Energy increasing additive added multi-layer melt-blown composite filter material and preparation method thereof

A technology of compound filtration and energy additives, which is applied in the direction of filtration separation, membrane filter, separation method, etc., can solve the problems of high resistance of melt-blown filter material and decrease of filtration efficiency, etc. It is easy to achieve industrialization, reduce filtration resistance, and improve The effect of filtration efficiency

Active Publication Date: 2016-11-09
浙江圣蓝新材科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0013] The technical problem to be solved by the present invention is to provide a multi-layer melt-blown composite filter material with added energizing agent and its preparation method. obvious problem

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Add energy-enhancing agent a and polypropylene slices to the two feeding hoppers of the granulator respectively, melt and extrude at 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent a, the mass ratio of energizer a to the modified polypropylene masterbatch is 20%, and the energizer a is a mixture of zinc stearate and barium stearate, wherein stearic acid Zinc and barium stearate mass percentages are respectively 40% and 60%;

[0038] Add energy-enhancing agent b and polypropylene chips to the two feeding hoppers of the granulator respectively, melt and extrude at a temperature of 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent b, the energizer b accounts for 20% of the mass ratio of the modified polypropylene masterbatch, and the energizer b is a mixture of zinc steara...

Embodiment 2

[0045] Add energy-enhancing agent a and polypropylene slices to the two feeding hoppers of the granulator respectively, melt and extrude at 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent a, the mass ratio of energizer a to the modified polypropylene masterbatch is 20%, and the energizer a is a mixture of zinc stearate and barium stearate, wherein stearic acid Zinc and barium stearate mass percentages are respectively 42% and 58%;

[0046] Add energy-enhancing agent b and polypropylene chips to the two feeding hoppers of the granulator respectively, melt and extrude at a temperature of 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent b, the energizer b accounts for 20% of the mass ratio of the modified polypropylene masterbatch, and the energizer b is a mixture of zinc steara...

Embodiment 3

[0053] Add energy-enhancing agent a and polypropylene slices to the two feeding hoppers of the granulator respectively, melt and extrude at 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent a, the mass ratio of energizer a to the modified polypropylene masterbatch is 20%, and the energizer a is a mixture of zinc stearate and barium stearate, wherein stearic acid Zinc and barium stearate mass percentages are respectively 45% and 55%;

[0054] Add energy-enhancing agent b and polypropylene chips to the two feeding hoppers of the granulator respectively, melt and extrude at a temperature of 190°C, cool in a water bath, cut into pellets, and then dry to obtain the added energy-enhancing agent The modified polypropylene masterbatch of agent b, the energizer b accounts for 20% of the mass ratio of the modified polypropylene masterbatch, and the energizer b is a mixture of zinc steara...

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Abstract

The invention relates to an energy increasing additive added multi-layer melt-blown composite filter material and a preparation method thereof. The multi-layer melt-blown composite filter material comprises a dust surface layer melt-blown material, a middle layer melt-blown material and a fine filtration layer melt-blown material and is prepared by steps: subjecting raw materials to melt blowing in a melt blowing device to form the dust surface layer melt-blown material, the middle layer melt-blown material and the fine filtration layer melt-blown material sequentially, compounding, and performing corona electret treatment to obtain the energy increasing additive added multi-layer melt-blown composite filter material. The energy increasing additive added multi-layer melt-blown composite filter material is simple in process route, low in implementation cost and easy in industrial popularization; on the one hand, due to a gradient structure, material bulkiness can be improved, and filtration efficiency attenuation can be decelerated while filtration efficiency is improved.

Description

technical field [0001] The invention belongs to the field of composite filter material and its preparation, in particular to a multi-layer melt-blown composite filter material added with energy-enhancing additives and a preparation method thereof. Background technique [0002] In recent years, with the development of the economy and the improvement of people's living standards, people's requirements for the quality of the environment are also getting higher and higher. But at the same time of economic development, it also brought a series of environmental problems. Since 2012, the smog weather in Beijing and other places has intensified. The smog is mainly composed of sulfur dioxide, nitrogen oxides and inhalable particulate matter. These fine particulate matter inhaled into the human body may cause great damage to the respiratory tract and lungs. Therefore, effective control of harmful substances in the air is a major problem to be solved, and the application of air filter...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D39/14B32B5/26B01D46/12
CPCB01D39/14B01D46/12B01D2239/0208B01D2239/0407B01D2239/0668B01D2239/10B01D2273/18B01D2275/10B01D2279/40B32B5/26
Inventor 靳向煜张海峰吴海波张星刘金鑫黄晨刘嘉炜王洪王荣武刘妙峥
Owner 浙江圣蓝新材科技有限公司
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