NP-9, Nonylphenol ethoxylated, โนนิลฟีนอลอีทอกซิเลต

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นำเข้าและจำหน่าย NP-9, Nonylphenol ethoxylated, โนนิลฟีนอลอีทอกซิเลต สอบถามข้อมูลเพิ่มเติมได้ที่ ฝ่ายขาย  บริษัท ไทยโพลีเคมิคอล จำกัด โทรศัพท์ 034854888, 034496284 มือถือ 0824504888, 0800160016 โทรสาร 034854899, 034496285 

NP-9, Nonylphenol ethoxylated, โนนิลฟีนอลอีทอกซิเลต, โนนิลฟีนอลอีทอกซิเลท

Tergitol NP-9, Nonylphenol Ethoxylate (NPE), Nonoxynol, เป็นสารลดแรงตึงผิว ประเภทไม่มีขั้ว (Nonionic surfactant) สามารถล้างออกได้ง่าย

มักใช้ในงานผลิตสินค้าประเภทสารทำความสะอาด งานผลิตกระดาษและเส้นใย

สีและสารเคลือบผิว และ Metalworking fluids

Nonylphenol

is a family of closely related organic compounds, a subset of the alkylphenols.

This collection of compounds is a precursor to commercially important

detergents. Nonylphenol features both polar and hydrophobic subunits, the

phenol and the hydrocarbon tail.

Production and basic properties

The

material known collectively as nonylphenol is produced by acid-catalyzed alkylation

of phenol with a mixture of nonenes. Millions of kilograms are produced

annually. The nonyl group, which is highly branched, attaches to the phenol

ring via the 4- and, to lesser extent, the 2-positions. This mixture of isomers

is usually available as a pale yellow liquid, although the pure compounds are

colorless. The organic compound 1-nonyl-4-phenol is not normally a component of

what is marketed as nonylphenol. The nonylphenols are poorly soluble in water

but soluble in alcohol. In the environment, nonylphenols arise from the

degradation of the nonaphenol ethoxylates, which are detergents.

Natural occurrences

Nonylphenol

has been found to be a component of the slime produced by the velvet worm as a

defence mechanism.

Applications

Alkylphenols

are subjected to ethoxylation to give alkylphenol ethoxylates (APEs), which are

widely used as industrial surfactants. They are used in applications as

disparate as the processing of wool and metals, as emulsifiers for emulsion

polymerization, as laboratory detergents, and as pesticides. APEs are a

component of some household detergents outside of Europe. In Europe, due to

environmental concerns, they have been replaced by more expensive alcohol

ethoxylates, which are less problematic environmentally. Nonoxynol-9, one of

the APEs, is used as a surfactant in cleaning and cosmetic products, and as a

spermicide in contraceptives. Nonylphenol (NP) and Nonylphenol Ethoxylates

(NPE) are the most widely used members of the larger alkylphenol and

alkylphenol ethoxylate family of non-ionic surfactants. They are produced in

large volumes, with uses that lead to widespread release to the aquatic

environment. NP is persistent in the aquatic environment, moderately

bioaccumulative, and extremely toxic to aquatic organisms. NP's main use is in

the manufacture of NPEs. NPEs are used in a wide variety of industrial

applications and consumer products. NPEs, though less toxic than NP, are also

highly toxic to aquatic organisms, and in the environment degrade to more

environmentally persistent NP. NP has also been detected in human breast milk,

blood, and urine and is associated with reproductive and developmental effects

in fish. NPEs were once commonly used in household laundry detergents. EPA and

the detergent manufacturers have cooperated to eliminate this use. However,

NPEs are still widely used in large quantities in industrial laundry detergents

and have some additional uses that lead to releases to water

Chemical Description

NP

is a clear to pale yellow viscous liquid at room temperature with moderate

water solubility and moderate vapor pressure. NPEs are clear to light orange

oily liquids or waxy solids, and are considered to be chemically stable and

unreactive. NPEs are manufactured by reacting NP with ethylene oxide (EO) under

basic conditions. The degree of ethoxylation depends on the molar ratio of NP

to EO. NPEs are hydrophilic ("water-attracting") at one end of the

molecule and hydrophobic ("water-avoiding") at the opposite end. The

hydrophilic "head" attracts water and the hydrophobic

"tail" attracts poorly soluble substances, such as oils and greases

(#EPA, NP and NPE Action Plan).

Uses

Nonylphenol

ethoxylates (NPEs) are surfactants that have been in commerce for over 50

years. Products containing NPEs are used in many sectors, including textile

processing, pulp and paper processing, paints, resins and protective coatings,

oil and gas recovery, steel manufacturing, pest control products and power

generation. A variety of cleaning products, degreasers and detergents are also

available for institutional and domestic use. These products have numerous

applications, including controlling deposits on machinery, cleaning equipment,

and scouring fibres; as wetting and de-wetting agents; in dyeing and machine

felt cleaning and conditioning; and in product finishing. NPEs have also been

used in a wide range of consumer products, including cosmetics, cleaners, and

paints. The primary use of NP is as an intermediate in the manufacture of NPEs.

NP may also be reacted to form tris(4-nonyl-phenyl) phosphite (TNPP), an

antioxidant used to protect polymers such as rubber, vinyl, polyolefins, and

polystyrenics. TNPP is also used as a stabilizer in plastic food packaging.

Although it does contain residual NP, TNPP has been approved for this use by

the Food and Drug Administration (FDA). FDA also lists NP as an indirect food

contact substance. Barium and calcium salts of NP are used as heat stabilizers

for polyvinyl chloride (PVC). NP is also used as a catalytic diluent in epoxy

resins (#EPA, NP and NPE Action Plan).

Routes of Exposure and Metabolism

Nonylphenol

ethoxylates can enter the body by inhalation of air containing nonylphenol

ethoxylates, ingestion of contaminated food or water, or by dermal contact with

nonylphenol ethoxylates or products containing nonylphenol ethoxylates (#SEPA).

When animals ingest NP, the absorption of nonylphenol from the gastrointestinal

tract is initially rapid, and probably extensive. The major metabolic pathways

are likely to involve glucuronide and sulphate conjugation. Nonylphenol is

distributed widely throughout the body, with the highest concentration in fat.

Available data on bioaccumulation potential from both animal and human studies

are inconsistent and do not allow for conclusions on the bioaccumulation

potential of NP. The major routes of excretion of NP are via the feces and

urine (#WHO). In the environment, the long-chain NPEs biodegrade relatively

quickly to short-chain NPEs and NP, which are much more resistant to further

degradation. When in water, NPEs can also undergo photo-induced degradation. In

the atmosphere, NP will be degraded rapidly by hydroxyl radicals and is not

expected to be persistent in air.

POE nonyl Phenyl Ether; Ethoxylated nonylphenol;  Polyoxyethylene Nonylphenyl Ether; nonylphenyl polyethyleneglycol ether,

nonionic; macrogol nonylphenyl ether; Polyethylene Mono(nonylphenyl)ether

Glycols;  Nonionic surfactants are

surface active agents which do not dissociate into ions in aqueous solutions,

unlike anionic surfactants which have a negative charge and cationic

surfactants which have a positive charge in aqueous solution. Nonionic

surfactants are more widely used as detergents than ionic surfactants because

anionic surfactants are insoluble in many hard water and cationic surfactants

are considered to be poor cleaners. In addition to detergency, nonionic

surfactants show excellent solvency, low foam properties and chemical

stability. It is thought that nonionic surfactants are mild on the skin even at

high loadings and long-term exposure. The hydrophilic group of nonionic

surfactants is a polymerized alkene oxide (water soluble polyether with 10 to

100 units length typically). They are prepared by polymerization of ethylene

oxide, propylene oxide, and butylene oxide in the same molecule. Depending on

the ratio and order of oxide addition, together with the number of carbon atoms

which vary the chemical and physical properties, nonionic surfactant is used as

a wetting agent, a detergent, or an emulsifier.

HLB (Hydrophilic-Lipophilic Balance) values for proper applications.

<10 : Lipid soluble (or water-insoluble)

>10 : Water Soluble

4-8 : Antifoaming

7-11 : Water-in-oil emulsion

12-16 : Oil-in-water emulsion

11-14 : Good Wetting

12-15 : Good detergency

16-20 : Stabilizing

Nonionic

surfactants include alcohol ethoxylates, alkylphenol ethoxylates, phenol

ethoxylates, amide ethoxylates, glyceride ethoxylates (soya bean oil and caster

oil ethoxylates), fatty acid ethoxylates, and fatty amine ethoxylates. Another

commercially significant nonionic surfactants are the alkyl glycosides in which

the hydrophilic groups are sugars (polysaccharides).  Alcohol ethoxylates, clear to yellowish

liquid to waxy solids depending on alkyl chain length and the number of ethoxy

groups, are non ionic surfactants which contain both hydrophobic tail portion

(alcohol part) and hydrophilic polar head groups (ethoxy chain part), and are

thus tend to dissolve in both aqueous and oil phase and to reduce the surface

tension of liquids. Ethylene oxide (also called epoxyethane and oxirane) is the

simplest cyclic ether or epoxide, with the formula C2H4O; reactive material

which is added to the base of alcohols (or amines) to form ethoxylated

surfactants. The Hydrophilic-Lipophilic Balance (HLB) of EO surfactant is

related to the hydrophilic portion of the molecule. More hydrophilic groups

enable more solubility in water as more hydrogen bondings exist. They are

non-ionic in solution which has no electrical charge, which means well-work in

hard water at low temperatures as well as stability in acid and alkali solution

and compatibility with other surfactants. Generally, surfactant's name are

formed by adding the mole number of ethylene oxide. There is a wide HLB range

depend their molar ratios between nonylphenol and E.O. The common mole ratio

forms for detergency are NPE 9 - 12, where the number indicates ethoxylate

chain length. The lower number mole ratio products are used as wetting agent

whereas the higher moles ratio products are emulsifiers and solubilizer.

Nonylphenol ethoxylates features excelent emulsifying and high detergency

properties.
  End applications include;  Detergents and Industrial

Cleaners, Dispersants, Stabilizers, Sanitizers, Defoaming Agents. Agrochemical

Emulsifiers, Metal Working, Textile Processing, Paper De-inking, Drilling

Products Intermediate Anionic Surfactants Synthesis, Dust Control, Adhesive,

Plastic Industry, Lube Oil, Cosmetic and Pharmaceuticals.

Nonylphenol

ethoxylates (NPEs) are a group of related chemicals. Under normal conditions,

NPEs are oily liquids or waxy solids, varying from being colourless to having a

light orange colour. NPEs are chemically stable and unreactive. The degree to

which they are soluble in water varies, but most are readily soluble in organic

(carbon-containing) solvents. NPEs are used mainly as cleaning agents and

detergents, in a variety of situations. Because of the various useful

properties of different types of NPEs, they are also added to plastics and

rubbers, pesticides, pharmaceuticals, cosmetics, paints and coatings,

agro-chemicals and chemicals used in paper making. Releases of NPEs may occur

during their manufacture and during the many uses and disposal of products to

which they are added. There are not thought to be any natural sources of NPEs

to the environment.

 

สอบถามข้อมูลเพิ่มเติมได้ที่ ฝ่ายขาย

Thai Poly Chemicals Co., Ltd.

บริษัท ไทยโพลีเคมิคอล จำกัด

ที่อยู่36/5 ม.9  แขวง/ตำบลนาดี  เขต/อำเภอเมืองสมุทรสาคร  จังหวัดสมุทรสาคร รหัสไปรษณีย์74000

Tel.: 034854888, 034496284

Fax.: 034854899, 034496285

Mobile: 0824504888, 0800160016

Website : www.thaipolychemicals.com

Email1 : thaipolychemicals@hotmail.com

Email2 : info@thaipolychemicals.com



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