Dual-degradant additive for promoting photo oxidative degradation and biodegradation of polymer

A biodegradation and photo-oxidation technology, applied in the field of dual-degradation additives, can solve the problems of petroleum-based materials being incomparable, lack of degradation controllability, and impact on degradation effects, etc., to overcome the problem of low degradation efficiency, excellent physical and mechanical properties, Overcoming the effect of shorter degradation cycles

Inactive Publication Date: 2012-02-15
丁邦瑞
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0016] (1) Biodegradable natural polymers are often not comparable to petroleum-based materials in terms of physical and mechanical properties, processing properties, and application costs. These shortcomings have greatly affected their application and promotion;
[0017] (2) Biodegradable materials, mainly biodegradable materials (such as starch) as additives and polymer blended composite materials, the working principle is mainly because the additives are destroyed and the polymer chain is weakened, so that The molecular weight of the polymer is degraded to the extent that microorganisms can digest it, and finally decomposed into carbon dioxide (CO2) and water. The disadvantage of this material is that it needs to add a large amount of additives to achieve the desired degradation effect, which will lead to the loss of physical and mechanical properties; at the same time, in addition to additives In addition to being able to degrade, a large amount of remaining polymers will still remain and cannot be completely biodegraded, but only decompose into fragments, which cannot be recycled, and the situation is even worse after entering the soil, causing confusion to the disposal of waste;
[0018] (3) Photooxidative degradation depends on light and aerobic environment, so in the absence of light and / or oxygen, the degradation effect will be greatly affected, so it has relative limitations, and its application is also subject to corresponding restrictions ;
[0019] (4) Simple photo-oxidative degradation can easily cause material brittle cracks and form brittle chips. In the absence of biodegradation, it is difficult to completely degrade or the time required for final complete degradation is very long
In addition, many photo-oxidative degradation additives often contain toxic heavy metal residues, and the resulting secondary pollution is not friendly to the environment;
[0020] (5) Simple photo-oxidative degradation materials often do not have the effect of composting;
[0021] (6) Low degradation efficiency caused by simple biodegradation mode
Especially in the application of agricultural film, it is necessary to meet the cycle arrangement of crop production, such as 2-12 months, and if biodegradable synthetic polymers rely on a simple biodegradation mode, under the premise that the amount of additives remains unchanged , its degradation cycle often takes more than 24 months, so it does not meet the requirements;
[0022] (7) Many degradable polymers can only be used for disposable products with a short use time due to the inherent short degradation cycle of the material itself, such as lunch boxes, disposable plastic cups, food packaging films, agricultural films or garbage Bags and other occasions, but cannot meet the requirements of durable use, that is, it does not have degradation controllability;
[0025] It can be seen that, before the present invention, there have been no reports of related patents and documents that can solve the above-mentioned 9 aspects of the problem at the same time.

Method used

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  • Dual-degradant additive for promoting photo oxidative degradation and biodegradation of polymer
  • Dual-degradant additive for promoting photo oxidative degradation and biodegradation of polymer
  • Dual-degradant additive for promoting photo oxidative degradation and biodegradation of polymer

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0176] The first stage: weigh the following substances according to their respective weight percentages, put them in a high-speed mixer, and mix them at a speed of 500 rpm for 30 minutes to make a mixture; then send the mixture into the Coperion (Nanjing) Machinery Co., Ltd.’s STS twin-screw extruder and granulation and cutting unit with an L / D of 32:1, the temperature at each extrusion end is 150°C, and the extruder speed is 600 rpm Under the condition of minute, carry out extruding granulation operation, make the present invention, promptly appearance is the double degradation additive of concentrated plastic masterbatch:

[0177] 1. Low-density polyethylene (LDPE) as carrier resin: 30%

[0178] 2. Composite photooxidative degradation accelerator: 40%

[0179] 3. Photooxidative degradation induction period regulator: 3%

[0180] 4.3-Phenylglutarate: 2%

[0181] 5. Microcapsule composite material: 25%

[0182] in:

[0183] A. The names and weight percentages of various c...

Embodiment 2

[0217] The following materials were mixed according to their respective weight percentages at a speed of 530 rpm for 40 minutes to make a mixture; then the mixture was sent to Coperion (Nanjing) Machinery Co., Ltd. where the length-to-diameter ratio L / D was 40:1. The company's STS-type twin-screw extruder and granulation and granulation unit perform extrusion and granulation under the conditions that the temperature of each extrusion end is 160°C and the rotation speed of the extruder is 800 rpm to produce the present invention. , that is, the double-degradable additive with the appearance of concentrated plastic masterbatch:

[0218] 1. Ethylene vinyl acetate copolymer (EVA) as carrier resin: 35%

[0219] 2. Composite photooxidative degradation accelerator: 37%

[0220] 3. Photooxidative degradation induction period regulator: 3%

[0221] 4. Polylactic acid: 2%

[0222] 5. Microcapsule composite material: 23%

[0223] in:

[0224] A. The names and weight percentages of v...

Embodiment 3

[0259] The first stage: the following materials were mixed for 50 minutes at a speed of 820 rpm according to their respective weight percentages to make a mixture; then the mixture was sent to Coperion ( The STS twin-screw extruder and granulation and granulation unit of Nanjing) Machinery Co., Ltd. perform extrusion and granulation under the conditions that the temperature of each extrusion end is 170°C and the speed of the extruder is 800 rpm. The present invention is made, that is, the appearance is a dual-degradation additive of concentrated plastic masterbatch:

[0260] 1. Ethylene acrylic acid copolymer (EAA) as carrier resin: 38%

[0261] 2. Composite photooxidative degradation accelerator: 35%

[0262] 3. Photooxidative degradation induction period regulator: 2%

[0263] 4. Polycaprolactone: 2%

[0264] 5. Microcapsule composite material: 23%

[0265] in:

[0266] A. The names and weight percentages of various components in the composite photooxidative degradation...

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Abstract

The invention relates to a dual-degradant additive for promoting photo oxidative degradation and biodegradation of a polymer, comprising the following ingredients: 30-50 wt% of resin used as a carrier, 26-40 wt% of composite photo oxidative degradation accelerating agent, 1-5 wt% of photo oxidative degradation induction period regulator, 1-5 wt% of carboxylic acid or its derivative, and 15-25 wt%of microcapsule composite material. The dual-degradant additive disclosed herein can be applied on various polymers. By using the dual-degradant additive to mix with the polymer according to a certain proportion to prepare a composite material, the composite material can be degraded through photo oxidative degradation and biodegradation, has effects of repairing soil and compost, and has effects of oxygen barrier and flame resistance in many applications.

Description

technical field [0001] The invention relates to an environment-friendly degradation additive for polymers, in particular to a dual degradation additive for promoting photooxidative degradation and biodegradation of polymers. Background technique [0002] Regarding photooxidative degradation: it is the combined effect of the two degradation effects of light and oxygen. Its working mechanism is that the polymer containing the photooxidative degradation accelerator triggers a dehydrogenation reaction under the action of light, and transfers energy to the polymer molecule, causing it to undergo chain scission and crosslinking, that is, a photocatalytic degradation reaction occurs. This process often Accompanied by the generation of oxygen-containing functional groups (such as carboxyl, hydroxyl, carbonyl, etc.), the polymer is further oxidatively degraded. Polymers containing photooxidative degradation accelerators are called photooxidative degradation polymers. [0003] Regar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L23/06C08L23/08C08L31/04C08L35/00C08L33/00C08K13/06C08K9/10B29C47/92B29C48/92
CPCB29C48/92B29C2948/9259B29C2948/92704B29C2948/92885B29C2948/92895
Inventor 丁邦瑞
Owner 丁邦瑞
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