CN107629476A - A kind of antistatic glass fiber reinforced modeling grid of high-performance color - Google Patents

Abstract

The invention discloses a kind of antistatic glass fiber reinforced modeling grid of high-performance color, it is made up of resin, antistatic additive, filler, diluent, toner, other modifying agent and glass fibre, it is prepared by specific processing technology, the addition of the resin is 28 32%, the addition of the antistatic additive is 0.5 1%, the addition of the filler is 31 35%, the addition of the diluent is 2 5%, the addition of the toner is 3 4%, the addition of other modifying agent is 5 8%, and surplus is glass fibre.The present invention is allocated by using different raw material, and with the addition of new antistatic additive nanoscale carbon-point, and its sheet resistance is 10⁶‑10¹¹Ω, mechanical strength is not influenceed, and cause curved Qu Qiangdu≤260MPa of the present invention, bending mould amount≤12GPa, process operability is good, and color is varied.

Description

A kind of antistatic glass fiber reinforced modeling grid of high-performance color

Technical field

The invention belongs to molding grating manufacture field, and in particular to a kind of high-performance color is antistatic glass fiber reinforced Mould grid.

Background technology

The antistatic material used of molding grating has graphite, metal dust, tinsel etc., shortcoming：Using metal dust, It is uneven that tinsel easily causes resistance, is easily settled in resin, and because surface is not handled, have a strong impact on mechanical property Can, and graphite is seriously limited product color due to being black, is merely able to make black products.

The content of the invention

The defects of for prior art and deficiency, it is an object of the invention to provide a kind of process operability is good, color The diversified antistatic glass fiber reinforced modeling grid of high-performance color.

To achieve the above object, the technical solution adopted by the present invention is：A kind of antistatic glass fibre of high-performance color increases Strong molding grating, its innovative point are：By resin, antistatic additive, filler, diluent, toner, other modifying agent and glass fibers Dimension composition, is prepared, the addition of the resin is 28-32%, and the antistatic additive adds by specific processing technology Dosage is 0.5-1%, and the addition of the filler is 31-35%, and the addition of the diluent is 2-5%, the toner Addition be 3-4%, the addition of other modifying agent is 5-8%, and surplus is glass fibre.

Further, the resin is from one kind in adjacent benzene, isophthalic, vinyl；The filler is from aluminium hydroxide, carbon One kind in sour calcium；The toner is from one kind in color paste, mill base；The antistatic additive is nanoscale carbon-point.

Further, the specific processing technology includes overall antistatic processing technology and antistatic surface processing work Skill.

Further, the antistatic processing technology of the entirety concretely comprises the following steps：Proportionally by resin, novel antistatic Agent, diluent, filler, toner, other modifying agent are well mixed, and glass fibre laying is entered on side in a mold, and side will be mixed The material got togather is put into, then allows glass fibre and compound complete wetting by pressure mode, and drives bubble away, heated mould Have to 70-85 DEG C, after the curing be complete, mould unloading is simultaneously surface-treated.

Further, the antistatic surface processing technology concretely comprises the following steps：Proportionally by resin, diluent, filler, Toner, other modifying agent are well mixed, in a mold side by glass fibre laying enter, while by the material mixed be put into Go, then glass fibre and compound complete wetting are allowed by pressure mode, and drive bubble away, heating mould has been treated to 70-85 DEG C After all solidstate, mould unloading is simultaneously surface-treated, and new anti-static agent material is uniformly applied into product surface with roller or brush, Material solidification to be mixed.

The present invention has the beneficial effect that：The present invention is allocated by using different raw material, and with the addition of new Antistatic additive-nanoscale carbon-point, its sheet resistance is 10⁶-10¹¹Ω, mechanical strength is not influenceed, and cause the bending of the present invention Qiang Du≤260MPa, Mo Liang≤12GPa are bent, process operability is good, and color is varied.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, the present invention is carried out below further Describe in detail.It should be appreciated that embodiment described herein is not used to limit this hair only to explain the present invention It is bright.

Embodiment 1

A kind of antistatic glass fiber reinforced modeling grid of high-performance color, by resin, antistatic additive, filler, diluent, Toner, other modifying agent and glass fibre composition, are prepared, the addition of resin is by specific processing technology 28%, the addition of antistatic additive is 0.5%, and the addition of filler is 31%, and the addition of diluent is 2%, toner Addition is 3%, and the addition of other modifying agent is 5%, and surplus is glass fibre.

Resin is from one kind in adjacent benzene, isophthalic, vinyl；Filler is from one kind in aluminium hydroxide, calcium carbonate；Toning Agent is from one kind in color paste, mill base；Antistatic additive is nanoscale carbon-point.

Specific processing technology includes overall antistatic processing technology and antistatic surface processing technology.

Overall antistatic processing technology concretely comprises the following steps：Proportionally by resin, new anti-static agent, diluent, filler, Toner, other modifying agent are well mixed, in a mold side by glass fibre laying enter, while by the material mixed be put into Go, then glass fibre and compound complete wetting are allowed by pressure mode, and drive bubble away, heating mould is treated completely to 70 DEG C After solidification, mould unloading is simultaneously surface-treated.

Antistatic surface processing technology concretely comprises the following steps：Proportionally by resin, diluent, filler, toner, other change Property agent be well mixed, in a mold side by glass fibre laying enter, while the material mixed is put into, then pass through pressure Mode allows glass fibre and compound complete wetting, and drives bubble away, and heating mould is to 70 DEG C, and after the curing be complete, mould unloading is simultaneously It is surface-treated, new anti-static agent material is uniformly applied to product surface with roller or brush, material solidification to be mixed is Can.

Embodiment 2

A kind of antistatic glass fiber reinforced modeling grid of high-performance color, by resin, antistatic additive, filler, diluent, Toner, other modifying agent and glass fibre composition, are prepared, the addition of resin is by specific processing technology 32%, the addition of antistatic additive is 1%, and the addition of filler is 35%, and the addition of diluent is 5%, and toner adds Dosage is 4%, and the addition of other modifying agent is 8%, and surplus is glass fibre.

Resin is from one kind in adjacent benzene, isophthalic, vinyl；Filler is from one kind in aluminium hydroxide, calcium carbonate；Toning Agent is from one kind in color paste, mill base；Antistatic additive is nanoscale carbon-point.

Specific processing technology includes overall antistatic processing technology and antistatic surface processing technology.

Overall antistatic processing technology concretely comprises the following steps：Proportionally by resin, new anti-static agent, diluent, filler, Toner, other modifying agent are well mixed, in a mold side by glass fibre laying enter, while by the material mixed be put into Go, then glass fibre and compound complete wetting are allowed by pressure mode, and drive bubble away, heating mould is treated completely to 85 DEG C After solidification, mould unloading is simultaneously surface-treated.

Antistatic surface processing technology concretely comprises the following steps：Proportionally by resin, diluent, filler, toner, other change Property agent be well mixed, in a mold side by glass fibre laying enter, while the material mixed is put into, then pass through pressure Mode allows glass fibre and compound complete wetting, and drives bubble away, and heating mould is to 85 DEG C, and after the curing be complete, mould unloading is simultaneously It is surface-treated, new anti-static agent material is uniformly applied to product surface with roller or brush, material solidification to be mixed is Can.

Embodiment 3

A kind of antistatic glass fiber reinforced modeling grid of high-performance color, by resin, antistatic additive, filler, diluent, Toner, other modifying agent and glass fibre composition, are prepared, the addition of resin is by specific processing technology 302%, the addition of antistatic additive is 0.8%, and the addition of filler is 33%, and the addition of diluent is 4%, toner Addition is 3.5%, and the addition of other modifying agent is 6.5%, and surplus is glass fibre.

Resin is from one kind in adjacent benzene, isophthalic, vinyl；Filler is from one kind in aluminium hydroxide, calcium carbonate；Toning Agent is from one kind in color paste, mill base；Antistatic additive is nanoscale carbon-point.

Specific processing technology includes overall antistatic processing technology and antistatic surface processing technology.

Overall antistatic processing technology concretely comprises the following steps：Proportionally by resin, new anti-static agent, diluent, filler, Toner, other modifying agent are well mixed, in a mold side by glass fibre laying enter, while by the material mixed be put into Go, then glass fibre and compound complete wetting are allowed by pressure mode, and drive bubble away, heating mould is treated completely to 77 DEG C After solidification, mould unloading is simultaneously surface-treated.

Antistatic surface processing technology concretely comprises the following steps：Proportionally by resin, diluent, filler, toner, other change Property agent be well mixed, in a mold side by glass fibre laying enter, while the material mixed is put into, then pass through pressure Mode allows glass fibre and compound complete wetting, and drives bubble away, and heating mould is to 77 DEG C, and after the curing be complete, mould unloading is simultaneously It is surface-treated, new anti-static agent material is uniformly applied to product surface with roller or brush, material solidification to be mixed is Can.

The present invention is allocated by using different raw material, and with the addition of new antistatic additive-nano-scale carbon Rod, its sheet resistance is 10⁶-10¹¹Ω, mechanical strength is not influenceed, and cause curved Qu Qiangdu≤260MPa of the present invention, bending Mo Liang≤12GPa, process operability is good, and color is varied.

It is described above, it is merely illustrative of the technical solution of the present invention and unrestricted, those of ordinary skill in the art are to this hair The other modifications or equivalent substitution that bright technical scheme is made, without departing from the spirit and scope of technical solution of the present invention, It all should cover among scope of the presently claimed invention.

Claims (5)

1. A kind of 1. antistatic glass fiber reinforced modeling grid of high-performance color, it is characterised in that：By resin, antistatic additive, fill out Material, diluent, toner, other modifying agent and glass fibre composition, are prepared, the resin by specific processing technology Addition be 28-32%, the addition of the antistatic additive is 0.5-1%, and the addition of the filler is 31-35%, institute The addition for stating diluent is 2-5%, and the addition of the toner is 3-4%, and the addition of other modifying agent is 5- 8%, surplus is glass fibre.
2. A kind of 2. antistatic glass fiber reinforced modeling grid of high-performance color according to claim 1, it is characterised in that： The resin is from one kind in adjacent benzene, isophthalic, vinyl；The filler is from one kind in aluminium hydroxide, calcium carbonate；It is described Toner is from one kind in color paste, mill base；The antistatic additive is nanoscale carbon-point.
3. A kind of 3. antistatic glass fiber reinforced modeling grid of high-performance color according to claim 1, it is characterised in that： The specific processing technology includes overall antistatic processing technology and antistatic surface processing technology.
4. A kind of 4. antistatic glass fiber reinforced modeling grid of high-performance color according to claim 3, it is characterised in that： The antistatic processing technology of entirety concretely comprises the following steps：Proportionally by resin, new anti-static agent, diluent, filler, toning Agent, other modifying agent are well mixed, and glass fibre laying is entered on side in a mold, while the material mixed is put into, Glass fibre and compound complete wetting are allowed by pressure mode again, and drive bubble away, heating mould is treated complete to 70-85 DEG C After solidification, mould unloading is simultaneously surface-treated.
5. A kind of 5. antistatic glass fiber reinforced modeling grid of high-performance color according to claim 3, it is characterised in that： The antistatic surface processing technology concretely comprises the following steps：Proportionally by resin, diluent, filler, toner, other modifying agent Well mixed, glass fibre laying is entered on side in a mold, while the material mixed is put into, then passes through the mode of pressing Allow glass fibre and compound complete wetting, and drive bubble away, heating mould is to 70-85 DEG C, and after the curing be complete, mould unloading is gone forward side by side Row surface treatment, new anti-static agent material is uniformly applied to product surface, material solidification to be mixed with roller or brush.