FLAME RETARDING THERMOPLASTIC ALLOY AND ITS PREPARATION METHOD

Abstract
The present invention discloses a thermoplastic flame-retardant alloy and a method for preparing it, composed of the following components by the shares and weights as below: 5-94 shares of ABS resin, 3-94 shares of polyester or co-polyester or the mixture of both, 1-50 shares of brominated flame retardant, 1-10 shares of synergistic flame-retardant, 0.001-30 shares of chlorinated polyethylene (CPE), 0.001-2 shares of anti-dripping agent and 0.1-6 shares of processing aid. Comparing with the ABS flame retardant presenting the prior art, the thermoplastic flame-retardant alloy features better glossness, scratch resistance, stronger ultraviolet radiation resistance and better mechanical property, thus making up for the disadvantage that the flame-retardant ABS is prone to become yellow on some occasions with high weatherability requirements. Furthermore, the preparation method of the thermoplastic flame-retardant alloy for the present invention is successive, stable and feasible.
Description
BACKGROUND OF THE INVENTION

1. Technical Field


The present invention relates to a flame-retardant ABS resin technique, and more especially, to a thermoplastic flame-retardant alloy and a method for preparing it.


2. Description of Related Art


Flame-retardant ABS resin is widely applied in the shells of the household audio-visual equipment and the office electronic equipment, and other fields such as white household appliances and power changeover devices due to its good mechanical property, processing property and post-processing property, low molding shrinkage and superior size stability. A common flame-retardant ABS formula contains ABS resin, brominated flame retardant, stibium oxide or salt, anti-dripping agent, lubricant and other necessary processing aids in order to make the product with a balance of rigidity, toughness, fluidity and flame resistance. However, the double bond in the rubber of the ABS resin and the nitrile group of the acrylonitrile are easy to cause ring reaction under the ultraviolet, which leads to yellowing of the material, thus having limits on some weather-resistant occasion or the using of outdoor part because of the bad weatherability. Besides, the glossness and the surface hardness are worse than PC/ABS or PC. Therefore, the appearance effect and scratch resistance are inferior to the abovementioned two materials.


In order to improve the ultraviolet resistance and the impact resistance of the ABS resin, Monsanto Inc., an American company, once prepared the mix alloy (U.S. Pat. No.5,162,416) regarding SMA as the compatibilizer and the sodium stearate as the nucleating agent. The U.S. Pat. No 5,082,897 also discloses that ABS, PC, PCTG binary/ternary alloy has a better mechanical property and weatherability than the three resins. Meanwhile, an obvious effect can be realized by applying PCTG on the surface of the ABS resin as the weatherability coating (E.P. Pat. No. 7,273,650 B2).


The study above aims at preparing the alloy by means of the ABS resin and the polyester/co-polyester without considering the requirements for application as the modified material such as processing property and physical property. In addition, the flame resistance of the material is firstly required in order to meet the safety requirements in appliances area. However, so far there is no disclosure about the flame-retardant ABS/polyester/co-polyester alloy.


According to our research, with the introduction of the PET or the co-polyester or the mixture of PET and the co-polyester in the flame-retardant ABS system (including ABS resin, flame retardant, synergistic flame-retardant, anti-dripping agent and other necessary processing aids), the pencil hardness of the part surface is heightened from the original 2B to HB, the glossness is up about 10%, the notched impact strength is increased by about 20%, and the bending and drawing strength are improved to a certain extent. After being exposed under the ultraviolet, the chromatic difference of the color plate prepared is about 30% lower than the plate without polyester/co-polyester after 100 hours, that is, the surface hardness, glossness, mechanical property and weatherability of the material are greatly improved.


BRIEF SUMMARY OF THE INVENTION

The present invention aims at overcoming the shortcomings of the existing flame-retardant ABS and providing a thermoplastic flame-retardant alloy featuring good glossness, surface hardness, weatherability and mechanical property.


Another purpose of the present invention is to provide a method for preparing the thermoplastic flame-retardant alloy featuring simple procedure, successive production, high efficiency and stable product quality.


To achieve the abovementioned purposes, the present invention adopts the following technique solution:


A thermoplastic flame-retardant alloy, composed of the following components by the shares and weights as below:


ABS resin, 5-94


Polyester or co-polyester or the mixture of both, 3-94


Brominated flame retardant, 1-50


Synergistic flame-retardant, 1-10


Chlorinated polyethylene (CPE), 0.001-30


Anti-dripping agent, 0.001-2


Processing aid, 0.1-6


Preferred shares shall be:


ABS resin, 90


Polyester or co-polyester or the mixture of both, 5-50


Brominated flame retardant, 2-30


Synergistic flame-retardant, 1-10


Chlorinated polyethylene (CPE), 1-15


Anti-dripping agent, 0.1-1


Processing aid, 0.1-0.4


In the abovementioned thermoplastic flame-retardant alloy, the ABS resin is composed of 5-80% weight of graft polybutadiene rubber and 95-20% weight of graft polystyrene-acrylonitrile copolymer. The ABS resin can be synthesized by means of emulsion graft or bulk polymerization, or by means of the direct mixing of the graft polybutadiene rubber and graft polystyrene-acrylonitrile copolymer.


In the abovementioned thermoplastic flame-retardant alloy, the polyester preferably adopts the polyethylene terephthalate (PET), and the co-polyester is preferably selected from the PCTG, PETG or PCTA.


The structural formula of the polyethylene terephthalate is as shown in (I):




embedded image


The structural formula (II) displays the structure of PCTG and PETG, wherein it is PCTG with the introduction of the cyclohexane-dimethylene-ethanol over 50%, and it is PETG, if less than 50%, it is PETG; wherein, m>1;


The structural formula of PCTA is as shown in (III):




embedded image


Wherein, m, n>1


In the abovementioned thermoplastic flame-retardant alloy, the brominated flame retardant is preferably selected from one of tetrabromobisphemol A (TBBPA), brominated epoxy (BEO), ribrom-triben-triazine (TBM) and brominated diphenylethane or the mixture of at least two of them.


In the abovementioned thermoplastic flame-retardant alloy, the synergistic flame-retardant preferably adopts diantimony trioxide.


In the abovementioned thermoplastic flame-retardant alloy, the anti-dripping agent is preferably selected from perfluoro-polyolefin or the perfluoro-polyolefin coated by the polystyrene-acrylonitrile.


In the abovementioned thermoplastic flame-retardant alloy, the processing aid is preferably selected from anti-ultraviolet & thermal oxidant or lubricant or their mixture. The anti-ultraviolet & thermal oxidant is preferably selected from one of hindered monophenol, alkylated hindered-polyphenol, phosphorous ester, amines, alkali metal or alkaline earth metal silicate and Hydroxybenzotriazole, or the mixture of at least two of them. The lubricant is preferably selected from one of the aliphatic amide, adipic acid or its salt, silicone oil, white mineral oil and poly-silicone, or the mixture of at least two of them.


The abovementioned preparation method of the present invention includes the procedure as follows: firstly premix the components in the high-speed mixer, add them to the twin-screw extruder, plasticize and mix them and then extrude them at the temperature of 150-250° C. so as to get the resultant flame-retardant alloy after cooling and granulation.


The favorable effects of the present invention are as follows: comparing with


ABS flame retardant in the prior art, the thermoplastic flame-retardant alloy features better glossness, scratch resistance, stronger ultraviolet radiation resistance and better mechanical property, thus making up for the disadvantage that the flame-retardant ABS is prone to become yellow on some occasions with high weatherability requirements. Furthermore, the preparation method of the thermoplastic flame-retardant alloy for the present invention is successive, stable and feasible.







DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1

Accurately weigh 100 kg of ABS resin, 40 kg of PET, 20 kg of tetrabromobisphemol A, 10 kg of CPE, 9 kg of diantimony trioxide powder, 1 kg of Pentaerythrite tetra [β-(3′,5′-di-tert-butyl-4′-hydroxyphenyl)-propionate] (anti-ultraviolet & thermal oxidant), 0.8 kg of ethylene bis-stearamide, 0.5 kg of anti-dripping agent perfluoro-polyethylene, and then fully mix them in the high-speed mixer and then get the resultant thermoplastic flame-retardant alloy of the present invention by means of one-step melt blending & extrusion in one-pot. The physical properties of the present invention prepared are as below (ISO standard): the IZOD notched impact strength is 25KJ/ m2, the bending strength is 66MPa, the glossness (at an incident angle of 60°) is 94.5 and the flame-retardant level (UL94) is 1.5mm V-0.


Embodiment 2

Accurately weigh 100 kg of ABS resin, 30 kg of PET, 15 KG of PETG, 15 kg of tetrabromobisphemol A, 15 kg of CPE, 5 kg of diantimony trioxide powder, 1 kg of Pentaerythrite tetra [β-(3′,5′-di-tert-butyl-4′-hydroxyphenyl)-propionate] (anti-ultraviolet & thermal oxidant), 0.3 kg of ethylene bis-stearamide, 0.8 kg perfluoro-polyethylene, and then fully mix them in the high-speed mixer and then get the resultant thermoplastic flame-retardant alloy of the present invention by means of one-step melt blending & extrusion in one-pot. The physical properties of the present invention prepared are as below (ISO standard): the IZOD notched impact strength is 28KJ/m2, the bending strength is 64 MPa, the glossnessgloss (at an incident angle of 60°) is 92 and the flame-retardant level (UL94) is 1.5mm-V-0.


Embodiment 3

Accurately weigh 100 kg of ABS resin, 25 kg of PETG, 25 kg of PCTG, 10 kg of tetrabromobisphemol A, 5Kg of brominated epoxy, 8 kg of CPE, 3 kg of diantimony trioxide powder, 0.5 kg of Pentaerythrite tetra [β-(3′,5′-di-tert-butyl-4′-hydroxyphenyl)-propionate] (anti-ultraviolet & thermal oxidant), 2 kg of ethylene bis-stearamide, 0.5 kg of perfluoro-polyethylene, and then fully mix them in the high-speed mixer and then get the resultant thermoplastic flame-retardant alloy of the present invention by means of one-step melt blending & extrusion in one-pot. The physical properties of the present invention prepared are as below (ISO standard): the IZOD notched impact strength is 30 KJ/m2, the bending strength is 63 MPa, the glossness (at an incident angle of 60°) is 89 and the flame-retardant level (UL94) is 1.5mm-V-0.


Embodiment 4

Accurately weigh 100 kg of ABS resin, 10 kg of PET, 30 KG of PCTA, 15 Kg of tribrom-triben-triazine, 5 kg of diantimony trioxide powder, 0.2 kg of Pentaerythrite tetra [β-(3′,5′-di-tert-butyl-4′-hydroxyphenyl)-propionate] (anti-ultraviolet & thermal oxidant), 1 kg of ethylene bis-stearamide, 0.3 kg of perfluoro-polyethylene, and then fully mix them in the high-speed mixer and then get the resultant thermoplastic flame-retardant alloy of the present invention by means of one-step melt blending & extrusion in one-pot. The physical properties of the present invention prepared are as below (ISO standard): the IZOD notched impact strength is 33 KJ/m2, the bending strength is 65 MPa, the glossness (at an incident angle of 60°) is 96 and the flame-retardant level (UL94) is 1.5mm-V-0.

Claims
  • 1. A thermoplastic flame-retardant alloy, characterized in that, composed of the following components by the shares and weights as below: ABS resin, 5-94Polyester or co-polyester or the mixture of both, 3-94Brominated flame retardant, 1-50Synergistic flame-retardant, 1-10Chlorinated polyethylene (CPE), 0.001-30Anti-dripping agent, 0.001-2Processing aid, 0.1-6.
  • 2. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that, composed of the following components by the shares and weights as below: ABS resin, 90Polyester or co-polyester or the mixture of both, 5-50Brominated flame retardant, 2-30Synergistic flame-retardant, 1-10Chlorinated polyethylene (CPE), 1-15Anti-dripping agent, 0.1-1Processing aid, 0.1-0.4.
  • 3. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the ABS resin is composed of 5-80% weight of graft polybutadiene rubber and 95-20% weight of graft polystyrene-acrylonitrile copolymer.
  • 4. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the polyester adopts polyethylene terephthalate, the co-polyester is selected from PCTG, PETG or PCTA.
  • 5. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the brominated flame retardant is selected from one of tetrabromobisphemol A (TBBPA), brominated epoxy, tribrom-triben-triazine (TBM) and brominated diphenylethane, or the mixture of at least two of them.
  • 6. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the synergistic flame-retardant is diantimony trioxide.
  • 7. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that anti-dripping agent is selected from perfluoro-polyolefin or perfluoro-polyolefin coated by the polystyrene-acrylonitrile.
  • 8. The thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the processing aid is selected from anti-ultraviolet & thermal oxidant or lubricant or their mixture.
  • 9. The thermoplastic flame-retardant alloy as claimed in claim 8, characterized in that the anti-ultraviolet & thermal oxidant is selected from one of hindered monophenol, alkylated hindered-polyphenol, phosphorous ester, amines, alkali metal or alkaline earth metal silicate and Hydroxybenzotriazole, or the mixture of at least two of them; the lubricant is selected from one of the aliphatic amide, adipic acid or its salt, silicone oil, white mineral oil and poly-silicone, or the mixture of at least two of them.
  • 10. The method for preparing the thermoplastic flame-retardant alloy as claimed in claim 1, characterized in that the method includes the procedure as follows: firstly premix the components in the high-speed mixer, add them to the twin-screw extruder, plasticize and mix them and then extrude them at the temperature of 150-250° C. so as to get the resultant flame-retardant alloy after cooling and granulation.
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/CN2008/072734 10/17/2008 WO 00 12/27/2010