Inorganic high molecular plastics and rubber toughening agent

An inorganic polymer and toughening agent technology, applied in the field of processing aids for rubber and plastic products, can solve the problems of not being able to fully exert the toughening effect of attapulgite materials, affecting the physical properties of products, and poor processing fluidity, and achieve unique modification functions , better fluidity of particles, and improved toughness

Inactive Publication Date: 2009-03-11
NANJING YADONG AOTU MINING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, due to the large specific surface area of ​​attapulgite clay, the fibers are irregularly distributed in flocculent form, the surface is rough, the processing fluidity is poor, the particles are easy to agglomerate, and the surface contains polar hydroxyl groups, so it is compatible with non-polar organic polymers. The affinity is very poor, and it is often only used as an inert filling material in the production process of plastic products, and it cannot give full play to the toughening

Method used

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  • Inorganic high molecular plastics and rubber toughening agent
  • Inorganic high molecular plastics and rubber toughening agent
  • Inorganic high molecular plastics and rubber toughening agent

Examples

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Embodiment 1

[0067] (1) Place the raw ore in a drying furnace and roast at a constant temperature of 600°C for 5 hours. Impurities such as adsorbed soil, oligomers and ores on the surface of the attapulgite clay are stripped, and then passed through a pipeline air separator to reduce the density to 0.75-0.80 g / cm 3 The attapulgite clay is sent into the storage bin, and the stirring is started for cooling.

[0068] (2) Grind the cooled attapulgite clay with a Raymond machine, and use an airflow sorting unit to grind the attapulgite clay after the grinding process to a fineness of 850-1200 mesh and a density of 0.75-0.80g / cm 3 The attapulgite clay is sorted into the storage bin and the fine impurities are collected with cloth bags.

[0069] (3) Prepare a solution of 6mol / L hydrochloric acid to acidify the attapulgite clay. The mass-volume ratio of attapulgite clay to hydrochloric acid was 1:10 in g / ml. After stirring at 50°C for half an hour, dehydration was carried out with a centrifuge. ...

Embodiment 2

[0079] (1) Place the raw ore in a drying furnace and roast at a constant temperature of 400°C for 4 hours. Impurities such as adsorbed soil, oligomers and ores on the surface of the attapulgite clay are stripped, and then passed through a pipeline air separator to reduce the density to 0.75-0.80 g / cm 3 The attapulgite clay is sent into the storage bin, and the stirring is started for cooling.

[0080] (2) Grind the cooled attapulgite clay with a Raymond machine, and use an airflow sorting unit to grind the attapulgite clay after the grinding process to a fineness of 850-1200 mesh and a density of 0.75-0.80g / cm 3 The attapulgite clay is sorted into the storage bin and the fine impurities are collected with cloth bags.

[0081] (3) Prepare a solution of 7mol / L benzoic acid to acidify the attapulgite clay. The mass-to-volume ratio of attapulgite clay to benzoic acid was 1:15 in g / ml. After stirring at 45° C. for 4 hours, dehydration was performed using a centrifuge. Then dry a...

Embodiment 3

[0091] (1) Place the raw ore in a drying furnace and roast at a constant temperature of 800°C for 2.5 hours. Impurities such as adsorbed soil, oligomers and ores on the surface of the attapulgite clay are stripped, and then passed through a pipeline air separator to separate the particles with a density of 0.75- 0.80g / cm 3 The attapulgite clay is sent into the storage bin, and the stirring is started for cooling.

[0092] (2) Grind the cooled attapulgite clay with a Raymond machine, and use an airflow sorting unit to grind the attapulgite clay after the grinding process to a fineness of 850-1200 mesh and a density of 0.75-0.80g / cm 3 The attapulgite clay is sorted into the storage bin and the fine impurities are collected with cloth bags.

[0093] (3) Prepare a solution of 10 mol / L acetic acid to acidify the attapulgite clay. The mass-volume ratio of attapulgite clay to acetic acid was 1:15 in g / ml. After stirring at 50° C. for 1 hour, dehydration was performed using a centri...

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Abstract

The invention provides an inorganic polymer rubber-plastic toughener using attapulgite clay as a main raw material, which is evenly dispersed in a high polymer matrix, and has good compatibility with high polymer. The method for preparing the inorganic high polymer rubber-plastic toughener comprises the following steps: (1) purifying the attapulgite clay at a high temperature; (2) grinding and sorting; (3) acidizing; (4) thermal activating; (5) oil charging; and (6) surface treating. The toughener uses the property of fibrous microcellular structure of the attapulgite clay, modifies fibrous pore canals of inner layers of particles, improves the compatibility of the toughener with the high polymer on the premise that the fibrous structure of the attapulgite clay is maintained, has unique modification function, not only replaces toughener resin, but also proves that compared with the prior combination of padding/toughener resin, a plastic product blended by the inorganic high polymer rubber-plastic toughener and a plurality of synthetic resins has preferable aging resistance and physical property through a plurality of applied tests.

Description

technical field [0001] The invention relates to an inorganic polymer rubber and plastic toughening agent, which belongs to the field of processing aids for rubber and plastic products. Background technique [0002] In the rubber and plastic processing industry, rigidity and toughness are two important performance indicators. How to ensure that the product has good rigidity and toughness at the same time has been one of the important topics in material science research for a long time. Some polymeric resins are too rigid, and the finished products are brittle and easy to break, such as PP, ABS, PC, PET and other resins. In addition, in order to reduce material costs, all plastic products must be filled with inert inorganic powders, such as CaCO 3 , SiO 2 , talcum powder, etc., these materials have defects such as large specificity, strong hygroscopicity, aging resistance and high brittleness of filled products. At present, several large companies in the world have develope...

Claims

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Application Information

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IPC IPC(8): C08K9/00
Inventor 马正东周仁进
Owner NANJING YADONG AOTU MINING
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