CN110317479A - A kind of preparation process of mineral composite energy-saving material - Google Patents

Abstract

The invention discloses a kind of preparation processes of mineral composite energy-saving material, it is made in parts by mass by following raw material: 45-65 parts of quartz sand, 10-20 parts of epoxy resin, 4-8 parts of clay, 4-8 parts of borax, 3-6 parts of graphene, 3-5 parts of carbon fiber, 10-15 parts of curing agent, 4-8 parts of defoaming agent, 1-2 parts of diluent, 0.2-0.5 parts of mill base, casting made from the invention is than casting hardness performance made from conventional method, damping capacity and corrosion resistance are more preferable, pyroconductivity is lower, it is slow to the variation reflection of external temperature, save energy consumption, the material of use has good chemical inertness, easily stored and recycling and reusing.

Description

A kind of preparation process of mineral composite energy-saving material

Technical field

The present invention relates to mineral composite energy-saving field of material technology, specially a kind of preparation work of mineral composite energy-saving material Skill.

Background technique

Casting made from conventional mineral composite material is not up to maximum performance, and heat transfer on hardness, damping capacity Performance is excessively high, and energy consumption is caused to increase, it would therefore be highly desirable to a kind of improved technology come solve in the presence of the prior art this ask Topic.

Summary of the invention

The purpose of the present invention is to provide a kind of preparation processes of mineral composite energy-saving material, to solve above-mentioned background technique The problem of middle proposition.

To achieve the above object, the invention provides the following technical scheme: a kind of preparation process of mineral composite energy-saving material, It is made in parts by mass by following raw material: 45-65 parts of quartz sand, 10-20 parts of epoxy resin, 4-8 parts of clay, 4-8 parts of borax, stone Black alkene 3-6 parts, 3-5 parts of carbon fiber, 10-15 parts of curing agent, 4-8 parts of defoaming agent, 1-2 parts of diluent, 0.2-0.5 parts of mill base.

Preferably, it is made in parts by mass by following raw material: 55 parts of quartz sand, 15 parts of epoxy resin, 6 parts of clay, borax 6 Part, 5 parts of graphene, 4 parts of carbon fiber, 12 parts of curing agent, 6 parts of defoaming agent, 1 part of diluent, 0.2 part of mill base.

Preferably, the partial size of the quartz sand is 0.1-3.35mm.

Preferably, the curing agent is that aliphatic amine, aromatic amines, amide groups amine, latent solidification amine, urea replace It is one such or a variety of for object.

Preferably, comprising the following steps:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100-150r/min, is obtained To mixture；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, spontaneous curing 12-15 hours, takes off Mould obtains casting；

Step 3: finally casting is finished using finishing machinery.

Compared with prior art, the beneficial effects of the present invention are:

(1) casting made from is more preferable than casting hardness performance, damping capacity and corrosion resistance made from conventional method, heat transfer Rate is lower, and slow, saving energy consumption is reflected to the variation of external temperature.

(2) material that the present invention uses has good chemical inertness, easily stored and recycling and reusing.

Specific embodiment

The following is a clear and complete description of the technical scheme in the embodiments of the invention, it is clear that described embodiment Only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, the common skill in this field Art personnel every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

The present invention provides a kind of technical solution: a kind of preparation process of mineral composite energy-saving material, presses matter by following raw material It measures part meter to be made: 45-65 parts of quartz sand, 10-20 parts of epoxy resin, 4-8 parts of clay, 4-8 parts of borax, 3-6 parts of graphene, carbon fiber Tie up 3-5 parts, 10-15 parts of curing agent, 4-8 parts of defoaming agent, 1-2 parts of diluent, 0.2-0.5 parts of mill base.

Wherein, the partial size of quartz sand is 0.1-3.35mm；Curing agent be aliphatic amine, aromatic amines, amide groups amine, Latent solidification amine, urea substitute are one such or a variety of.

A kind of preparation process of mineral composite energy-saving material, comprising the following steps:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100-150r/min, is obtained To mixture；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, spontaneous curing 12-15 hours, takes off Mould obtains casting；

Step 3: finally casting is finished using finishing machinery.

Embodiment one:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 45 parts of quartz sand, asphalt mixtures modified by epoxy resin 10 parts of rouge, 4 parts of clay, 4 parts of borax, 3 parts of graphene, 3 parts of carbon fiber, 10 parts of curing agent, 4 parts of defoaming agent, 1 part of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment.

Embodiment two:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 50 parts of quartz sand, asphalt mixtures modified by epoxy resin 12 parts of rouge, 5 parts of clay, 5 parts of borax, 4 parts of graphene, 3 parts of carbon fiber, 12 parts of curing agent, 5 parts of defoaming agent, 1 part of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is more preferable than casting hardness performance, damping capacity and corrosion resistance made from embodiment one, and heat passes Conductance is lower.

Embodiment three:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 55 parts of quartz sand, asphalt mixtures modified by epoxy resin 15 parts of rouge, 6 parts of clay, 6 parts of borax, 5 parts of graphene, 4 parts of carbon fiber, 12 parts of curing agent, 6 parts of defoaming agent, 1 part of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is more preferable than casting hardness performance, damping capacity and corrosion resistance made from embodiment two, and heat passes Conductance is lower.

Example IV:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 60 parts of quartz sand, asphalt mixtures modified by epoxy resin 17 parts of rouge, 7 parts of clay, 7 parts of borax, 6 parts of graphene, 5 parts of carbon fiber, 14 parts of curing agent, 7 parts of defoaming agent, 2 parts of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is poorer than casting hardness performance, damping capacity and corrosion resistance made from embodiment one, heat transfer Rate is higher.

Embodiment five:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 65 parts of quartz sand, asphalt mixtures modified by epoxy resin 20 parts of rouge, 8 parts of clay, 8 parts of borax, 6 parts of graphene, 5 parts of carbon fiber, 15 parts of curing agent, 8 parts of defoaming agent, 2 parts of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is poorer than casting hardness performance, damping capacity and corrosion resistance made from embodiment one, heat transfer Rate is higher.

Embodiment six:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 55 parts of quartz sand, asphalt mixtures modified by epoxy resin 10 parts of rouge, 4 parts of clay, 4 parts of borax, 3 parts of graphene, 3 parts of carbon fiber, 12 parts of curing agent, 6 parts of defoaming agent, 1 part of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is poorer than casting hardness performance, damping capacity and corrosion resistance made from embodiment one, heat transfer Rate is higher.

Embodiment seven:

A kind of preparation process of mineral composite energy-saving material, is made in parts by mass by following raw material: 55 parts of quartz sand, asphalt mixtures modified by epoxy resin 20 parts of rouge, 8 parts of clay, 8 parts of borax, 6 parts of graphene, 5 parts of carbon fiber, 15 parts of curing agent, 6 parts of defoaming agent, 1 part of diluent, color 0.2 part of slurry.

The preparation process of the present embodiment the following steps are included:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100r/min, is mixed Close material；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, and spontaneous curing 15 hours, demoulding obtained To casting；

Step 3: finally casting is finished using finishing machinery.

Casting made from the present embodiment is subjected to hardness performance, damping capacity, heat-conductive characteristic and corrosion resistance experiment, Casting made from the present embodiment is poorer than casting hardness performance, damping capacity and corrosion resistance made from embodiment one, heat transfer Rate is higher.

Casting made from various embodiments of the present invention is carried out to hardness performance, damping capacity, heat-conductive characteristic and anticorrosive Performance test show that casting made from embodiment three can reach optimum performance after comparison.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (5)

1. a kind of preparation process of mineral composite energy-saving material, it is characterised in that: be made in parts by mass by following raw material: quartz 45-65 parts of sand, 10-20 parts of epoxy resin, 4-8 parts of clay, 4-8 parts of borax, 3-6 parts of graphene, 3-5 parts of carbon fiber, curing agent 10-15 parts, 4-8 parts of defoaming agent, 1-2 parts of diluent, 0.2-0.5 parts of mill base.

2. a kind of preparation process of mineral composite energy-saving material according to claim 1, it is characterised in that: by following raw material Be made in parts by mass: 55 parts of quartz sand, 6 parts of clay, 6 parts of borax, 5 parts of graphene, 4 parts of carbon fiber, is consolidated 15 parts of epoxy resin 12 parts of agent, 6 parts of defoaming agent, 1 part of diluent, 0.2 part of mill base.

3. a kind of preparation process of mineral composite energy-saving material according to claim 1, it is characterised in that: the quartz sand Partial size be 0.1-3.35mm.

4. a kind of preparation process of mineral composite energy-saving material according to claim 1, it is characterised in that: the curing agent It is one such or a variety of for aliphatic amine, aromatic amines, amide groups amine, latent solidification amine, urea substitute.

5. a kind of preparation process of mineral composite energy-saving material according to claim 1, it is characterised in that: including following step It is rapid:

Step 1: raw material being introduced in mixing machine in proportion and is stirred, and the revolving speed of mixing machine is set as 100-150r/min, is obtained To mixture；

Step 2: selecting suitable vacuum mold, inject a mixture into vacuum mold, spontaneous curing 12-15 hours, takes off Mould obtains casting；

Step 3: finally casting is finished using finishing machinery.