180 g of 20 water was charged, and while nitrogen was introduced to make the inside of synthesis system to be nitrogen atmosphere and the temperature was increased to 800C. A mixture of 66.4 g of a 5% thioglycolic acid aqueous solution and 150 g of water, 98.2 g of the compound A-1, 72.0 g of methacrylic acid 25 (compound B), 60.9 g of a short-chain methoxypolyethylene glycol monomethacrylate (compound C, molecular weight of 1000) and 183 g of a long-chain methoxypolyethylene glycol 28 monomethacrylate (compound D, molecular weight of 2,000) (when the compound B was assumed to be a Na salt, the ratios of the compound A: compound B: compound C: compound D were 15 percent by weight: 23 percent by weight: 15 percent by weight: 47 5 percent by weight, and the total was 100 percent by weight), and 82 g of a 5% sodium persulfate aqueous solution were dropwise added to the synthesis system over 2 hours. Next, 41 g of a 5% sodium persulfate aqueous solution was dropwise added over 1 hour. Subsequently, ageing and cooling was 10 performed for 2 hours. Then, neutralization was performed using an aqueous NaOH solution at a concentration of 48% until a pH of 7 was obtained, thereby obtaining 1,029 g of a water soluble amphoteric copolymer (copolymer (B)) . This copolymer (B) was a copolymer having a weight average molecular weight 15 of 45,000 which was measured by GPC molecular weight measurement. The measurement conditions are as follows. Column: OHpak SB-803HQ, OHpak SB-804HQ (manufactured by Showa Denko K. K.) Eluent: 50-mM sodium nitrate aqueous solution and acetonitrile 20 at a ratio of 80:20 Detector: Differential refractometer M.W. Calibration Standard: Polyethylene glycol <Comparison between the copolymers (A) and (B) obtained by the 25 manufacturing methods 1 and 2> The copolymers (A) and (B) obtained by the manufacturing methods 1 and 2, respectively, were almost equivalent to each 29 other in view of the GPC measurement results, and it can be assumed that the same compound was obtained. Examples 2-10 5 By using compounds shown in Table 1 in accordance with the individual ratios, compounds A-2 to A-6, which were polyamide polyamine alkylene oxide adduct compounds, were obtained in the same manner as that of the method for obtaining the compound A-1 in Example 1. In addition, by 10 using the compound A, the compound B, the compound C, and the compound D shown in Table 2 in accordance with the individual ratios, copolymerization was conducted in the same manner as that of the manufacturing method 1 in Example 1, thereby obtaining water soluble amphoteric copolymers (Examples 2-10) 15 (however, water contents of the copolymers thus obtained were each adjusted so as to have a solid content of 40% as the final concentration). 20 30 [Table 1] Synthetic Examples *1 of Compounds A-1 to A-4 Compound A A-1 A-2 A-3 A-4 A-5 A-6 5 (a) DETA *2 1.00 1.00 1.00 - 1.00 TETA *3 - - - 1.00 - 1.00 (b) Adipic Acid 0.67 0.83 0.83 - 0.80 0.91 Dimethyl Adipate - - - 0.91 - 10 Acid Value of Intermediate Condensate *4 22 19 17 n.d. 20 20 (c) Acrylic Acid - 0.13 - - Methacrylic Acid 0.32 - 0.17 - 0.25 0.10 15 Methyl Methacrylate - - - 0.10 - y/(1-x) 0.9 0.8 1.0 1.1 1.3 1.1 Acid value of Final Condensate *5 23 19 17 n.d. 22 20 (d) Ethylene Oxide 3.0 3.0 2.0 5.0 4.0 5.0 20 Propylene Oxide - 1.0 - 1.0 - 1.0 *1 Components (a) to (d) used for producing the compounds A shown in the table correspond to the compounds a to d described above, and the values each represent a molar ratio. 25 *2 Diethylenetriamine *3 Triethylenetetramine *4 Acid value of the condensate (intermediate condensate) of 31 32 the compounds a and b *5 Acid value of the condensate (final condensate) of the compounds a, b and c * n.d. means that measurement cannot be made, because of using esters of dibasic acid 5 [Table 2] Examples I to 10 *1 Example No. 1 2 3 4 5 6 7 8 9 10 Compound A A-i 15 15 - - - - - - - -A-2 - - - - - - 15 - - A-3 - - 8 5 5 10 - - - A-4 - - - - - - - 10 - A-5 - - - - - - - - 12 A-6 - - - - - - - - - 20 Compound B Na Acrylate - - - - - 2 5 - - Na Methacrylate 23 23 13 14 14 20 20 20 14 10 Compound C C-1*2 - 31 - - - - - - - 10 C-2 *3 15 - 20 20 8 - - 25 34 C-3 *4 - - - - - - - - - 5 C-4 *5 - - - - - 31 18 - - Compound D D-1 *6 47 31 59 61 73 47 - 25 - 20 D-2 *7 - - - - - - 42 - 40 35 D-3 *8 - - - - - - - 50 - Weight Average Molecular Weight x 103 46 51 42 40 38 44 50 48 46 49 Method for calculating a compound ratio: In order to understand the compounding ratio of each monomer incorporated in an obtained copolymer, the ratio of the compound B is calculated in the form of a salt. 10 (Calculation example of the compounding ratio in Example 1) The compound A-1: 98.2 g (the solid content: 98.2 x 0.6 = 58.9).
33 The compound B: 72.0 g (the solid content: 108 (molecular weight of sodium methacrylate) x 72 g/86 (molecular weight of methacrylic acid) = 90.4 g). The compound C: 60.9 g, and the compound D: 183 g, each of which is 100 percent of the solid content. 5 The compound A: compound B: compound C: compound D = 58.9: 90.4: 60.9: 183 (in solid content)= 15 percent by weight: 23 percent by weight: 15 percent by weight: 47 percent by weight. *1 Values of the compounds A to C in the table are represented by parts by weight on a solid content basis. *2 methoxypolyethylene glycol methacrylate (molecular weigh of 5 250) *3 methoxypolyethylene glycol methacrylate (molecular weight of 1000) *4 methoxypolyethylene glycol acrylate (molecular weight of 250) 10 *5 methoxypolyethylene glycol acrylate (molecular weight of 1000) *6 methoxypolyethylene glycol methacrylate (molecular weight of 2000) *7 ethoxypolyethylene glycol methacrylate (molecular weight of 15 3000) *8 methoxypolyethylene glycol methacrylate (molecular weight of 4000) Comparative Examples 1 to 4 20 Condensate compounds were synthesized in the same method as that in Example 1 except that the reaction proportion of the dibasic acid (x moles) and that of methacrylic acid (y moles) with respect to 1.0 mole of the polyalkylene polyamine were set in the out of the range represented by 25 0.6<y/(l-x)<1.4 so that the above condensates were out of the scope of the present invention (compounds A'-1 to A'-4) . In Table 3, the compounding ratios of components used in the 34 synthetic examples are shown. Subsequently, the compounds A' 1 to A'-4 were copolymerized with the compounds B, C and D, thereby obtaining water-soluble amphoteric copolymers (comparative examples 1 to 4). In Table 4, the compounding 5 ratios of components used for the synthetic examples are shown. Table 3 Synthetic Examples *1 of Comparative Compounds A'-1 to A'-4 10 Comparative Compound A' A'-1 A'-2 A'-3 A'-4 (a) DETA *2 1.00 - 1.00 1.00 TETA *3 - 1.00 (b) Adipic Acid 0.66 0.83 0.83 0.66 15 Acid Value of Intermediate Condensate *4 20 17 15 23 (c) Acrylic Acid - - 0.28 Methacrylic Acid 0.14 0.30 - 0.68 20 y/(1-x) 0.4 1.8 1.7 2.0 Acid value of Final Condensate *5 17 22 20 28 (d) Ethylene Oxide 3.0 3.0 4.0 1.0 25 *1 Components (a) to (d) used for producing the compounds A' shown in the Table correspond to the compounds (a) to (d) described 35 above, and the values each represent a molar ratio. *2 Diethylenetriamine *3 Triethylenetetramine *4 Acid value of the condensate (intermediate condensate) of 5 the compounds a and b *5 Acid value of the condensate (final condensate) of the compounds a, b and c Table 4 10 Comparative Examples 1 to 4 *1 Comparative Example No. 1 2 3 4 Compound A' 15 A'-1 15 - - A'-2 - 15 A'-3 - - 15 A'-4 - - - 15 Compound B 20 Na Methacrylate 23 23 23 23 Compound C C-2 *2 15 15 15 15 Compound D D-1 *3 47 47 47 47 25 In Table 4, recipes are determined in accordance with the 36 compounding-ratio calculation method shown in Table 2. *1 Values of the compounds A', the compounds B and the compounds C in the Table are represented by parts by weight on a solid content basis. 5 *2 methoxypolyethylene glycol methacrylate (molecular weight of 1,000) *3 methoxypolyethylene glycol methacrylate (molecular weight of 2,000) 10 Synthetic Results of Comparative Examples 1 to 4 Table 5 Comparative Comparative Comparative Comparative Example 1 Example 1 Example 2 Example 3 Example 4 State of Uniform Uniform Uniform polymer aqueous aqueous aqueous gelled gelled solution solution solution Judgement Measurement Measurement of GPC *1 0 0 A not not available available Reaction Measurement Measurement proportion 1 time 0.47 time 1.6 times not not of Compound available available A *2 *1 0 ... No shoulder recognized in a high molecular weight region. A - shoulder recognized as a peak in a high molecular weight 15 region. 37 *2 Reaction proportion calculated when the reaction proportion of the compound A in Example 1 is set to be 1. When the number of molecules (x moles) of the dibasic 5 acid or an ester of the dibasic acid with a lower alcohol having 1 to 4 carbon atoms, which formed the compound A', and the number of molecules (y moles) of acrylic acid or methacrylic acid, or an ester of acrylic acid or methacrylic acid with a lower alcohol having 1 to 4 carbon atoms was 10 represented by 0.6 : y/(1-x), the reaction proportion of the compound A' in the water-soluble amphoteric copolymer was extremely decreased, and in a case of y/(1-x) A 1.4 was satisfied, the molecular weight was increased, and furthermore, gelation occurred. 15 Comparative Examples 5 to 9 The compounds A-1 to A-3, and A-6, were copolymerized with the compound B, the compound C, and the compound D by the following ratios, and water-soluble amphoteric copolymers (comparative examples 5 to 9) having polyalkylene glycole 20 chain of a single chain length were obtained. 38 Table 6 Comparative Examples 5 to 9 *1 Comparative Example No. 5 6 7 8 9 5 Compound A A-1 15 A-2 - - 15 A-3 - 5 10 A-6 - - - 15 Compound B Na Methacrylate 23 14 23 23 23 Compound C C-1 *2 - - - 62 10 15 C-2 *3 - - 62 - 67 Compound D D-1 *4 62 - D-3 *5 - 81 20 Weight Average Molecular Weight x 103 48 44 50 54 52 25 In Table 6, recipes are determined in accordance with the compounding-ratio calculation method shown in Table 2. *1 Values of the compounds A to D in the table are represented by 39 40 parts by weight on a solid content basis. *2 methoxypolyethylene glycol methacrylate (molecular weight of 250) *3 methoxypolyethylene glycol methacrylate (molecular weight of 1000) *4 methoxypolyethylene glycol methacrylate (molecular weight of 2000) s *5 methoxypolyethylene glycol methacrylate (molecular weight of 4000) Test Example 1: Mortar Flow Test <Preparation of Sample> Ordinary Portland cement (manufactured by Taiheiyo Cement Corp.) in an amount of 200 g, and 260 g of siliceous sand No. 6 (manufactured by Nippon Plaster Inc.) were io weighed, and dry mixing was performed for 90 seconds. Next, 0.448 g (on a solid content basis) of each of the copolymers obtained in Examples I to 10 and Comparative Examples 5 to 9 was weighed and was then diluted with water to have a total volume of 80 g, thereby preparing kneading water (water/cement ratio of 40%, and sand/cement ratio of 130%). The mixture of the cement and the sand was charged in the kneading 15 water and mixed together for 180 seconds, thereby forming a mortar paste. Conditions of the dry mixing and the mixing for mortar formation were very carefully performed so as to always obtain uniform materials.
<Measurement and Results of measurement> The mortar thus prepared was poured into a hollow cylindrical container and charged up to the top end of the container, the container having 0 50 mm and H 50 mm and being 5 placed on a plate made of an acrylic resin. Immediately after charging, the hollow cylindrical container was lifted up at a predetermined rate in a direction perpendicular to the acrylic resin-made plate. After the mortar stopped spreading and completely stood still, the maximum diameter of the spread of 10 the mortar and the diameter perpendicular thereto were measured, and the average was obtained from the two diameters thus measured. The procedure described above was performed immediately after the formation of the mortar paste and also performed after 60 minutes and 120 minutes. When the 15 measurement was performed after 60 and 120 minutes, in order to prevent the evaporation of moisture, a container containing the mortar was covered with a plastic sheet and was placed still, and right before the measurement, the mortar was again mixed for 90 seconds and was then charged into the hollow 20 container. 41 Table 7 Mortar flow value (mm) Evaluation Evaluation Immediately of water of slump Copolymer after After 60 After 120 reducing flow formation minutes minutes property retention *1 *2 Example 1 125 109 95 0 A Example 2 117 106 95 A 0 Comparative Example 5 111 96 84 A A Comparative Example 7 108 101 96 X 5 *1 Water Reducing Performance Not less than 120 is represented by 0, 110 to less than 120 is represented by A, and 100 to less than 110 is represented by X. *2 Performance of Slump Flow Retention 10 When values of I(Mortar flow immediately after formation) (Mortar Flow after 2 hours)| are less than 25, 25 to less than 30, and 30 or more, they are represented by 0, A and X, respectively. The copolymer of Example 1 containing the compound C-2 15 and the compound D-1 in one molecule of the copolymer and the copolymer of Example 2 containing the compound C-1 and the 42 compound D-1 in one molecule of the copolymer showed superior water reducing property and slump flow retention as compared to those of the copolymer of Comparative Example 5 containing only the compound D-1 and the copolymer of Comparative Example 5 7 containing only the compound C-2. Table 8 Mortar flow value (mm) Evaluation Evaluation Immediately of water of slump Copolymer after After 60 After 120 reducing flow formation minutes minutes property retention *1 *2 Example 3 175 173 173 0 @ Example 4 177 174 177 0 @ Example 5 178 178 183 0 @ Example 6 185 181 176 @ 0 Example 7 170 163 152 A A Example 8 188 180 174 © Example 9 181 178 168 0 A Example 10 177 170 162 0 A Comparative Example 6 189 180 144 9 X Comparative Example 9 123 116 107 X A *1 Water Reducing Property 43 When the mortar flow immediately after the formation are 185 or more, 175 to less than 185, 170 to less than 175, and less than 170, they are represented by @, 0, A and X, respectively. 5 *2 Performance of Slump Flow Retention When values of I (Mortar flow immediately after formation) (Mortar Flow after 2 hours)| are less than 5, 5 to less than 10, 10 to less than 20, and 20 or more, they are represented by @, 0, A and X, respectively. 10 The copolymers obtained in Examples 3 to 10 showed superior well-balanced water reducing property and slump flow retention in the mortar flow test, and on the other hand, the copolymer only containing the compound D-3 which was a long 15 chain alkylene glycol group of the copolymer obtained in Comparative Example 6 had an improved water reducing property but had seriously degraded slump flow retention, the above copolymer. Since it has been well known that even when the same sample was used for the mortar flow test and the concrete 20 flow test, the test results of the water reducing property, the slump flow retention and the concrete viscosity were changed between the two tests; therefore, in order to more precisely evaluate the performance obtained in the above mortar test, the concrete test was further implemented. 25 Test Example 2: Concrete Test Concrete formulations used in concrete tests 1 to 4 are 44 shown in the following table. Table 9 Formulation Formulation Formulation Formulation Formulation No. -1 -2 -3 -4 W/B (%) 20.0 15.0 12.0 30.0 Water 145 150 153 145 Binder *1 725 1000 1275 485 Fine aggregate *2 712 462 219 805 Course aggregate *3 875 875 875 986 5 Unit: kg/M 3 *1: Formulations-1 to 3, Silica fume cement (density: 3.08 g/cm 3 ) Formulation-4, ordinary Portland cement (density: 3.15 g/cm 3 ) 10 *2: Crushed sand (density: 2.64 g/cm 3 ) *3: Hard crushed stone (density: 2.65 g/cm 3 ) Concrete Test 1 Test conditions: Water Binder Ratio (W/B) = 20% 15 In this test, the Formulation-1 was used among the Formulations shown in Table 9. 45 46 Table 10 Copolymer W/B (%) Addition Aging time Slump flow 50 cm flow Setting time Strength amount B x (min.) (cm x cm) time Start/end after 1 day % (second) N/mm 2 0 70.5 x 65.5 10.5 Example 3 20% 0.48 30 71.0 x 69.5 11.0 7-36/8-46 21.3 60 68.5 x 68.0 11.6 90 68.0 x 65.5 12.1 0 67.0 x 65.0 11.9 Example 4 20% 0.47 30 72.0 x 71.5 12.5 7-24/8-35 21.0 60 70.0 x 70.0 13.0 90 70.5 x 68.5 13.9 0 69.5 x 68.0 11.2 Example 5 20% 0.47 30 73.0 x 72.5 12.2 7-21/8-23 20.6 60 71.5 x 70.0 12.9 90 71.0 x 68.5 13.5 0 63.5 x 63.5 10.6 Comparative 20% 0.48 30 65.0 x 64.5 12.2 8-40/10-06 16.6 Example 7 60 61.5 x 60.5 13.5 I_ 1 90 54.5 x 51.0 out of range In the table, the addition amount represents the portion of the solid content of the dispersant to the binder.
As can been seen from the results, in the concrete test in a region having a low water/binder ratio (W/B=20%), the copolymers of Examples 3 to 5 showed superior water reducing property, slump flow retention, rapid setting, and strength 5 development and, in addition, also showed superior concrete viscosity. Concrete Test 2 Test conditions: Water/Binder Ratio (W/B) = 15% 10 In this test, the Formulation-2 was used among the formulations shown in Table 9. 47 48 Table 11 Copolymer W/B (%) Addition Aging time Slump flow 50 cm flow Setting time Mortal amount (min.) (cm x cm) time Start/end kneading Bx% (second) time 0 74.0 x 73.5 10.3 Example 4 15% 0.56 45 72.0 x 71.5 13.0 7-48/9-08 160 90 75.0 x 74.5 14.0 seconds 0 74.0 x 73.0 10.6 Example 6 15% 0.49 45 72.0 x 70.0 12.2 9-55/10-57 120 90 71.0 x 69.5 13.5 seconds 0 74.0 x 72.5 10.4 Example 8 15% 0.53 45 70.0 x 70.0 12.5 10-21/11-45 160 90 68.5 x 68.0 15.0 seconds Comparative 15% 0.62 0 65.0 x 65.0 13.2 12-04/13-16 180 Example 7 seconds In the table, the addition amount represents the portion of the solid content of the dispersant to the binder. Mortar Kneading Time: Time from the start of kneading until complete mortar is s obtained is evaluated by visual inspection. Even in a region in which the water/binder ratio (W/B=1 5%) was low, according to the copolymers of Examples 4, 6 and 8, superior water reducing property, slump flow retention, and rapid strength development were obtained, and in addition, a low concrete viscosity could be maintained. Furthermore, the time required for obtaining a uniform mortar was short, and the time required for obtaining a well 5 conditioned concrete was also short. Concrete Test 3 Test conditions: Water/Binder Ratio (W/B) = 12% In this test, the Formulation-3 was used among the 10 formulations shown in Table 9. 49 50 Table 12 Copolymer W/B (%) Addition Aging time Slump flow 50 cm flow Setting time amount (min.) (cm x cm) time Start/end Bx% (second) 0 73.5 x 73.0 15.1 Example 4 12% 0.80 45 73.5 x 72.5 17.8 13-15/14-34 90 75.5 x 76.5 19.2 0 74.0 x 72.5 15.6 Example 6 12% 0.73 45 73.5 x 73.5 17.5 15-27/16-45 90 72.5 x 70.5 18.9 0 74.5 x 73.0 15.3 Example 8 12% 0.76 45 72.5 x 72.0 17.5 16-32/17-55 90 71.5 x 70.0 21.0 Comparative 12% 1.04 0 69.5 x 67.0 21.6 20-15/21-32 Example 7 In the table, the addition amount represents the proportion of the solid content of the dispersant to the binder. In concrete in a region in which the water/binder ratio (W/B=12%) was further s decreased, the addition amount of the dispersant had to be extremely increased, and as a result, the time required for setting was extremely late. According to the copolymers of Examples 4, 6 and 8, superior water reducing property, slump flow retention, and rapid setting property were obtained, and in addition, the concrete viscosity was 5 superior. Concrete Test 4 Test conditions: Water/Cement Ratio (W/C)=30% In this test, the Formulation-4 was used among the 10 formulations shown in Table 9. 51 52 Table 13 Copolymer W/B (%) Addition Aging time Slump flow 50 cm flow Setting time amount (min.) (cm x cm) time Startlend Cx% (second) 0 51.0 x 48.0 out of range 3-59/5-31 Example 4 30% 0.11 5 42.5 x 42.0 out of range 5 62.0 x 60.5 5.9 Comparative 30% 0.25 30 66.5 x 66.5 6.9 8-12/10-08 Example 8 60 62.0 x 61.0 7.6 90 55.0 x 51.0 out of range 0 65.0 x 64.5 5.3 Example 4 + 30% Example 4 30 66.0 x 64.0 6.5 7-56/9-55 Comparative 0.03 60 61.5 x 60.5 7.3 Example 8 Comparative 90 56.0 x 50.5 out of range Example 8 0.22 In the Table, the addition amount represents the portion of the solid content of the dispersant to the binder. When the copolymer of Example 4 of the present invention was only used in a region in which the water cement ratio (W/C=30%) was high, the slump flow retention was extremely decreased. However, the copolymer described above can be preferably used for a secondary concrete product which does 5 not primarily require the slump flow retention, and when being compounded with a common dispersant, a high initial water reducing property, a rapid setting time, and an effect of decreasing the concrete viscosity can be obtained. 53
Claims (11)
1. A cement dispersant comprising a water-soluble amphoteric copolymer, or a partly or a fully neutralized salt thereof, the copolymer being formed by copolymerizing a monomer mixture containing as a main monomer component, 5 at least one compound (compound A) obtained by addition of 0 to 8 moles of an alkylene oxide having 2 to 4 carbon atoms with respect to one equivalent of amino residues of a polyamide polyamine obtained by condensation of 1.0 moles of a polyalkylene polyamine, 0.5 to 0.95 moles of a dibasic acid or an ester of the dibasic acid with a lower alcohol having I to 4 carbon atoms, and 0.05 to 0.70 moles of acrylic acid or 10 methacrylic acid, or an ester of acrylic acid or methacrylic acid with a lower alcohol having I to 4 carbon atoms; at least one compound (compound B) represented by general formula (1) CH 2 = C -COOM I(1) 15 (in the formula, R' represents a hydrogen atom or a methyl group, and M represents a hydrogen atom, an alkali metal, an alkali earth metal, an ammonium group, or an alkanolammonium); at least one compound (compound C) represented by general formula (2) CH 2 = - COO (R30) mR' 20 R (2) (in the formula, R 2 represents a hydrogen atom or a methyl group, R 3 represents an alkylene group having 2 to 4 carbon atoms, R 4 represents a hydrogen atom or an alkyl group having I to 4 carbon atoms, and m represents the number of addition molecules of a polyalkylene glycol and is an integer of 1 to 35); and 25 at least one compound (compound D) represented by general formula (3) CH 2 =C-COO (R'O) nR7 R 5 (3) (in the formula, R 5 represents a hydrogen atom or a methyl group, R6 represents an alkylene group having 2 to 4 carbon atoms, R 7 represents a hydrogen atom or an alkyl 55 group having 1 to 4 carbon atoms, and n represents the number of addition molecules of a polyalkylene glycol and is an integer of 40 to 100), wherein, when the total of the compounds A to D is set to be 100 percent by weight, the s water-soluble amphoteric copolymer is obtained by copolymerizing 5 to 25 percent by weight of the compound A, 5 to 30 percent by weight of the compound B, 5 to 40 percent by weight of the compound C, and 20 to 80 percent by weight of the compound D.
2. A concrete admixture for mortar and concrete, comprising a mixture which contains the cement dispersant according to Claim I and at least one. additive for mortar to and concrete selected from the group consisting of a cement dispersant different from said cement dispersant, a defoaming agent and an air-entraining agent.
3. A concrete composition comprising the cement dispersant according Claim 1.
4. A concrete composition comprising the cement admixture for mortar and concrete according to Claim 2. 15
5. The concrete composition according to Claim 3 or 4, wherein the concrete composition is used for ultrahigh performance concrete.
6. A cement dispersant, substantially as hereinbefore described with reference to any one of the examples.
7. A concrete admixture, substantially as hereinbefore described with reference 20 to any one of the examples.
8. A concrete composition, substantially as hereinbefore described with reference to any one of the examples.
9. A concrete admixture for mortar and concrete, comprising a mixture which contains the cement dispersant according to Claim 6 and at least one additive for mortar 2S and concrete selected from the group consisting of a cement dispersant different from said cement dispersant, a defoaming agent and an air-entraining agent.
10. A concrete composition comprising the cement dispersant according Claim 6. 56
11. A concrete composition comprising the cement admixture for mortar and concrete according to Claim 7 or 9. Dated 21 December, 2010 5 Sika Ltd. and Toho Chemical Industry Co., Ltd. Patent Attorneys for the Applicant/Nominated Person SPRUSON & FERGUSON
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