Showing posts with label Acrylonitrile-Styrene. Show all posts
Showing posts with label Acrylonitrile-Styrene. Show all posts

Wednesday, January 5, 2011

SAN-GF Glass fiber 20~30%

Molding Properties
   ·    Drying temperature                                 : 85°C
   ·    Drying time                                             : 2~4hr
   ·    Injection forming cylinder temperature     : 200~260°C
   ·    Injection molding tool temperature           : 50~80°C
   ·    Injection molding pressure                       : 1050~2810kgf/cm­­2
   ·    Compression molding temperature           : —
   ·    Compression molding pressure                : —
   ·    Molding shrinkage rate                            : 0.1~0.2%
   ·    Specific gravity                                        : 1.20~1.46density
JIS            : K6911,K7122
A.S.T.M   : D792


Mechanical Characteristics
   ·    Tensile strength                 : 600~1410kgf/cm2
      JIS : K6911,K7113
      A.S.T.M   : D638
   ·    Tensile elongation             : 1.1~3.8%
   ·    Compressive strength           : 1550kgf/cm2
      JIS : K7208
   ·    Flexure strength                : 1550~1830kgf/cm2
      JIS : K7203
   ·    Izot impact strength           : —
      JIS : K7110,K7111
   ·    Rockwell hardness            : M100 • E60
      JIS            : K7202
      A.S.T.M   : D785


Thermal Characteristic
   ·    Heat resistance temperature (continuous)     : 93~104°C
   ·    Deflection temperature under load
         a)  Bending stress18.6kgf/cm2                    : 88~110°C
         b)  Bending stress 4.6kgf/cm2                     : 101~115°C
       JIS            : K7206,K7207
       A.S.T.M   : D648




Acrylonitrile-Styrene
SAN General

SAN general

Molding Properties
   ·   Drying temperature                                   : 85°C
   ·   Drying time                                               : 2~4hr
   ·   Injection forming cylinder temperature       : 200~260°C
   ·   Injection molding tool temperature             : 50~80°C
   ·   Injection molding pressure                         : 710~2320kgf/cm­­2
   ·   Compression molding temperature             : 150~200°C
   ·   Compression molding pressure                   : 70.3~703kgf/cm2
   ·   Molding shrinkage rate                               : 0.2~0.7%
   ·   Specific gravity                                          : 1.07~1.10density
     JIS            : K6911,K7122
     A.S.T.M   : D792


Mechanical Characteristics
   ·   Tensile strength                           : 600~840kgf/cm2
     JIS : K6911,K7113
     A.S.T.M   : D638
   ·   Tensile elongation                       : 1.5~3.7%
   ·   Compressive strength                 : 984~1200kgf/cm2
     JIS : K7208
   ·   Flexure strength                          : 984~1340kgf/cm2
     JIS : K7203
   ·   Izot impact strength                    : —
     JIS : K7110,K7111
   ·   Rockwell hardness                     : M80~90
     JIS : K7202
     A.S.T.M   : D785


Thermal Characteristic
   ·   Heat resistance temperature (continuous)   : 60~96°C
   ·   Deflection temperature under load
       a) Bending stress18.6kgf/cm2                   : 88~104°C
       b) Bending stress 4.6kgf/cm2                    : —
     JIS            : K7206,K7207
     A.S.T.M   : D648




Acrylonitrile-Styrene
SAN-GF Glass fiber 20~30%

Acrylonitrile-Styrene


Also called vinyl cyanide and propene nitrile. A liquid of the composition CH2­:CHCN, boiling at 78°C, used in insecticides and for producing plastic and other chemicals. It is made by the addition of hydrocyanic acid to acetylene, by using propylene as the starter and reacting with ammonia, or from petroleum. Acrylonitrile fiber, originally developed in Germany as a textile staple fiber and as a monofilament for screens and weaving, and known as Redon, has good dimensional stability and high dielectric strength, and is resistant to water and to solvents. The polymerized acrylonitrile has a molecular structure that can be oriented by drawing to give fibers of high strength. Orlon, of Du Pont, is a polymerized acrylonitrile fiber. It is nearly as strong as nylon, and has a softer feel. It can be crimped to facilitate spinning with wool. It is used for clothing textiles and for filter fabrics. Dynel, of Union carbide Corp., is an acrylonitrile-vinyl chloride copolymer staple fiber. It produces textiles with a warmth and feel like those of wool. It has good strength, is resilient, dyes easily, and is moth proof. Verel, of the Eastman Chemical Products, Inc., is a similar acrylic fiber produced from acrylonitrile and vinylidene chloride, and Creslan, of the American Cyanamid Co., called Exlan in Japan, is an acrylic fiber. Acrilan,  of  the Chemstrand Corp., is a similar textile fiber, and is an acrylonitrile-vinyl acetate copolymer. Bakelite C-11 is an acrylonitrile-styrene copolymer for injection molding and extruding that produced rigid thermoplastic parts of higher tensile strength than those of the methacrylates, and has good dimensional stability and scratch resistance. Saran F-120, of the Dow Chemical Co., is a similar material.


Zefran, of the Dow Chemical Co., is an acrylonitrile polymerized with vinyl pyrrolidone or other dye-receptive monomer. The fiber has a molecular structure called a nitrile alloy, with a continuous polyacrylonitrile backbone with close-packed hydrophilic groups which hold the dye molecules. It resists heat to 490°F (254°C). Fostacryl, of the Foster Grant Co., Inc., is a crystal-clear styrene-acrylonitrile copolymer used for molding such articles as dinnerware and food containers. Acrylonitrile-styrene copolymers are also combine with alkyl-substituted phenolic resins to produce hard, glossy, flexible coatings. Itaconic acid,  or methylene succinic acid, CH2:CCH(COOH)2, is also polymerized with acrylonitrile to produce fibers. When this acid is polymerized with styrene it produces transparent plastics of good optical properties. For jet aircraft tires an extremely wear-resistant rubber is made of acrylonitrile-butadiene with an organometalic catalyst that has alternating groups in the copolymer.


Acrylonitrile reacts with cellulose to form a wide range of resins from soluble eithers useful for textile finishes to tough, resistant materials useful for fibers. It can be reacted directly with cotton to improve the fiber. Krilium, of the Monsanto Co., and Agrilon, of the Borden Chemical Co., are sodium salts of acrylonitrile used as soil conditioners. They are more efficient than peat moss.


Applications:
        ·         Juicer covers
        ·         Electric fans
        ·         Battery cases
        ·         Musical instruments
        ·         Other transparent components





SAN general
SAN-GF Glass fiber 20~30%