CN107746265A - A kind of raw material for being used to prepare magnetic induction ceramic package material - Google Patents
A kind of raw material for being used to prepare magnetic induction ceramic package material Download PDFInfo
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- CN107746265A CN107746265A CN201711005516.5A CN201711005516A CN107746265A CN 107746265 A CN107746265 A CN 107746265A CN 201711005516 A CN201711005516 A CN 201711005516A CN 107746265 A CN107746265 A CN 107746265A
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- C04B35/00—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/01—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on oxide ceramics
- C04B35/16—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on oxide ceramics based on silicates other than clay
- C04B35/18—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on oxide ceramics based on silicates other than clay rich in aluminium oxide
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Abstract
The invention provides a kind of raw material for being used to prepare magnetic induction ceramic package material.It is prepared by following steps:The first step:By potassium albite, vein quartz, spinelle, calcite and not sub- mixed calcining, mixed-powder A is obtained;Second step:Four n-propyl zirconates, γ methacryloxypropyl trimethoxy silanes and ethyl acetate are mixed and dissolved, obtains solution B;3rd step:Mixed-powder A, solution B, carborundum, manganese carbonate, spherical nano TiO 2, alundum (Al2O3), titanium oxide powder, zirconium silicate, glair and Nano titanium nitride are mixed, is put into ball mill and carries out ball milling 23 25 hours, ratio of grinding media to material 1:1;4th step:It is put into baking oven and dries, crosses 100 mesh sieves and produce.There is good heat endurance after the raw material for being used to prepare magnetic induction ceramic package material of the invention are sintered, hardness is high, and sealing effectiveness is good, while the stripping quantity of lead, cadmium is less than national standard many.
Description
Technical field
The present invention relates to packaging material field, and in particular to a kind of former material for being used to prepare magnetic induction ceramic package material
Material.
Background technology
With the enhancing of people's living standards continue to improve and environmental consciousness, people increasingly pay close attention to daily living article
Influence to health, packaging material are exactly one of which.Packaging material refer to be used for manufacture packing container, packing and decorating,
Packages printing, packed and transported etc. meet product packaging requirement used in material, it both include metal, plastics, glass, ceramics,
The main packaging materials such as paper, bamboo sheet, wild mushroom class, natural fiber, chemical fibre, composite, again include strapping, decoration,
The auxiliary materials such as printing material.Wherein, ceramic package material is due to antibacterial, deodorization and the green work(for being advantageous to health
Can, and can be improved and extend in the performance of mechanics, electricity, magnetics, optics, calorifics etc., or even show spy
Different performance, therefore, extensive research and application are obtained.Some appearances in the fabrication process be present in traditional ceramic package material
The material of radiation is easily caused to human body, containing harmful metal elements such as micro lead, cadmiums, and sealing and heat resistance are bad,
Therefore, protection and the mankind of the ceramic package material that research and development heat resistance is good, hardness is high and harmfulness is small for environment are good for
Health has important meaning.
The content of the invention
Technical problems to be solved:It is an object of the invention to provide a kind of original for being used to prepare magnetic induction ceramic package material
Material, there is good heat endurance after sintered, hardness is high, and sealing effectiveness is good, while the stripping quantity of lead, cadmium is marked less than country
Permit more.
Technical scheme:A kind of raw material for being used to prepare magnetic induction ceramic package material, are prepared by following component and step
Form:
The first step:Potassium albite 30-50g, vein quartz 10-20g, spinelle 5-10g, calcite 2-4g and not sub- 5-10g are mixed
Close, 30-50 minutes are calcined at 1800-2000 DEG C, obtain mixed-powder A;
Second step:By four n-propyl zirconate 5-10g, γ-methacryloxypropyl trimethoxy silane 5-10g and acetic acid
Ethyl ester 40-50ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 10-30g, manganese carbonate 3-6g, spherical nano TiO 2 2-5g, three
Al 2 O 2-5g, titanium oxide powder 2-4g, zirconium silicate 1-3g, glair 1-3g and Nano titanium nitride 1-2g mixing, are put into ball mill
Middle progress ball milling 23-25 hours, ratio of grinding media to material 1:1;
4th step:It is put into baking oven and is dried at 80-90 DEG C of temperature, crosses 100 mesh sieves and produce.
It is further preferred that temperature is 1900 DEG C in the first step, calcination time is 35-45 minutes.
It is further preferred that Ball-milling Time is 24 hours in the 3rd step.
It is further preferred that oven temperature is 95 DEG C in the 4th step.
Beneficial effect:The raw material for being used to prepare magnetic induction ceramic package material of the present invention are sintered rear steady with good heat
It is qualitative, it is heated to heat exchange in 300 DEG C of inputs, 20 DEG C of water and once, does not occur tire and split, hardness is high, and its hardness maximum is reachable
24.9GPa, while it is only 4.3gmm/ (m that its vapor transmission coefficient is minimum2DKPa), there is good sealing effectiveness,
In addition, the stripping quantity of lead, cadmium respectively between 0.010-0.012mg/L and 0.005-0.006mg/L, is permitted less than national standard
It is more.
Embodiment
Embodiment 1
A kind of raw material for being used to prepare magnetic induction ceramic package material, are prepared by following component and step:
The first step:Potassium albite 30g, vein quartz 10g, spinelle 5g, calcite 2g and not sub- 5g are mixed, forged at 1800 DEG C
Burn 30 minutes, obtain mixed-powder A;
Second step:By four n-propyl zirconate 5g, γ-methacryloxypropyl trimethoxy silane 5g and ethyl acetate
40ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 10g, manganese carbonate 3g, spherical nano TiO 2 2g, alundum (Al2O3)
2g, titanium oxide powder 2g, zirconium silicate 1g, glair 1g and Nano titanium nitride 1g mixing, it is put into ball mill and carries out ball milling 23 hours, ball
Material is than being 1:1;
4th step:It is put into baking oven and is dried at 80 DEG C of temperature, crosses 100 mesh sieves and produce.
Embodiment 2
A kind of raw material for being used to prepare magnetic induction ceramic package material, are prepared by following component and step:
The first step:Potassium albite 40g, vein quartz 15g, spinelle 7g, calcite 3g and not sub- 7g are mixed, forged at 1900 DEG C
Burn 35 minutes, obtain mixed-powder A;
Second step:By four n-propyl zirconate 7g, γ-methacryloxypropyl trimethoxy silane 8g and ethyl acetate
45ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 20g, manganese carbonate 4g, spherical nano TiO 2 3g, alundum (Al2O3)
3g, titanium oxide powder 3g, zirconium silicate 2g, glair 2g and Nano titanium nitride 1.5g mixing, it is put into ball mill and carries out ball milling 24 hours,
Ratio of grinding media to material is 1:1;
4th step:It is put into baking oven and is dried at 85 DEG C of temperature, crosses 100 mesh sieves and produce.
Embodiment 3
A kind of raw material for being used to prepare magnetic induction ceramic package material, are prepared by following component and step:
The first step:Potassium albite 45g, vein quartz 15g, spinelle 8g, calcite 3g and not sub- 9g are mixed, forged at 1900 DEG C
Burn 45 minutes, obtain mixed-powder A;
Second step:By four n-propyl zirconate 9g, γ-methacryloxypropyl trimethoxy silane 9g and ethyl acetate
45ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 25g, manganese carbonate 5g, spherical nano TiO 2 4g, alundum (Al2O3)
4g, titanium oxide powder 3g, zirconium silicate 2g, glair 2g and Nano titanium nitride 1.5g mixing, it is put into ball mill and carries out ball milling 24 hours,
Ratio of grinding media to material is 1:1;
4th step:It is put into baking oven and is dried at 85 DEG C of temperature, crosses 100 mesh sieves and produce.
Embodiment 4
A kind of raw material for being used to prepare magnetic induction ceramic package material, are prepared by following component and step:
The first step:Potassium albite 50g, vein quartz 20g, spinelle 10g, calcite 4g and not sub- 10g are mixed, at 2000 DEG C
Calcining 50 minutes, obtains mixed-powder A;
Second step:By four n-propyl zirconate 10g, γ-methacryloxypropyl trimethoxy silane 10g and ethyl acetate
50ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 30g, manganese carbonate 6g, spherical nano TiO 2 5g, alundum (Al2O3)
5g, titanium oxide powder 4g, zirconium silicate 3g, glair 3g and Nano titanium nitride 2g mixing, it is put into ball mill and carries out ball milling 25 hours, ball
Material is than being 1:1;
4th step:It is put into baking oven and is dried at 90 DEG C of temperature, crosses 100 mesh sieves and produce.
Comparative example 1
The present embodiment and the difference of embodiment 1 are not containing vein quartz and spinelle.Specifically:
The first step:Potassium albite 30g, calcite 2g are mixed with not sub- 5g, is calcined 30 minutes at 1800 DEG C, obtains mixed-powder
A;
Second step:By four n-propyl zirconate 5g, γ-methacryloxypropyl trimethoxy silane 5g and ethyl acetate
40ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 10g, manganese carbonate 3g, spherical nano TiO 2 2g, alundum (Al2O3)
2g, titanium oxide powder 2g, zirconium silicate 1g, glair 1g and Nano titanium nitride 1g mixing, it is put into ball mill and carries out ball milling 23 hours, ball
Material is than being 1:1;
4th step:It is put into baking oven and is dried at 80 DEG C of temperature, crosses 100 mesh sieves and produce.
Comparative example 2
The difference of the present embodiment and embodiment 1 is not contain calcite and not sub.Specifically:
The first step:Potassium albite 30g, vein quartz 10g and spinelle 5g are mixed, calcines 30 minutes, must mix at 1800 DEG C
Powders A;
Second step:By four n-propyl zirconate 5g, γ-methacryloxypropyl trimethoxy silane 5g and ethyl acetate
40ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 10g, manganese carbonate 3g, spherical nano TiO 2 2g, alundum (Al2O3)
2g, titanium oxide powder 2g, zirconium silicate 1g, glair 1g and Nano titanium nitride 1g mixing, it is put into ball mill and carries out ball milling 23 hours, ball
Material is than being 1:1;
4th step:It is put into baking oven and is dried at 80 DEG C of temperature, crosses 100 mesh sieves and produce.
Comparative example 3
The present embodiment and the difference of embodiment 1 are not containing glair.Specifically:
The first step:Potassium albite 30g, vein quartz 10g, spinelle 5g, calcite 2g and not sub- 5g are mixed, forged at 1800 DEG C
Burn 30 minutes, obtain mixed-powder A;
Second step:By four n-propyl zirconate 5g, γ-methacryloxypropyl trimethoxy silane 5g and ethyl acetate
40ml mixes dissolving, obtains solution B;
3rd step:By mixed-powder A, solution B, carborundum 10g, manganese carbonate 3g, spherical nano TiO 2 2g, alundum (Al2O3)
2g, titanium oxide powder 2g, zirconium silicate 1g and Nano titanium nitride 1g mixing, are put into ball mill and carry out ball milling 23 hours, and ratio of grinding media to material is
1:1;
4th step:It is put into baking oven and is dried at 80 DEG C of temperature, crosses 100 mesh sieves and produce.
Table 1 is used for the partial properties index for preparing the raw material of magnetic induction ceramic package material
Its partial properties index is determined after material of the present invention is sintered, see the table below 1, it will be seen that material of the present invention
With good heat endurance, it is heated to heat exchange in 300 DEG C of inputs, 20 DEG C of water and once, does not occur tire and split, hardness is high, its hardness
Maximum reachable 24.9GPa, while it is only 4.3gmm/ (m that its vapor transmission coefficient is minimum2DKPa), have good
Sealing effectiveness, in addition, the stripping quantity of lead, cadmium is respectively between 0.010-0.012mg/L and 0.005-0.006mg/L, less than state
Family's standard is many.
Claims (4)
- A kind of 1. raw material for being used to prepare magnetic induction ceramic package material, it is characterised in that:Prepared by following component and step Form:The first step:Potassium albite 30-50g, vein quartz 10-20g, spinelle 5-10g, calcite 2-4g and not sub- 5-10g are mixed Close, 30-50 minutes are calcined at 1800-2000 DEG C, obtain mixed-powder A;Second step:By four n-propyl zirconate 5-10g, γ-methacryloxypropyl trimethoxy silane 5-10g and acetic acid Ethyl ester 40-50ml mixes dissolving, obtains solution B;3rd step:By mixed-powder A, solution B, carborundum 10-30g, manganese carbonate 3-6g, spherical nano TiO 2 2-5g, three Al 2 O 2-5g, titanium oxide powder 2-4g, zirconium silicate 1-3g, glair 1-3g and Nano titanium nitride 1-2g mixing, are put into ball mill Middle progress ball milling 23-25 hours, ratio of grinding media to material 1:1;4th step:It is put into baking oven and is dried at 80-90 DEG C of temperature, crosses 100 mesh sieves and produce.
- A kind of 2. raw material for being used to prepare magnetic induction ceramic package material according to claim 1, it is characterised in that:Institute It is 1900 DEG C to state temperature in the first step, and calcination time is 35-45 minutes.
- A kind of 3. raw material for being used to prepare magnetic induction ceramic package material according to claim 1, it is characterised in that:Institute It is 24 hours to state Ball-milling Time in the 3rd step.
- A kind of 4. raw material for being used to prepare magnetic induction ceramic package material according to claim 1, it is characterised in that:Institute It is 95 DEG C to state oven temperature in the 4th step.
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CN201711005516.5A CN107746265A (en) | 2017-10-23 | 2017-10-23 | A kind of raw material for being used to prepare magnetic induction ceramic package material |
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CN201711005516.5A CN107746265A (en) | 2017-10-23 | 2017-10-23 | A kind of raw material for being used to prepare magnetic induction ceramic package material |
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CN107746265A true CN107746265A (en) | 2018-03-02 |
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CN201711005516.5A Withdrawn CN107746265A (en) | 2017-10-23 | 2017-10-23 | A kind of raw material for being used to prepare magnetic induction ceramic package material |
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