CN1314852C - Surface treatment agent for polymer tacryl - Google Patents

Abstract

Polypropylene fiber surface treatment agent. The main components are nonionic surfactants A and C, and a small amount of alkane B is added. By adding a surface treatment agent, the polypropylene fiber can be evenly dispersed in water, which enhances its affinity with cement; components A, B, and C are environmentally friendly, non-toxic, and non-polluting substances, and are easily decomposed under natural conditions. The decomposition products are also beneficial to the environment; there is a synergistic effect among various components, which is better than that used alone; after coating the polypropylene fiber with this formula, its dispersion ability in water is greatly enhanced, so that it can be used in cement; The treatment agent formula has low cost, is easy to produce and can be produced continuously, and is convenient for industrialized manufacture.

Description

The polypropylene fibre surface conditioning agent

Technical field

What the present invention relates to is the synthetic method of a kind of dispersant with high efficiency of using in the polypropylene fibre manufacture process, belongs to chemical field.

Background technology

Cement is one of building industry three big stocks, uses extensively, and consumption is big, have the title of " grain of building industry ".According to the main construction material of predicting this century also will be cement and concrete.Cement Production and research are still very important.The characteristics of cement are to have stronger compression strength, and its shortcoming is the fragility of material, its tension, bending resistance, shock resistance just, and performance such as toughness is poor.In cement matrix,, can improve the tensile strength and the modulus of material disorderly to some staple fibres that distribute.In addition, it is also extremely important to improve the bonding brute force of these fibers and cement.The cement fortifying fibre has metal fibre (stainless steel wire), glass fibre (E glass, A glass, alkali-proof glass), synthetic fiber (polyvinyl, nylon, polypropylene, terylene), potlery tile fiber, carbon fibre, alumina fibre, asbestos fibre etc.It is very good that synthetic fiber such as polypropylene and nylon strengthen concrete shock resistance.The major advantage of polypropylene fibre is good alkali resistance, chemical stability,, high melt point (165 degree centigrade) reactionless with most of chemical substances, and cheap raw material.But, be difficult for being soaked, so and the bad adhesion of cement based by cement mortar because of its hydrophobicity.

In order to improve the interfacial structure between fiber and the matrix, improve the composite performance of the two, need carry out suitable surface treatment to fortifying fibre.So-called surface treatment is exactly to wash the material that is covered with a kind of surface conditioning agent on the reinforcing material surface.This surface conditioning agent comprises sizing agent, and materials such as a series of coupling agents and auxiliary agent, is beneficial to form a good bonding interface between reinforcing material and cement matrix, thereby reaches the purpose that improves the various performances of composite.For polypropylene fibre, its density is littler than water, has certain cohesive force between fiber, and bunchy exists on the water surface.Therefore, need carry out surface conditioning agent to polypropylene fibre and handle, improve its dispersiveness and hydrophily.Otherwise the fiber that those bunchys exist will become the failpoint of humidification.

Surfactant used in the surface conditioning agent also must be selected with fiber affinity bigger.English architecture research institute adds the thin-film network of the polypropylene protofibril of 4% 166.7dtex 51mm in cement products, can make to produce frictional adhesion between polypropylene fibre and cement, thereby the bending resistance of finished product brute force and impact resistance all obviously are better than not adding the goods of reinforcing material.Add a spot of polypropylene fibre in the concrete, can reduce its gas permeability and thermal conductivity, improve its shock-resistant brute force and freexing tolerance.

The component of fiber surface finishing agent commonly used can be two classes: (1) principal component is smooth agent, antistatic additive, emulsifying agent.(2) annexing ingredient: lubricant, soft Liu, obvolvent agent, antioxidant, bleeding agent, PH blender, viscosity improver, stabilizing agent, defoamer, bactericide, preservative agent, the agent of balance debugging mode etc.The conventional fibre surface conditioning agent mainly is made up of 90% above principal component and 10% following supplementary element.

Polypropylene is a hydrophobic fibre, must add surfactant, makes it can be by water-wet.Only contain non-polar group in the polypropylene molecule, it can only combine with dispersion force in surfactant, and this active force is less, so surfactant is not easy to be adsorbed.The moisture percentage of polypropylene under standard state is zero, thereby coefficient of friction is bigger, is easy to generate static, must add excellent lubrication agent and antistatic additive.Polypropylene fibre is met oil and can be expanded, and the cohesive force that expands between the fiber of back reduces, and helps disperseing.Polypropylene fibre friction back is electronegative, so it is strong to the absorption of cationic surfactant, and relatively poor to the absorption of non-ionic surface active agent.But cationic surfactant by polypropylene fibre absorption back lipophilic group outwardly, and the affinity of polypropylene fibre of Chu Liing and water is poor like this, is not easy by water-wet, and polyacrylic density is littler than water, has only 0.9g/cm ³, swim in before the oiling agent on the water surface, must add hydrophilic material it is entered in the water.Polyacrylic surface tension is 30.1Mn/m, and critical surface tension is 32Mn/m, belongs to low-energy surface, and general surfactant reduces seldom the interface interaction power of polypropylene and water, polypropylene fibre wetting not too easy.

Summary of the invention

The objective of the invention is to avoid weak point of the prior art, and a kind of hydrophily that can increase polypropylene fibre is provided, make it be easy to be dispersed in the water, polypropylene fibre surface conditioning agent product that can also Reinforced Polypropylene fiber dispersive property in water.

Can take following technical scheme to realize purpose.

The polypropylene fibre surface conditioning agent, main component is non-ionic surface active agent A and C, adds a spot of alkane B and forms,

The structure of A is

The structure of C is

R _CO(EO)n _C(PO)m _CH，

The structure of B component is

CH ₃(CH ₂)n _BCH ₃

N wherein _A=1-8, m _A=0-8, R _AAlkyl for 8-18C

n _B＝8-20C

n _C=2-30 m _C=2-30, R _CAlkyl for 8-20C.

The preparation method of polypropylene fibre surface conditioning agent is characterized in that: by mixing portion rate, get component A B c two or three, be prepared in mixing that portion rate is general and enclosing above-mentioned

Environment temperature is: the 5-40 degree

Water quality requirement: purify waste water, demineralized water

Water temperature requires the 5-90 degree

Equipment: high speed shear mulser

Total active ingredient percentage: 0.5-3

Feeding sequence: stirred in advance 3-120 minute in earlier component A 1-8 part, B component 0-4 part being aborted, stirred 3-60 minute in component C 1-7 part being aborted again, i.e. preparation is finished.

The relative prior art of present technique has following advantage and effect

The surfactant that all has an affinity by interpolation and polypropylene fibre and water is that the fiber surface finishing agent of principal component makes polypropylene fibre to be scattered in equably in the water, has strengthened the affinity of itself and cement; The monomer of the fiber surface finishing agent that is adopted, component A, B, C are environmental friendliness, and be nontoxic, free of contamination material, and under natural endowment, easily decompose, catabolite also is that environment is useful; Have cooperative effect between various ingredients, better than independent result of use; After carrying out coating with described prescription to polypropylene fibre, strengthened its dispersibility in water greatly, it be can be used in the cement; The industrialization manufacturing is convenient in low, the easy production of this treatment agent formula cost and can producing continuously.

The specific embodiment

In conjunction with the embodiments technical scheme is described in detail.

Embodiment 1, polypropylene fibre surface conditioning agent, main component is non-ionic surface active agent A and C, adds a spot of alkane B and forms,

The structure of A is

The structure of C is

R _CO(EO)n _C(PO)m _CH，

The structure of B component is

CH ₃(CH ₂)n _BCH ₃

N wherein _A=1-8, m _A=0-8, R _AAlkyl for 8-18C

n _B＝8-20C

n _C=2-30 m _C=2-30, R _CAlkyl for 8-20C.

Embodiment 2, polypropylene fibre surface conditioning agent on embodiment 1 basis, represent by mixing portion rate that the consumption of component A is 1-8 part, and the consumption of B component is that the consumption of 0-4 part component C is 1-7 part.

Embodiment 3, polypropylene fibre surface conditioning agent on the basis of embodiment 1 or 2, are made up of two or more component.

Polypropylene fibre surface conditioning agent of the present invention is made of jointly component A, B component, component C.Component A and C etc. are non-ionic surface active agents, promptly are made up of lipophilic group and hydrophilic group two parts, and the addition of each component can be the same or different, and the difference of its addition can directly influence the dispersion effect of fiber in water after oiling.

Component A is a kind of aliphatic acid polyethenoxy (EO) polyoxypropylene (PO) ether, and its structure is

The structure of component A is more effective to the dispersion force that improves finish.The consumption of component A in active principle is 1-6 part, is preferably 2-5 part.

B component is a kind of long-chain fat alkane, and its structure is

CH ₃(CH ₂)n _BCH ₃

N wherein _B=8-20C

n _C=2-30 m _C=2-30, R _CAlkyl for 8-20C.

The consumption of B component is 0-2 part.

Component C is a kind of aliphatic alcohol polyethenoxy, polyethenoxy ether, and its structure is

R _CO(EO)n _C(PO)m _CH

The consumption of component C in active principle is 0-8 part.。

Instantiation

Example 1, adopt 0-9,6 parts, hexadecylic acid atactic polyether (EO/PO=1: 3, M=2500) active ingredient of 4 parts of preparation fiber surface finishing agents, be made into 2% the aqueous solution then, give the polypropylene fibre coating, the coating temperature is a room temperature, dried by the fire 30 minutes at 80-100 degree Celsius after the coating, recording the coating rate is 1.25%, and the fiber after the coating is placed water, better dispersed.

Example 2, adopt 0-9,5 parts, hexadecylic acid atactic polyether (EO/PO=1: 1, M=2500) 3.5 parts, 1.5 parts of active ingredients that are made into the polypropylene fibre surface conditioning agent of No. 5 white oils, be made into 1.5% the aqueous solution then, with the condition identical with embodiment 1, recording the coating rate is 1.10%, fiber after the coating is placed water, dispersed fine.

Example 3 adopts lauryl alcohol atactic polyether (EO/PO=1: 1, M=1500) 3 parts, 1 part of No. 5 white oil, (15) 6 parts of active ingredients that are made into the polypropylene fibre surface conditioning agent of vegetable oil acid polyoxyethylene ether are made into 2% the aqueous solution then, with the condition identical with embodiment 1, recording the coating rate is 1.0%, fiber after oiling is placed water, dispersed general

Example 4, employing lauryl alcohol atactic polyether (EO/PO=1: 1, M=1500) 4 parts, 6 parts in vegetable oil acid polyoxyethylene (15) ether, make the active ingredient of polypropylene fibre surface conditioning agent, then it is made into 1.5% the aqueous solution, with the condition coating identical with embodiment 1, recording the coating rate is 1.30%, and the dispersion effect in water is fine.

Example 5, employing lauryl alcohol atactic polyether (EO/PO=1: 1, M=1500) 1.5 parts, hexadecylic acid atactic polyether (EO/PO=1: 1, M=2500) 3.5 parts, 1.5 parts of active ingredients that are made into the polypropylene fibre surface conditioning agent of No. 5 white oils, be made into 1% the aqueous solution then, with the condition identical with embodiment 1, recording the coating rate is that 0.8% dispersion effect is better.

Claims (2)

1, a kind of polypropylene fibre surface conditioning agent is characterized in that: main component is non-ionic surface active agent A 1-8 part and C 1-7 part, and the alkane B that adds 0-4 part forms,

The structure of A is

The structure of C is

R _CO(EO)n _C(PO)m _CH，

The structure of B component is

CH ₃(CH ₂)n _BCH ₃

N wherein _A=1-8, m _A=0-8, R _AAlkyl for 8-18C

n _B＝8-20

n _C=2-30 m _C=2-30, R _CAlkyl for 8-20C.

2, a kind of preparation method who is used for the described polypropylene fibre surface conditioning agent of claim 1 is characterized in that: by mixing portion rate, get component ABC two or three, be prepared in mixing that portion rate is general and enclosing above-mentioned

Environment temperature is: 5-40 ℃

Water quality requirement: purify waste water or demineralized water

Water temperature requires: 5-90 ℃

Equipment: high speed shear mulser

Total active ingredient percentage: 0.5-3

Feeding sequence: in earlier component A 1-8 part, B component 0-4 part being aborted, stirred in advance 3-120 minute, in component C 1-7 part being aborted, stirred 3-60 minute again, i.e. preparation is finished.