1-9 A-D E-G H-M N-P Q-S T-Z

METHOXYPROPYLAMINE (MOPA) / METOKSİPROPİLAMİN

METHOXYPROPYLAMINE (MOPA) / METOKSİPROPİLAMİN
CAS NO: 5332-73-0

EINECS Number : 226-241-3

 

SYNONYMS: 3-Methoxypropylamine; 5332-73-0; 3-methoxypropan-1-amine; 1-Propanamine, 3-methoxy-; 1-Amino-3-methoxypropane; 3-Aminopropyl methyl ether; 3-Methyoxypropylamine; 3-Methoxy-n-propylamine; 3-Methoxy-1-propanamine; Propylamine, 3-methoxy-; 3-MPA; Propanolamine methyl ether; gamma-Methoxypropylamine; NSC 5521-methoxy-3-aminopropane; UNII-VT819VO82Z; CCRIS 6178; 3-methoxy-propylamine; 3-Methoxy-1-propylamine; EINECS 226-241-3; .gamma.-Methoxypropylamine; BRN 0878144; AI3-25438; VT819VO82Z; FAXDZWQIWUSWJH-UHFFFAOYSA-N; DSSTox_CID_7596; DSSTox_RID_78522; DSSTox_GSID_27596; 3-Methoxypropylamine, 99+%; 3-methoxypropyl amine; 3-methoxy-1-aminopropane; CAS-5332-73-0; [3-(methyloxy)propyl]amine; 3-(methyloxy)-1-propanamine; methoxypropylamine; 3-methoxyproylamine; 3-metoxypropylamine; 3-Methoxypropylamin; methoxy propyl amine; 3-methoxylpropylamine; 3-methoxy propylamine; (3-methoxypropyl)amine; 3-methoxy propyl amine; PubChem16804; 3-methoxy-n-propyl-amine; 3-Methoxypropane-1-amine; ACMC-1B1QS; EC 226-241-3; -Methoxypropylamine, 99%; KSC497S7T; WLN: Z3O1; NSC552; CHEMBL3186458; DTXSID7027596; CTK3J7979; NSC-552; PROPANE,1-AMINO,3-METHOXY; STR00952; ZINC1555605; Tox21_201250; Tox21_303065; ANW-31708; BBL011597; STL163330; AKOS000119858; CS-W016673; MCULE-1421362990; TRA0071153; KS-00000V14; 3-Methoxypropylamine, analytical standard; NCGC00249008-01; NCGC00257023-01; NCGC00258802-01; SC-46934; LS-125707; RT-004137; FT-0616017; M0127; 111065-EP2298305A1; W-105748; Q27292011; F0020-1832; InChI=1/C4H11NO/c1-6-4-2-3-5/h2-5H2,1H; metoksi; propil; amin; metoksi propil; metoksipropil; propilamin; propil amin; metoksiamin; metoksi amin; amin propil; aminpropil; aminmetoksi; amin metoksi; amin propilİ aminpropil; amınopropil; amino propil; metoksi propil amin; metoksipropilamin; metoksi amin propil; metoksiaminpropil; metoksi amino propil; metoksiaminopropil; amınometoksipropil; amino metoksi propil; aminometoksipropil; amino metoksi propil; propilmetoksiamin; propil metoksi amin; propil amino metoksi; propil amin metoksi; propilaminmetoksi; propilaminometoksi; methoxy; amine; propyl; methoxylpropyl; methoxy propyl; methoxy amine; methoxyamine; propylamine; propyl amine; propylmethoxy; propyl methoxy; aminepropyl; amine propyl; amine methoxy; aminemethoxy; methoxypropylamine; methoxy propyl amine; methoxyaminepropyl; methoxy amine propyl; propylaminemethoxy; propyl amine methoxy; propylmethoxyamine; propyl methoxy amine; aminemethoxypropyl; amine methoxy propyl; aminepropylmethoxy; amine propyl methoxy; METOKSİ; PROPİL; AMİN; METOKSİ PROPİL; METOKSİPROPİL; PROPİLAMİN; PROPİL AMİN; METOKSİAMİN; METOKSİ AMİN; AMİN PROPİL; AMİNPROPİL; AMİNMETOKSİ; AMİN METOKSİ; AMİN PROPİLİ AMİNPROPİL; AMINOPROPİL; AMİNO PROPİL; METOKSİ PROPİL AMİN; METOKSİPROPİLAMİN; METOKSİ AMİN PROPİL; METOKSİAMİNPROPİL; METOKSİ AMİNO PROPİL; METOKSİAMİNOPROPİL; AMINOMETOKSİPROPİL; AMİNO METOKSİ PROPİL; AMİNOMETOKSİPROPİL; AMİNO METOKSİ PROPİL; PROPİLMETOKSİAMİN; PROPİL METOKSİ AMİN; PROPİL AMİNO METOKSİ; PROPİL AMİN METOKSİ; PROPİLAMİNMETOKSİ; PROPİLAMİNOMETO; Sİ; METHOXY; AMİNE; PROPYL; METHOXYLPROPYL; METHOXY PROPYL; METHOXY AMİNE; METHOXYAMİNE; PROPYLAMİNE; PROPYL AMİNE; PROPYLMETHOXY; PROPYL METHOXY; AMİNEPROPYL; AMİNE PROPYL; AMİNE METHOXY; AMİNEMETHOXY; METHOXYPROPYLAMİNE; METHOXY PROPYL AMİNE; METHOXYAMİNEPROPYL; METHOXY AMİNE PROPYL; PROPYLAMİNEMETHOXY; PROPYL AMİNE METHOXY; PROPYLMETHOXYAMİNE; PROPYL METHOXY AMİNE; AMİNEMETHOXYPROPYL; AMİNE METHOXY PROPYL; AMİNEPROPYLMETHOXY; AMİNE PROPYL METHOXY; 1-Amino-3-methoxypropane; 3-Methoxypropylamine; Methoxypropylamine; METHOXY PROPIL AMIN; methoxypropilamin; methoxy propil amin; Methoxy Propil Amin; metoksipropilamin; metoksipropil amin; Metoksi Propil Amin; METHOXYPROPİLAMİN; 3-Methoxypropylamine; 5332-73-0; 1-Propanamine, 3-methoxy-; 3-methoxypropan-1-amine; 1-Amino-3-methoxypropane; 3-Aminopropyl methyl ether; C4H11NO; MOPA; FENTAMINE OPA-1; RARECHEM AL BW 0073; 3-methoxy-propylamin; 3-METHOXYPROPYLAMINE; 3-Methyoxypropylamine; Methoxy-3-propylamine; 3-methoxy-1-propanamin; METHOXYPROPYLAMINE, 3-; γ-Methoxy propyl amine; C4H11; 3-Methoxy-1-propanamine; 3-Méthoxy-1-propanamine; 3-methoxypropan-1-amin; 3-Methoxypropan-1-Amine; Methoxypropan-1-Amine; 3-t; oxypropylamine; Methoxypropylamine; Methoxy-1-propanamin; 1-Propanamine, 3-methoxy-; 1-Amino-3-methoxypropane; Amino-3-methoxypropane; 3-Methoxypropylamine (MOPA);METOKSİPROPİLAMİN; METOKSİPROPİL AMİN METHOKSİPROPİLAMİN;methoksipropil amin; metoksi; propilamin; metoksiaminler; propilaminler

 


Amine soaps prepared from methoxypropylamine and fatty acids are useful for making dispersions and emulsions of
certain synthetic and natural resins and waxes which are useful in floor finishes, textile finishes, water-based paints and in
similar areas of application.
Methoxypropylamine is useful for preparing water-insensitive waxes. It volatilizes with water and leaves behind an
insoluble wax film. Further, methoxypropylamine in dilute solutions does not have an objectionable odor. The material has
been compared with morpholine in such applications and may, in fact, function as a substitute for morpholine in some
instances. Methoxypropylamine should also find use in insecticide emulsions, dye solvents, textile assistants, and in
general, applications in which mild bases of moderate volatility are desired. It has been used in the production of dyes to
modify polybutadiene-based isocyanates and in the manufacture of polyamide resins. The treatment of aluminum and
aluminum alloy surfaces with dilute solutions of methoxypropylamine is reported to improve the adherence of various
coatings which may be subsequently applied.


The reaction of methoxypropylamine with bis(2-carbamoylphenyl) disulfides is reported to give products useful in
controlling mildew fungi in latex and alkyd paints. Similar products are obtained by reacting methoxypropylamine with
quinones, carbamates, benzothiazole and other substrates. Compounds effective against silicosis have been reported
from the reaction of methoxypropylamine with styrene-maleic anhydride copolymer and a diamine.
A phenol-free paint remover has been prepared from methoxypropylamine and sodium hydroxide. Plant growth regulators
were prepared from methoxypropylamine.
A fluorescent brightener for cellulosic textiles was prepared from methoxypropylamine. It is reported to have improved
low-temperature effectiveness and did not discolor washing powders.


Water soluble polyelectrolytes for use as flocculating agents have been prepared by reacting methoxypropylamine with
acrylonitrile polymers.
Methoxypropylamine can be used to inhibit corrosion in steam condensate systems. The addition of the amine in the parts
per million level is effective in reducing corrosion caused by the presence of carbon dioxide in the water.
Methoxypropylamine has been proposed as an additive to prevent corrosion of oil refining equipment. The presence of
acidic materials in the incoming crude causes corrosion at the points of initial water condensation.

 

Methoxypropylamine should be considered hazardous, having the potential to cause eye burns, skin irritation and allergic skin
reactions.
The oral LD50 (rats) for methoxypropylamine is 0.69 g/kg and it is, therefore, classified as moderately toxic if swallowed. Skin
penetration by undiluted product is indicated by the dermal LD50 (>3.0 g/kg, rabbits) which shows that a slight degree of toxicity
is associated with skin contact. Irritation studies with rabbits have shown methoxypropylamine to be extremely irritating to the
eyes, 103.7/110.0 (Draize score) and severely irritating to the skin, 8.0/8.0 (Draize score). A Department of Transportation
(D.O.T.) corrosion test with rabbits showed the product to be corrosive to the skin. This product has produced evidence of
delayed contact hypersensitivity reactions (dermal sensitization) in studies using guinea pigs.
In an acute inhalation study with rats, a saturated vapor of methoxypropylamine did not produce any deaths during a 7-hour
exposure.

Methoxypropylamine has been unreactive (negative) in short-term genotoxicity assays. Methoxypropylamine should be handled
in well-ventilated areas and chemical type goggles with face shield, impervious suits, gloves and rubber boots should be worn. If
eye contact occurs, flush thoroughly with water for at least 15 minutes. If skin contact occurs, wash exposed areas with soap
and water, remove contaminated clothing and wash clothing before reuse. If swallowed, do not induce vomiting, but give large
quantities of water. Give at least one ounce of vinegar in an equal amount of water.


Since methoxypropylamine has a low vapor pressure, inhalation under usual or ordinary circumstances should not present a
problem. However, repeated exposure to high concentrations of vapor could cause respiratory irritation and/or hazy vision from
a film over the cornea of the eye. Both conditions disappear with discontinuance of exposure and no residual injury is known.
Due care should be exercised to avoid breathing of vapors, skin contact and exposure to open flame. Areas in which vapors or
mists may be emitted should be well-ventilated, and spills in confined areas should be cleaned up promptly.
For additional information on the toxicity and safe handling of this product, consult the Material Safety Data Sheet (Safety
Data Sheet in Europe) prior to use of this product.

Storage tanks constructed to a recognized code, using carbon steel as a material of construction, generally are satisfactory.
However, prolonged storage in carbon steel may cause the color of the product to increase. In those cases where color needs to
be preserved, stainless steel or aluminum should be used.


Copper, zinc, lead, or alloys containing any of these materials should not be used since they will be attacked by the amine. In
addition, complex salts will be formed which will result in product discoloration.
The amine will discolor when exposed to air. It is also hygroscopic and will pick up moisture. If either of these characteristics is
not acceptable, it will be necessary to pad the storage tank. We recommend a dry nitrogen which is low in carbon dioxide
content.

 

A good gas blanketing system for a conventional tank requires two regulators - one on the gas to the tank and one on the vent
to the atmosphere. Because of the flammable nature of methoxypropylamine, it is recommended that a flame arrestor be
installed on any vent discharge. The inlet regulator should be set for approximately two or three ounces of pressure, while the
outlet regulator should be set for about four or five ounces and certainly not more pressure than that for which the tank was
designed. The inlet and outlet regulators should be sized very carefully to allow for maximum pumping into and out of the tank;
otherwise, the tank structure may rupture or collapse. Inspect vent valves for build-up of solid amine carbonates which result
from reaction of atmospheric carbon dioxide and amine fumes vented from the storage tank.

 

Carbon steel is acceptable for transfer lines. They should be blown or drained clean after each use. Otherwise, the product will
discolor when it is left in the lines. Transfer lines should be joined by welds or flanges. Screwed joints are subject to failure
because the amine will leach conventional pipe dopes. Satisfactory gasketing materials are Garlock 7021, U.S. Rubber 899,
John Crane 333, and Johns-Manville 70 or equivalent. For flexible connections, stainless steel hose is preferred to rubber, since
rubber will eventually deteriorate in amine service.


Since methoxypropylamine has a low flash point (80°F, TCC), adequate precautions should be observed to reduce fire hazards.
It should be used only in a well-ventilated area and precautions should be taken to avoid exposure to sparks and open flames.
Ground wires should be welded to the storage tank to reduce the chances of static electricity build-up. Where possible,
equipment should also be electrically bonded. Either float or manometer type gauges are recommended for tank metering.
Gauge glasses are not recommended for this service as they are subject to accidental breakage, resulting in a serious fire
hazard.


Proper fire-fighting equipment should be available wherever ethoxypropylamine is handled. Carbon dioxide, dry chemical or
"alcohol" foam, is effective in controlling fires.
Fumes from the burning of methoxypropylamine may include carbon monoxide, carbon dioxide and ammonia. Therefore
personnel fighting fires involving this product should be equipped with self-contained breathing apparatus and protective
clothing.


In case of spills eliminate all sources of ignition. Spills should be removed by absorbing with dry absorbent materials or by
washing with water.
The same storage and handling information discussed above applies to drum material.
Methoxypropylamine may be removed from drums by either pumping or draining. While material is being removed from the
drum, a dry inert gas blanket or purge should be maintained or, optionally, the 3/4 inch bung can be fitted with a suitable dryer
tube. Adequate ventilation and suitable protective devices should be employed.

 

Methoxypropylamine is available for shipment in tank cars, tank wagons, and 55-gallon drums. Samples are available by
contacting our sample department at 1-800-662-0924.

Methoxypropylamine (MOPA) is a clear, colorless liquid. It typically and an ammonia like odor.

It has properties typical of primary amines and is miscible with water, ethanol, toluene, acetone, hexane and other standard solvents.

 

Methoxypropylamine can be used in making amine soaps that can be used in dispersions and emulsions of natural and synthetic waxs used in flowing, textiles,
water-based paints etc. Methoxypropylamine volatilizes with water and leaves behind an insoluble wax film. Further, methoxypropylamine in dilute solutions
does not have an objectionable odor. Methoxypropylamine can be used in the following applications: Emulsifier in anionic coatings and wax formulations
Methoxypropylamine is commonly used in water treatment applications as a flocculating agent, and it is can be used to inhibit corrosion in steam
condensate systems.


It can also reduce presence of carbon dioxide in water. Morpholine substituteInsecticide emulsions; Dye solvents, textile assistants
Adhesion promoter for aluminum and aluminum alloy surface coatings When reacted with bis(2-carbamoylphenyl) disulfides
it can be used to help control mildew fungi in latex and alkyd paints Methoxypropylamine is used in the manufacture of polyamide resins
It is used as a corrosion prevention additive in oil drilling equipment.

MOPA;3-MethoxypropyL;FENTAMINE OPA-1;RARECHEM AL BW 0073;3-METHOXYPROPYLAMINE;3-methoxy-propylamin;3-Methyoxypropylamine;
Methoxy-3-propylamine;METHOXYPROPYLAMINE, 3-;3-methoxy-1-propanamin


This Methoxypropylamine Mopa market study offers a comprehensive analysis of the business models, key strategies, and respective market
shares of some of the most prominent players in this landscape. Along with an in-depth commentary on the key influencing factors,
market statistics in terms of revenues, segment-wise data, region-wise data, and country-wise data are offered in the full study.
This study is one of the most comprehensive documentation that captures all the facets of the evolving.

 

Methoxypropylamine is a clear colourless chemical in liquid form with an ammonia-like odour. It is completely miscible in water and
common organic solvents. Methoxypropylamine is used in the manufacture of amine soaps, which are used to make synthetic and
natural resins and wax dispersions and emulsions. These products are used in water-based paints and floor and fabric finishes.
Methoxypropylamine also finds application as a corrosion inhibitor. It is used for preparing waxes which are not sensitive to water,
since it displays volatility in the presence of water and leaves behind an insoluble wax film. It is also used as an intermediate
for chemicals used to treat water and floor waxes. Methoxypropylamine reacts with acrylonitrile polymers to produce polyelectrolytes,
which are soluble in water and hence, find applications as flocculating agents. These multiple applications and favourable reaction
characteristics of methoxypropylamine make the study of the global methoxypropylamine market an important read.

A steam condensate corrosion inhibiting compo-sition consisting essentially of methoxypropylamine and hydrazine.

More particularly, this invention relates to the use of methoxypropylamine in combination with hydrazine to control corrosion
in steam condensate systems or in other low solids 8queous systems.

 

The neutralizing amine of this invention over-comes the above-mentioned disadvantages of cyclo-hexylamine and morpholine.
Methoxypropylamine has a very desirable distribution ratio and a fairly high basicity value.Methoxypropylamine may be used alone
or in com-bination with an oxygen corrosion inhibitor such ashydrazine. In use, concentrations of 0.1 ~o 1000 mg/l,
and preferably 1 to 100 mg/l, should be maintained in . , , ii6~s _5~ C-1183I~ the steam condensate system.
When used in combina-tion with hydrazine or another oxygen corrosion in-hibitor, the compositions should contain on an
active basis from about 1% to about 99% methoxypropylamine and from about 0.1% tQ about 50%, preferably about 1% to about 15%,
of the oxygen corrosion inhibitor. The compositions of this invention may be fed to the steam condensate system being
treated by conventional liquid feeding means or may be fed to the boiler feedwater or directly to the steam supply lines.


The following examples will illustrate the use of methoxypropylamine, alone and in combination with hydrazlne,
as a steam condensate corrosion inhibitor in accordance with the teachings of this invention.


Cyclohexylamine 8.537.5 mg/l 4870 Morpholine 8.5152 mg/l 73%
Methoxypropylamine 8.5 106 mg/l 75%

The condensate test system of EXAMPLE 3 was used to demonstrate the effect of the addition of hydrazine to
methoxypropylamine in the inhibition ; of corrosion.

Methoxypropylamine: No OSHA Vacated PELs are listed for this chemical.

 

Polyvinyl alcohol co-polymer comprising co-monomers of carboxylic acid and carboxylic acid derivatives characterized
in that the co-polymer further comprises an amino functional reactant wherein the amino functional reactant is selected
from the group consisting of 3-(dimethyl-amino)propylamine, 3-amino-1-propanol, 3-methoxyethylamine, methoxypropylamine,
aminoethoxyethanol, aminopropoxypropanol, aminopropoxypropoxyethanol, 3-amino-1,2-propanediol, aminoethylethanolamine, allylamine,
3-aminopropylsulphonate, 3-aminopropylcarboxylate, and mixtures thereof.

This invention relates to corrosion control in steam condensate systems and other aqueous systems in which the mineral content is relatively low.

More particularly, this invention relates to the use of methoxypropylamine in combination with hydrazine to control corrosion in steam
condensate systems or in other low solids aqueous systems.

The neutralizing amine of this invention overcomes the above-mentioned disadvantages of cyclohexylamine and morpholine.
Methoxypropylamine has a very desirable distribution ratio and a fairly high basicity value.

 

Methoxypropylamine may be used alone or in combination with an oxygen corrosion inhibitor such as hydrazine.
In use, concentrations of 0.1 to 1000 mg/l, and preferably 1 to 100 mg/l, should be maintained in the steam condensate system.
When used in combination with hydrazine or another oxygen corrosion inhibitor, the compositions should contain on an active basis
from about 1% to about 99% methoxypropylamine and from about 0.1% to about 50%, preferably about 1% to about 15%, of the oxygen
corrosion inhibitor.The compositions of this invention may be fed to the steam condensate system being treated by conventional liquid feeding
means or may be fed to the boiler feedwater or directly to the steam supply lines.

The following examples will illustrate the use of methoxypropylamine, alone and in combination with hydrazine, as a steam condensate
corrosion inhibitor in accordance with the teachings of this invention.
Metoksipropilamin, amonyak kokusu olan berrak, renksiz bir sıvıdır. Primer aminlere özgü reaksiyonlara maruz kalır ve suda ve ortak organik solventlerde tamamen çözünür.


METOKSİ PROPİL AMİNİN ZEHİRLİLİK VE GÜVENLİĞİ;
Gözlerde yanıklara, cilt tahrişine ve alerjik cilt reaksiyonlarına neden olabilen metoksipropilamin tehlikeli olarak düşünülmelidir.
Metoksipropilamin için oral LD50 (sıçanlar) 0.69 g / kg'dır ve bu nedenle, eğer yutulursa orta derecede toksik olarak sınıflandırılır.
Seyreltilmemiş üründeki cilt nüfuzu cilde LD50 (> 3.0 g / kg, tavşanlar) ile gösterilir ve cilde oranla hafif bir toksiklik derecesine sahiptir.
Metoksipropilamin düşük bir buhar basıncına sahip olduğundan normal veya sıradan koşullar altında solunabilir. Bununla birlikte, yüksek konsantrasyonlarda buharın tekrar tekrar maruz kalması solunum tahrişine ve / veya bulanık görülebilmesine neden olabilir. Her iki durumda da, maruziyetin pozlamayı bırakarak ortadan kaldırıldığı ve kalıcı hasar olmadığı bilinmektedir.
Buharlar, cilt teması ve açık alevlere maruz kalmamak için özen gösterilmelidir.
Metoksipropilamin düşük bir buhar basıncına sahip olduğundan, normal veya sıradan koşullar altında teneffüs edilmesi bir problem teşkil etmemelidir. Bununla birlikte, yüksek yoğunluklu buhar konsantrasyonlarına tekrar tekrar maruz kalınması, gözün korneasında bir filmden solunum rahatsızlığına ve / veya bulanık görülebilmesine neden olabilir. Her iki durum da maruz kalmanın kesilmesi ile ortadan kalkar ve kalıcı yaralanma olmadığı bilinmektedir. Buharlar, deri teması ve açık ateşe maruz kalmaktan kaçınmak için özen gösterilmelidir.

 

METOKSİ PROPİL AMİNİN TAŞIMA VE SAKLAMASI;
Yapı malzemesi olarak karbon çeliği kullanan tanınmış bir koda göre inşa edilen depolama tankları genellikle tatminkardır.
Bununla birlikte, karbon çeliğindeki uzun süreli depolama, ürünün renginin artmasına neden olabilir. Renklerin korunması gereken yerlerde paslanmaz çelik veya alüminyum kullanılmalıdır.
Bakır, çinko, kurşun veya bu malzemelerin herhangi birini içeren alaşımlar, amin tarafından saldırıya uğradığından kullanılmamalıdır. Buna ek olarak, kompleks tuzlar ürünün renk değişikliğine neden olur.

 

Methoxypropilamin is a clear, colorless liquid with an ammoniacal odor. It undergoes reactions typical of primary amines and is completely soluble in water and common organic solvents.

TOXICITY AND SAFETY OF METHOXYPROPYLAMINE;
Methoxypropylamine, which can cause eye burns, skin irritation and allergic skin reactions, should be considered dangerous.
Oral LD50 (rats) for methoxypropylamine is 0.69 g / kg and, for this reason, is classified as moderately toxic if ingested.
Skin irritation on undiluted product is indicated by skin LD50 (> 3.0 g / kg, rabbits) and has a slight degree of toxicity compared to skin.
Since methoxypropylamine has a low vapor pressure, it can be inhaled under normal or ordinary conditions. Repeated exposure of the vapor at high concentrations,
however, may cause respiratory irritation and / or blurred vision. In both cases, it is known that the exposure is removed from the exposure leaving the exposure
and there is no permanent damage. Care should be taken to avoid exposure to vapors, skin contact, and open flames. Since methoxypropylamine has a low vapor pressure,
inhalation under normal or ordinary conditions should not present a problem. Repeated exposure to high concentrations of vapor concentrations, however, may result in
respiratory distress and / or blurred vision from a film in the eyes of the eye. Either way, it is known that the exposure is lifted by discontinuing the exposure and
there is no permanent injury. Care should be taken to avoid exposure to vapors, skin contact, and open flames.

TRANSPORTATION AND STORAGE OF METHOXYPROPYLAMINE;
Storage tanks built according to a recognized code that uses carbon steel as building material are generally satisfactory.
However, prolonged storage in the carbon steel may cause the product to increase in color. Stainless steel or aluminum should be used where the colors need to be
protected.
Copper, zinc, lead, or alloys containing any of these materials should not be used as they are attacked by the amine. In addition, complex salts cause color change
of the product.


Amine soaps prepared from methoxypropylamine and fatty acids are useful for making dispersions and emulsions of
certain synthetic and natural resins and waxes which are useful in floor finishes, textile finishes, water-based paints and in
similar areas of application.


Metoksipropilamin ve yağ asitlerinden hazırlanan amin sabunları,
yer kaplamalarında, tekstil kaplamalarında, su bazlı boyalarda ve boyalarda kullanılan bazı sentetik ve doğal reçineler ve vakslar
benzer uygulama alanları.
Metoksipropilamin suya duyarsız mumların hazırlanmasında faydalıdır. Su ile buharlaşır ve
çözünmeyen balmumu filmi. Ayrıca seyreltik çözeltilerdeki metoksipropilaminin sakıncalı bir kokusu yoktur. Malzeme vardır
bu tür uygulamalarda morfolin ile karşılaştırılmıştır ve aslında bazılarında morfolinin yerine kullanılabilir.
örnekleri. Metoksipropilamin ayrıca insektisit emülsiyonlarında, boya çözücülerinde, tekstil yardımcılarında ve
genel olarak, ılımlı uçuculuğun hafif bazlarının istendiği uygulamalar. Boya üretiminde kullanılır.
polibütadien bazlı izosiyanatları ve poliamid reçinelerinin imalatında değişiklik yapabilir. Alüminyum ve
seyreltik metoksipropilamin çözeltileri ile alüminyum alaşımlı yüzeylerin çeşitli yapışkanların yapışmasını arttırdığı bildirilmektedir.
daha sonra uygulanabilecek kaplamalar.


Metoksipropilamin düşük bir buhar basıncına sahip olduğundan, olağan veya sıradan koşullar altında soluma,
sorun. Bununla birlikte, yüksek konsantrasyonda buharlara tekrar tekrar maruz kalmak solunum yollarında tahrişe ve / veya puslu görmeye neden olabilir.
gözün korneası üzerinde bir film. Her iki durum da maruziyetin kesilmesiyle ortadan kalkar ve artık bir yaralanma bilinmemektedir.
Buharları solumak, cilde temas etmek ve açık aleve maruz kalmaktan kaçınmak için gereken özen gösterilmelidir. Buharların veya
buğu yayanlar iyi havalandırılmalı ve kapalı alanlardaki dökülmeler derhal temizlenmelidir.
Bu ürünün toksisitesi ve güvenli kullanımı hakkında ek bilgi için, Malzeme Güvenliği Veri Sayfasına (GüvenlikAvrupa'daki Veri Föyü).


Geleneksel bir tank için iyi bir gaz örtme sistemi iki regülatör gerektirir - biri tanka giden gaz üzerinde ve diğerinde havalandırma deliğinde
atmosfere. Metoksipropilaminin yanıcı doğası nedeniyle, bir alev tutucunun olması tavsiye edilir.
herhangi bir havalandırma tahliyesine monte edilir. Giriş regülatörü yaklaşık iki veya üç ons basınç ayarlanmalıdır.
çıkış regülatörü yaklaşık dört veya beş ons için ayarlanmalıdır ve kesinlikle tankınkinden daha fazla basınç olmamalıdır.
tasarlamıştır. Giriş ve çıkış regülatörleri, depoya maksimum giriş ve çıkış sağlamak için çok dikkatli bir şekilde boyutlandırılmalıdır;
aksi takdirde, tank yapısı patlayabilir veya çökebilir. Havalandırma valflerinde, sonuçta ortaya çıkan katı amin karbonatların birikip birikmediğini
inceleyin depolama tankından çıkan atmosferik karbon dioksit ve amin dumanının reaksiyonundan.

 

Transfer hatları için karbon çeliği kabul edilebilir. Her kullanımdan sonra üflenmeli veya boşaltılmalıdır. Aksi takdirde, ürün
satırlarda bırakıldığında renk değiştirir. Transfer hatları kaynak veya flanşlarla birleştirilmelidir. Vidalı bağlantılar arızaya maruz kalır
çünkü amin konvansiyonel boru katkı maddelerine sızacaktır. Tatmin edici conta malzemeleri Garlock 7021, ABD Kauçuk 899,
John Crane 333 ve Johns-Manville 70 veya eşdeğeri. Esnek bağlantılar için kauçuğa paslanmaz çelik hortum tercih edilir, çünkü
kauçuk amin servisinde nihayetinde bozulur.


Metoksipropilamin, amonyak benzeri bir kokuya sahip sıvı formda berrak renksiz bir kimyasaldır. Suda tamamen karışabilir ve
ortak organik çözücüler. Metoksipropilamin, sentetik yapmak için kullanılan amin sabunlarının imalatında kullanılır.
doğal reçineler ve mum dispersiyonları ve emülsiyonları. Bu ürünler su bazlı boyalarda, yer ve kumaş yüzeylerinde kullanılır.
Metoksipropilamin ayrıca bir korozyon inhibitörü olarak uygulama bulur. Suya duyarlı olmayan mumlar hazırlamak için kullanılır,
çünkü su varlığında uçuculuk gösterir ve çözünmeyen bir balmumu filminin arkasından ayrılır. Ara madde olarak da kullanılır
su ve zemin mumlarını işlemek için kullanılan kimyasallar için. Metoksipropilamin, akrilonitril polimerleri ile reaksiyona
girerek polielektrolitler üretir, suda çözünen ve bu nedenle flokülasyon ajanları olarak uygulamalar bulurlar. Bu çoklu uygulamalar
ve olumlu reaksiyon metoksipropilaminin özellikleri, küresel metoksipropilamin pazarının çalışmasını önemli bir okuma haline getirir.


Metoksipropilamin tek başına veya hidrazin gibi bir oksijen korozyon inhibitörü ile kombinasyon halinde kullanılabilir.
Kullanımda, buhar yoğuşma sisteminde 0,1 ila 1000 mg / l ve tercihen 1 ila 100 mg / l konsantrasyonları muhafaza edilmelidir.
Hidrazin veya başka bir oksijen korozyon inhibitörü ile birlikte kullanıldığında, bileşimler aktif olarak içermelidir
yaklaşık% 1 ila yaklaşık% 99 metoksipropilamin ve yaklaşık% 0.1 ila yaklaşık% 50, tercihen yaklaşık% 1 ila yaklaşık% 15 oksijen
Bu buluşun bileşimleri, geleneksel sıvı besleme ile muamele edilen buhar kondensat sistemine beslenebilir.
kazan besleme suyuna veya doğrudan buhar besleme hatlarına beslenebilir veya verilebilir.

Aşağıdaki örnekler, metoksipropilaminin tek başına ve hidrazin ile kombinasyon halinde bir buhar kondensatı olarak kullanımını gösterecektir.
bu buluşun öğretilerine göre korozyon inhibitörü.


METOKSİPROPİLAMİN ZEHİRLİLİĞİ VE GÜVENLİĞİ;
Göz yanıklarına, cilt tahrişine ve alerjik cilt reaksiyonlarına neden olabilecek metoksipropilamin tehlikeli olarak düşünülmelidir.
Metoksipropilamin için oral LD50 (sıçanlar) 0.69 g / kg'dır ve bu nedenle yutulduğu takdirde orta derecede toksik olarak sınıflandırılır.
Seyreltilmemiş üründe cilt tahrişi cilt LD50 (> 3.0 g / kg, tavşan) ile gösterilir ve cilde kıyasla hafif bir toksisite derecesine sahiptir.
Metoksipropilamin düşük bir buhar basıncına sahip olduğundan, normal veya normal koşullar altında solunabilir. Buharın yüksek konsantrasyonlarda
tekrar tekrar maruz kalması, ancak solunum yollarında tahrişe ve / veya bulanık görmeye neden olabilir. Her iki durumda da, pozlamanın, pozlamayı
bırakarak pozlamadan çıkarıldığı bilinmektedir ve kalıcı bir hasar yok. Buharlara, cilde temas etmesine ve açık alevlere maruz kalmamasına dikkat edilmelidir.
Metoksipropilamin düşük bir buhar basıncına sahip olduğundan, normal veya normal şartlar altında solunması sorun yaratmamalıdır. Bununla birlikte,
yüksek konsantrasyonlarda buhar konsantrasyonlarına tekrar tekrar maruz kalmak, solunum sıkıntısı ve / veya gözün gözündeki bir filmden bulanık görme.
Her iki durumda da, maruziyetin kesilmesi ile maruziyetin arttığı ve kalıcı bir yaralanma yoktur. Buharlara, cilde temas etmesine ve açık alevlere maruz
kalmamasına dikkat edilmelidir.

 

 

 

 

 

 

 

 

 

 

Ataman Kimya A.Ş. © 2015 Tüm Hakları Saklıdır.