| Identification | Back Directory | [Name]
MELAMINE RESIN | [CAS]
9003-08-1 | [Synonyms]
g3
gm3
gm4
mec
mm1
ml21
mfp8
bc27
bc71
bl25
bl35
m33w
g821
j820
bmf1
bn30
OBT3
ca105
cyrez
hm100
l6504
bl434
bc336
PFDN5
ml045
ml133
ml630
mel-f
mf004
mf009
mf910
ml3120
20se60
lmb357
d100-2
cr2024
l109-65
l121-60
k121-02
k421-01
k421-02
k421-05
k423-02
amilac3
arigalc
1pc6115
MGC5329
RS-2196
melolam
melan15
melan20
melan22
melan26
melan27
melan28
melan23
melan29
melalit
melaform
melan445
melan523
melan620
melan630
melan243
melan245
melan287
melan28a
melan28d
melanx28
melanx65
melanx71
melarom3
melan220
melan125
melan21a
melolakb
melasilu
MGC71907
MGC71902
basotect
lyofixch
cymel200
cymel202
cymel235
cymel285
cymel300
cymel301
cymel303
cymel305
cymel323
cymel325
cymel327
cymel350
cymel370
cymel373
cymel380
cymel385
cyrez966
cyrez933
cyrez963
cymel255
cymelhm6
cohedura
cymel245
cymel412
cymel428
cymel481
cymel482
cymel265j
cymel266j
cyrez963p
diamelkol
epoku9192
cymel1133
cymel1135
cymel1156
cymel1158
cymel1161
cymel1168
cymel1370
cymel1080
cymel1116
cymel1130
lyofixchn
maduritms
kauritm70
hicoforpr
formink-k
g3(resin)
lyofixmlf
maduritop
madurittn
beetle336
beetle338
MF resins
nanoplast
arkofixnm
aerotexum
aerotex92
aerotexm3
aerotexmw
melasilu1
melasilu2
mel-irona
merkapolp
metazin6u
melan284a
melan2000
melasilk1
melasilk2
melasilk3
melapretp
melan8000
melasilk1s
melamine20
mirbane850
mirbanemr2
meloplastb
merkapolpg
mfas-r100p
melolam285
beetle3735
beetlebc27
beetlebc71
madurit152
maprenalmf
luvipal066
luwipal012
cassuritmt
cibaminm84
cymel243-3
dynominmm9
dericon700
cymelc1156
deglaresin
melaform45
melaforme45
melaforme50
melaforme55
melaform150
melaformwm6
dynominmm75
cyrez963p-a
cymelxm1116
cymel7273-7
cymel247-10
biomine1651
cibaminm100
cassurithml
cassuritmlp
cassuritmls
kauramin542
kauramin650
kauramin700
kauramin782
meladurms80
maprenalnpx
maprenalttx
maprenalvmf
maprenal980
beckaminepm
beetlebe336
beetlebe645
beetlebe669
beetlebe670
beetlebe681
beetlebe683
beetlebe687
beetlebt309
beetlebt323
beetlebt336
beetlebt370
beetlebt670
beetlebc309
beetlebc371
aerotex3700
melolakb-ii
melopasamp1
mikronals40
melamine366
mirbanesm607
mirbanesm800
mirbanesm850
melopas183gf
accobond3903
aerolitemf15
astromelnw6a
accobond3524
accobond3900
beckamineaph
beckamineapm
beckamineg82
beetlebe3735
beetlebe3747
beetlebe3021
madurit5238n
m76(polymer)
lyofixchn-za
maduritmw111
maduritmw112
maduritmw150
maduritmw161
maduritmw166
maduritmw392
maduritmw484
maduritmw559
maduritmw630
maduritmw815
maduritmw909
budaminmf55i
budaminmf60i
dynominmm100
elastofixacs
epostareps-s
T-3 Melamine
maxichem1dtm
melaformwm100
deglaresinn12
cymel401resin
magnifloc509c
maprenalmf590
maprenalmf650
maprenalmf900
maprenalmf904
maprenalmf910
maprenalmf915
maprenalmf920
maprenalmf927
maprenalmf929
maprenalmf980
maprenalmp500
beckaminepm-n
beckaminej101
beckaminema-s
beckaminej820
melopasn37601
MELAMINE RESIN
beckaminej1012
banceminesm947
banceminesm970
banceminesm975
beetleresin323
aerotexresinmw
maduritvmw3113
maduritvmw3114
maduritvmw3151
maduritvmw3163
maduritvmw3284
maduritvmw3399
maduritvmw3489
maduritvmw3490
maduritvmw3494
maduritvmw3819
maduritvmw3822
cibaminml100gb
cymel1130-235j
cymel1130-254j
cymel1130-285j
maprenalvmf3655
maprenalvmf3925
maprenalvmf3935
maprenalvmf52/7
bancemine115-60
bancemine125-60
beckaminej820-60
beckaminel105-60
maprenalrt-mf650
bmf1(aminoplast)
melaformm45s(sub1)
m3(melaminepolymer)
MELAMINEFORMALDEHYDE
melamine-formolcopolymer
POLYOXYMETHYLENE MELAMINE
Plant growth regulator G3
formaldehyde-melamineresin
formalin-melaminecopolymer
formaldehyde-melaminepolymer
melamine-formaldehydepolymer
MELAMINE FORMALDEHYDE RESINS
melamine-formaldehydecopolymer
formaldehyde-melaminecopolymer
formaldehyde-melaminecondensate
melamine-formaldehydecondensate
methylenemelaminepolycondensate
melamine,polymerwithformaldehyde
MELAMINE RESIN ISO 9001:2015 REACH
Melamine-formaldehyde resin adhesive
Anti-CCL28 antibody produced in rabbit
Melamin-Formaldehyd-Kondensationsprodukt
1,3,5-Triazine-2,4,6-triamine,polymerwithformaldehyde
3-[[3-Methoxyestra-1,3,5(10)-trien-17β-yl]oxy]propanenitrile
8aβ-Hydroxy-3,3,6,6,8,8-hexamethyl-3,8a-dihydro-1,2-benzodioxin-5,7(6H,8H)-dione
(S)-3,3,6,6,8,8-Hexamethyl-8aβ-hydroxy-3,8a-dihydro-1,2-benzodioxin-5,7(6H,8H)-dione
(8aS)-3,3,6,6,8,8-Hexamethyl-8aβ-hydroxy-3,5,6,7,8,8a-hexahydro-1,2-benzodioxin-5,7-dione | [Molecular Formula]
(C3H6N6CH2O)x | [MDL Number]
MFCD00197733 | [MOL File]
9003-08-1.mol | [Molecular Weight]
156.15 |
| Chemical Properties | Back Directory | [Definition]
A type of amino resin made
from melamine and formaldehyde. The first step
in resin formation is the production of trimethylol melamine, C3N3(NHCH2OH)3, the molecules
of which contain a ring with three carbon and
three nitrogen atoms, the –NHCH2OH groups being
attached to the carbon atoms. This molecule can
combine further with others of the same kind by
a condensation reaction. Excess formaldehyde or
melamine can also react with trimethylol melamine
or its polymers, providing many possibilities of
chain growth and cross-linking. The nature and
degree of polymerization depend upon pH, but heat
is always needed for curing. Melamine resins are
more waterand heat-resistant than urea resins.
They may be water-soluble syrups (low molecular weight) or insoluble powders (high molecular weight) dispersible in water. Widely used as
molding compounds with α-cellulose, wood flour,
or mineral powders as fillers and with coloring
materials; also for laminating, boil-proof adhesives,
increasing wet strength of paper, textile treatment,
leather processing, and for dinnerware and decorative plastic items. Butylated melamine resins are
formed by incorporating butyl or other alcohols during resin formation, whereupon the –NHCH2OH
groups convert to –NHCH2OC4H9. These resins are
soluble in paint and enamel solvents and in surface
coatings, often in combination with alkyds. They
give exceptional curing speed, hardness, wear resistance, and resistance to solvents, soaps, and foods.
Melamine-acrylic resins are water soluble and used
for formation of water-base industrial and automotive finishes. | [Melting point ]
>330 °C (decomp) | [density ]
1.13-1.14 g/cm3 | [storage temp. ]
-20°C | [form ]
buffered aqueous solution | [biological source]
rabbit | [Dielectric constant]
5.5(Ambient) | [InChI]
InChI=1S/C3H6N6.CH2O/c4-1-7-2(5)9-3(6)8-1;1-2/h(H6,4,5,6,7,8,9);1H2 | [InChIKey]
IVJISJACKSSFGE-UHFFFAOYSA-N | [SMILES]
C=O.NC1=NC(N)=NC(N)=N1 | [EPA Substance Registry System]
Melamine polymer with formaldehyde (9003-08-1) |
| Hazard Information | Back Directory | [Uses]
Suggested starting dilutions are as follows: IHC-P: 1:100-1:1000, WB: 1:500-1:3000. Not yet tested in other applications. Optimal working dilutions should be determined experimentally by the end user. | [Uses]
Melamine formaldehyde is used for the treatment of heavy fabrics, draperies, coatings, collars, and apparel; in water- and oil-repellent and flame-retardant
hrllsIies (effective on synthetic and natural fibers). | [Preparation]
Melamine resin is a resin with melamine rings terminated with multiple hydroxyl groups derived from formaldehyde. This thermosetting plastic material is made from melamine and formaldehyde.
| [Production Methods]
The monomer used for preparing melamine formaldehyde is formed by reacting melamine with formaldehyde to yield hexamethylolmelamine. The monomer can further condense in the presence of an acid catalyst; ether linkages can also form. A wide variety of resins can be obtained by careful selection of pH, reaction temperature, reactant ratio, amino monomer, and extend of condensation. Liquid coating resins are prepared by reacting methanol or butanol with the initial methylolated products. These can be used to produce extreme surface hardness, discoloration and solvent-resistant coatings by heating with a variety of hydroxy, carboxyl, and amide functional polymers to produce a cross-linked film.
| [Origin]
Melamine-formaldehyde was first commercialized by the American Cyanamid Co. in 1939. | [Industrial uses]
This is a synthetic resin of the alkyd type madeby reacting melamine with formaldehyde. Theresin is thermosetting, colorless, odorless, andresistant to organic solvents. It is more resistantto alkalies and acids than urea resins, has betterheat and color stability, and is harder. Themelamine resins have the general uses of moldingplastics, and also are valued for dishes forhot foods or acid juices and they will not softenor warp when washed in hot water. Melamine,a trimer of cyanamide, has the composition(NC·NH2)3.
The melamine resins have good adhesivenessbut are too hard for use alone in coatingsand varnishes. They are combined with alcoholmodifiedurea-formaldehyde resins to give coatingmaterials of good color, gloss, flexibility, andchemical resistance. Urea-modified melamineformaldehyderesins are used for coatings andvarnishes. Melamine-formaldehyde moldingresin, with cellulose filler, has a tensile strengthof 51 MPa and dielectric strength per mil of12.8×106V/m.
Melamine-urea-formaldehyde resin with alignin extender is used as an adhesive for waterresistantplywood. Phenol-modified melamineformaldehyderesin solution is used for laminatingfibrous materials. Highly translucentmelamine-formaldehyde resin is used for moldinghigh-gloss buttons. Methylol-melamine,made by alkylating a melamine-formaldehyderesin with methyl alcohol, is used for shrinkproofingwoolen fabrics. | [Biochem/physiol Actions]
This gene belongs to the subfamily of small cytokine CC genes. Cytokines are a family of secreted proteins involved in immunoregulatory and inflammatory processes. The CC cytokines are proteins characterized by two adjacent cysteines. The cytokine encoded by this gene displays chemotactic activity for resting CD4 or CD8 T cells and eosinophils. The product of this gene binds to chemokine receptors CCR3 and CCR10. This chemokine may play a role in the physiology of extracutaneous epithelial tissues, including diverse mucosal organs. [provided by RefSeq] |
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