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Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7

Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7

    • Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7
    • Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7
    • Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7
    • Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7
  • Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7

    Product Details:

    Place of Origin: CHINA
    Brand Name: JTL
    Certification: ISO9001
    Model Number: Bisphenol A

    Payment & Shipping Terms:

    Minimum Order Quantity: Negotiation
    Price: Negotiation
    Packaging Details: Drum
    Supply Ability: 1000 tons / month
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    Detailed Product Description
    Classification: Chemical Auxiliary Agent Molecular Formula: C15H16O2
    Purity: 99% CAS NO: 80-05-7
    Type: Organic Intermediates Appearance: White Powder
    Other Names: 2,2-Bis-4-hydroxyphenylpropane / BPA Application: Synthetic Resin And Plastics
    High Light:

    para tert butylphenol

    ,

    synthetic origin

    Bisphenol A With CAS 80-05-7 Organic Intermediate Antioxidant Poly Carbon Grade

     

    Basic Spec

    English name: Bisphenol A

    English alias: 4,4'-(propane-2,2-diyl)diphenol;p,p'-isopropylidenebisphenol;BPA;4,4'-(1-Methylethylidene)bisphenol;2,2-( 4,4'-Dihydroxydiphenyl)propane; 2,2-Bis(4-hydroxyphenyl)propane; 4,4'-Bisphenol A; 4,4'-Isopropylidenediphenol; 2,2-Di(4-phenylol)propane;

    CAS No .:80-05-7

    EINECS No.: 201-245-8

    Molecular Formula: C15H16O2

    Molecular Weight: 228.29

     

    Chemical Structure

     

    Poly Carbon Grade Organic Intermediate Antioxidant Bisphenol A With CAS 80-05-7

     

    Physical Specification

    Appearance and shape: white to light brown flakes or powder

    density: 1.195

    Melting point: 152-158 ° C

    Boiling point: 220 ° C (4 mmHg)

    Flash point: 227 ° C

    Storage conditions: cold

    storage color: Crystallizes as prisms from dil acetic acid and as needles From water
    White flakes
    Crystals or flakes
    White to cream

    Safety Instruction

     

    Customs code: 2907230001

    WGK Germany: 2

    Hazard class code: R37; R41; R43; R62

    Safety instructions: S26-S36/37/39-S45-S46-S39-S36/37

    RTECS number: SL6300000

    Dangerous goods mark: Xn

     

    Application Of Organic Intermediate 2-tert-Butyl-4-methylphenol

    • Used in the manufacture of epoxy resin, polycarbonate, polyphenol oxygen, etc.
      Bisphenol A is a widely used industrial compound in the world,
    • Also mainly used for producing various polymer materials such as polycarbonate, epoxy resin, polysulfone resin, polyphenylene ether resin, and unsaturated polyester resin.
    • Can also be used to produce plasticizers, flame retardants, antioxidants, heat stabilizers, rubber antioxidants, pesticides, coatings and other fine chemical products.
    • In the manufacturing process of plastic products, the addition of bisphenol A can make it colorless, transparent, durable, light and outstanding impact resistance, especially to prevent acidic vegetables and fruits from eroding metal containers from the inside, so it is widely used in cans. Packaging of food and beverages, bottles, water bottles, sealants for dental fillings, ophthalmic lenses, and hundreds of other daily necessities.

    Production method of Organic Intermediate 2-tert-Butyl-4-methylphenol

     

    It is obtained by condensation of phenol and acetone in an acidic medium. When sulfuric acid is used as a catalyst, the acid concentration is 72.5-76.3%, and the reaction temperature is about 40 °C. The reaction is carried out in a stirred tank, which can be produced by a batch process or a continuous production unit. The product is neutralized and separated to obtain crude bisphenol A, which is purified by xylene-water extraction to obtain a finished product. The sulfuric acid method requires less equipment and simple process, but the product quality is poor, the raw material consumption is high, and the “three wastes” are more, which is only suitable for small and medium batch production. In order to obtain a good quality polymer grade bisphenol A, a commonly used industrial process is a method using hydrogen chloride gas as a catalyst. The acetone is mixed with phenol, and the reaction is carried out under normal pressure using dry hydrogen chloride as a catalyst. The reaction is carried out at 50-60 ° C for 8-9 h, and the gas phase hydrogen chloride concentration is maintained at 96% or more. In addition to the formation of bisphenol A, the reaction also produces some isomers, trihydroxy or monohydroxy by-products. These small amounts of impurities do not affect the use in the manufacture of epoxy resins. However, when used in the manufacture of polycarbonate, it must be refined. The Hooke process is a process of distillation and extraction crystallization under pressure to refine bisphenol A, which reduces the cost of the product. Raw material consumption quota: phenol 940kg/t, acetone 320kg/t, sulfuric acid (98%) 500kg/t. Hydrogen chloride method Phenol and acetone are reacted in the presence of hydrogen chloride to obtain bisphenol A. The law is widely used in countries such as the United States and Japan. A typical process is the Hooker method. Excess phenol and acetone (more than 8 ratio)
    1) The reactor is charged with a circulating material saturated with hydrochloric acid, and the reaction is stirred at 50 to 60 ° C for 8 to 9 hours under normal pressure. The reaction product is then sent to a hydrogen chloride desorption column, which is stripped from the overhead to a hydrogen chloride recovery system, and the hydrogen chloride is separated and recycled to the reactor. The organic phase contains mainly phenol and can be recycled back to the hydrogen chloride desorption column. The acid-removed reaction mixture is discharged from a hydrogen chloride desorption column into a phenol recovery column, and the excess phenol is separated from the top of the column, and the reactor is recycled. The crude product of the column is sent to the isomer separation column, and the ortho and para isomers are separated under vacuum and recycled to the reactor. The kettle liquid was introduced into a bisphenol A rectification column, and the tar-like substance was separated by distillation under vacuum. The bisphenol A distilled from the top of the column is purified by solvent toluene extraction and recrystallization, and the mother liquor is separated and crystallized to recover the solvent by distillation.

     

     

    Packing & Storage

     
    25kg/bag the inner packing is PE plastics bag,the outside wrapping is composite kraft paper bag

     

    Contact Information

     

    Tel 0086 134 35409275
    Fax 0086 757 84888673
    Mobile 0086 13670617610
    E-mail frank@jasontechcn.com
    Skype frank_shuai
    WhatsApp/Viber +86-13435409275

     

     

    FAQ

    1. Are you a factory or tarding company?

     

    Our company concentrates on on the production, sales and service for plastic and coating additives, fine chemicals and intermediates.

     

    2. Where dose your company locate?

     

    We locate in Heze, Shandong province of China, also have sales rep. in Foshan

     

    3. Can you provide samples for quality checking before placing an order?

     

    Samples are avaliable upon request, but the shipping cost should be paid by customer.

     

    4. How to get the price list?

     

    Please inqire us by alibaba/email.

     

    5. What's your payment term?

     

    TT/Payoneer/Paypal/West Union

     

    Payment Terms

    100% TT Before Shipment

     

     

    Contact Details
    JASON TECHNOLOGIES LTD

    Contact Person: Mr. Frank

    Tel: 86-134-35409275

    Send your inquiry directly to us (0 / 3000)

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