Disclosure of Invention
The invention aims to: in order to solve the problems of poor heat preservation effect and separation of harmful substances, a health-preserving mineral porcelain is provided.
In order to achieve the purpose, the invention provides the following technical scheme: a health-preserving mineral porcelain is prepared from the following materials in parts by weight: 10-16 parts of tourmaline, 3-6 parts of meteorite and 8-15 parts of medical stone; 5-7 parts of activated carbon powder, 7-10 parts of vesuvianite, 45-55 parts of clay and 6-11 parts of diamond chafer stone; 15-20 parts of selenium-enriched soil and 2-4 parts of obsidian; 3-5 parts of himalaya mineral salt, 5-10 parts of mullite, 7-13 parts of diatomite, 2-4 parts of sintering aid and 2-4 parts of magnet; 3-5 parts of hydroxyapatite and 2-4 parts of germanite; 5-7 parts of olivine, 2-7 parts of garnet and 1-3 parts of yellow crystal.
A health-preserving mineral porcelain comprises the following manufacturing steps:
step 1: weighing tourmaline, meteorite and medical stone in proportion; activated carbon powder, vesuvianite, clay 45-55 parts and diamond-like chaenomeles sinensis stone; selenium-rich soil, obsidian; himalaya mineral salt, mullite, diatomite and magnetite; hydroxyapatite, germanite, olivine, garnet and yellow crystal are put into a crusher to be crushed separately, and then pass through a 200-mesh and 250-mesh sieve for standby after crushing, the sintering aid is crushed to 400-mesh and 500-mesh sieve for standby,
step 2: adding water accounting for 1-1.2 times of the total weight of the powder in the step 1 into the powder, uniformly stirring, ball-milling for 6-7h, sieving with a 350-fold 450-mesh sieve, then passing through a 450-fold 500-mesh vibrating sieve, then adding a sintering aid, uniformly stirring to obtain pug, and adjusting the water content of the pug to be 30-33%;
and step 3: injecting the pug into molds of various shapes for molding, and aging for 2-4 days to obtain a green body product;
and 4, step 4: and (4) putting the green body product into a kiln for firing, cooling, discharging from the kiln, and polishing to obtain the health-preserving mineral porcelain.
Preferably, the sintering aid is composed of zirconium oxide, yttrium oxide and magnesium oxide, and the weight ratio of zirconium oxide to yttrium oxide to magnesium oxide in the sintering aid is 1:1: 1-2.
By adopting the technical scheme: can effectively prevent the cracking of the mineral porcelain during sintering and improve the sintering speed.
Preferably, the minimum temperature of the step 4 is not less than 960 ℃, the maximum temperature of the step 4 is not more than 1100 ℃, and the firing time is 72 h.
By adopting the technical scheme: avoid the condition that the tourmaline may have the strain and lose the efficacy when the sintering temperature is higher than 1100 ℃.
Preferably, the step 2 is followed by adding the sintering aid and then stirring at a speed of 100-130r/min for 2-3 h.
By adopting the technical scheme: so that the sintering aid can be fully mixed with pug.
Compared with the prior art, the invention has the beneficial effects that:
1. the tourmaline is added in the manufacturing process, can remove harmful elements and release trace elements beneficial to human bodies, contains various natural mineral substances, can fully release more than twenty kinds of trace elements necessary to human bodies, such as zinc, lithium, iodine, selenium and the like, slowly and uniformly in purified water, so that the activated purified water contains more beneficial mineral substances, and the mineral substances are easily absorbed under the action of weak current, are excellent mineral substance sources, and can adjust the pH value of water in the kettle to achieve the purpose of health preservation, so that the water quality can be optimized, the tea water is beneficial to human bodies, the taste of the tea water is more fragrant and concentrated, the taste of the tea water is more mellow, and the like;
2. the volcanic rock and the garnet are added, the volcanic rock is rich in multiple bicarbonate and four macro elements of potassium, sodium, calcium and magnesium, trace mineral components in the volcanic rock and the garnet can seep into the tea soup, and multiple trace elements required by a human body are supplemented, so that the health-care purpose is achieved; the himalaya mineral salt is added, is the crystal salt mineral deposit with the largest reserve and the highest purity in the world, contains 84 mineral substances such as iodine, potassium, calcium, magnesium, iron and the like, is more than ten times of the common mineral salt, and can release negative ions beneficial to the human body;
3. the medical stone and the hydroxyapatite are added, the medical stone contains a large amount of zircon and can release far infrared rays beneficial to a human body, the olivine activates beneficial element components in a water source, and the hydroxyapatite, the medical stone and the olivine can purify liquid in a container, effectively inhibit and kill bacteria for a long time and effectively, inhibit the generation of mold, adsorb toxic substances such as heavy metal ions and the like in natural water, and release 26 types of trace element ions contained in the medical stone; by adding the magnet, the educt of the magnet can play the role of calming the liver and suppressing yang, so the magnet has certain auxiliary effect on the rehabilitation of liver-kidney yin deficiency;
4. according to the invention, through adding germanite, the germanite can avoid generating scale in the container, and the germanite has the functions of dehydrogenation and oxygen enrichment, so that sufficient oxygen can be kept, and the health of a human body can be maintained;
5. the mullite and the diatomite are added, so that the porcelain has the properties of light weight, fire resistance, heat resistance and low thermal conductivity, and the fire resistance, heat insulation and heat preservation effects of the mineral porcelain are improved.
Detailed Description
The first embodiment is as follows:
a health-preserving mineral porcelain is prepared from the following materials in parts by weight: 10 parts of tourmaline, 3 parts of meteorite and 8 parts of medical stone; 5 parts of activated carbon powder, 7 parts of volcanic rock, 45 parts of clay and 6 parts of diamond-like carbon longevity stone; 15 parts of selenium-enriched soil and 2 parts of obsidian; 3 parts of himalaya mineral salt, 5 parts of mullite, 7 parts of diatomite, 2 parts of sintering aid and 2 parts of magnet; 3 parts of hydroxyapatite and 2 parts of germanite; 5 parts of olivine, 2 parts of garnet and 1 part of yellow crystal.
A health-preserving mineral porcelain comprises the following manufacturing steps:
step 1: weighing tourmaline, meteorite and medical stone in proportion; activated carbon powder, vesuvianite, clay 45-55 parts and diamond-like chaenomeles sinensis stone; selenium-rich soil, obsidian; himalaya mineral salt, mullite, diatomite and magnetite; putting hydroxyapatite, germanite, olivine, garnet and yellow crystal into a grinder for separate grinding, sieving with a 200-mesh sieve for later use, grinding the sintering aid to 400 meshes for later use,
step 2: adding water which accounts for 1 time of the total weight of the powder in the step 1 into the powder, uniformly stirring, ball-milling the powder for 6 hours, sieving the powder with a 350-mesh sieve, then sieving the powder with a 450-mesh vibrating sieve, then adding a sintering aid into the powder, uniformly stirring the powder to obtain pug, and adjusting the water content of the pug to be 30%;
and step 3: injecting the pug into molds of various shapes for molding, and aging for 2 days to obtain a green body product;
and 4, step 4: and (4) putting the green body product into a kiln for firing, cooling, discharging from the kiln, and polishing to obtain the health-preserving mineral porcelain.
In the invention, the sintering aid is composed of zirconium oxide, yttrium oxide and magnesium oxide, and the weight ratio of zirconium oxide to yttrium oxide to magnesium oxide in the sintering aid is 1:1:1.
By adopting the technical scheme: can effectively prevent the cracking of the mineral porcelain during sintering and improve the sintering speed.
In the invention, the minimum temperature in the step 4 is not less than 960 ℃, the maximum temperature is not more than 1100 ℃, and the firing time is 72 h.
By adopting the technical scheme: avoid the condition that the tourmaline may have the strain and lose the efficacy when the sintering temperature is higher than 1100 ℃.
In the invention, the sintering aid is added in the step 2 and then stirred for 3 hours at the speed of 100 r/min.
By adopting the technical scheme: so that the sintering aid can be fully mixed with pug.
Example two:
a health-preserving mineral porcelain is prepared from the following materials in parts by weight: 13 parts of tourmaline, 4.5 parts of meteorite and 11.5 parts of medical stone; 6 parts of activated carbon powder, 8.5 parts of vesuvianite, 50 parts of clay and 8.5 parts of diamond chafer stone; 17.5 parts of selenium-enriched soil and 3 parts of obsidian; 4 parts of himalaya mineral salt, 7.5 parts of mullite, 10 parts of diatomite, 3 parts of sintering aid and 3 parts of magnet; 4 parts of hydroxyapatite and 3 parts of germanite; 6 parts of olivine, 4.5 parts of garnet and 2 parts of yellow crystal.
A health-preserving mineral porcelain comprises the following manufacturing steps:
step 1: weighing tourmaline, meteorite and medical stone in proportion; activated carbon powder, vesuvianite, clay 45-55 parts and diamond-like chaenomeles sinensis stone; selenium-rich soil, obsidian; himalaya mineral salt, mullite, diatomite and magnetite; putting hydroxyapatite, germanite, olivine, garnet and yellow crystal into a grinder for separate grinding, sieving with a 230-mesh sieve for later use, grinding the sintering aid to 450 meshes for later use,
step 2: adding water accounting for 1.1 times of the total weight of the powder in the step 1 into the powder, uniformly stirring, ball-milling for 6.5 hours, sieving with a 400-mesh sieve, then passing through a 470-mesh vibrating sieve, then adding a sintering aid, uniformly stirring to obtain pug, and adjusting the water content of the pug to 32%;
and step 3: injecting the pug into molds of various shapes for molding, and aging for 3 days to obtain a green body product;
and 4, step 4: and (4) putting the green body product into a kiln for firing, cooling, discharging from the kiln, and polishing to obtain the health-preserving mineral porcelain.
In the invention, the sintering aid is composed of zirconium oxide, yttrium oxide and magnesium oxide, and the weight ratio of zirconium oxide to yttrium oxide to magnesium oxide in the sintering aid is 1:1: 1.5.
By adopting the technical scheme: can effectively prevent the cracking of the mineral porcelain during sintering and improve the sintering speed.
In the invention, the minimum temperature in the step 4 is not less than 960 ℃, the maximum temperature is not more than 1100 ℃, and the firing time is 72 h.
By adopting the technical scheme: avoid the condition that the tourmaline may have the strain and lose the efficacy when the sintering temperature is higher than 1100 ℃.
In the invention, the sintering aid is added in the step 2 and then stirred for 2.5 hours at the speed of 120 r/min.
By adopting the technical scheme: so that the sintering aid can be fully mixed with pug.
Example three:
a health-preserving mineral porcelain is prepared from the following materials in parts by weight: 16 parts of tourmaline, 6 parts of meteorite and 15 parts of medical stone; 7 parts of activated carbon powder, 10 parts of volcanic rock, 55 parts of clay and 11 parts of diamond-like carbon longevity stone; 20 parts of selenium-enriched soil and 4 parts of obsidian; 5 parts of himalaya mineral salt, 10 parts of mullite, 13 parts of diatomite, 4 parts of sintering aid and 4 parts of magnet; 5 parts of hydroxyapatite and 4 parts of germanite; 7 parts of olivine, 7 parts of garnet and 3 parts of yellow crystal.
A health-preserving mineral porcelain comprises the following manufacturing steps:
step 1: weighing tourmaline, meteorite and medical stone in proportion; activated carbon powder, vesuvianite, clay 45-55 parts and diamond-like chaenomeles sinensis stone; selenium-rich soil, obsidian; himalaya mineral salt, mullite, diatomite and magnetite; putting hydroxyapatite, germanite, olivine, garnet and yellow crystal into a grinder for separate grinding, sieving with a 250-mesh sieve for later use after grinding, grinding the sintering aid to 500 meshes for later use,
step 2: adding water accounting for 1.2 times of the total weight of the powder in the step 1 into the powder, uniformly stirring, ball-milling for 7 hours, sieving with a 450-mesh sieve, then passing through a 500-mesh vibrating sieve, then adding a sintering aid, uniformly stirring to obtain pug, and adjusting the water content of the pug to 33%;
and step 3: injecting the pug into molds of various shapes for molding, and aging for 4 days to obtain a green body product;
and 4, step 4: and (4) putting the green body product into a kiln for firing, cooling, discharging from the kiln, and polishing to obtain the health-preserving mineral porcelain.
In the invention, the sintering aid is composed of zirconium oxide, yttrium oxide and magnesium oxide, and the weight ratio of zirconium oxide to yttrium oxide to magnesium oxide in the sintering aid is 1:1: 2.
By adopting the technical scheme: can effectively prevent the cracking of the mineral porcelain during sintering and improve the sintering speed.
In the invention, the minimum temperature in the step 4 is not less than 960 ℃, the maximum temperature is not more than 1100 ℃, and the firing time is 72 h.
By adopting the technical scheme: avoid the condition that the tourmaline may have the strain and lose the efficacy when the sintering temperature is higher than 1100 ℃.
Preferably, the step 2 is performed with stirring at a speed of 130r/min for 2 hours after the sintering aid is added.
By adopting the technical scheme: so that the sintering aid can be fully mixed with pug.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.