CN114854372A - Terahertz composition and preparation method thereof - Google Patents
Terahertz composition and preparation method thereof Download PDFInfo
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- CN114854372A CN114854372A CN202210590292.3A CN202210590292A CN114854372A CN 114854372 A CN114854372 A CN 114854372A CN 202210590292 A CN202210590292 A CN 202210590292A CN 114854372 A CN114854372 A CN 114854372A
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
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Abstract
The invention discloses a terahertz composition and a preparation method thereof, and relates to the technical field of terahertz compositions, wherein the terahertz composition comprises the following raw material components in parts by weight: 10-15 parts of titanium dioxide, 5-15 parts of germanium ore, 15-25 parts of neodymium ore, 10-15 parts of lanthanum ore, 10-15 parts of cerium ore, 5-10 parts of magnesium ore, 5-10 parts of phosphate ore, 5-10 parts of calcium ore and 25-35 parts of rare earth mineral powder; the rare earth mineral powder is a mixture of lanthanum, cerium and europium. The terahertz composition provided by the invention can emit 4-16 um far infrared light waves, is beneficial to human bodies and environment, can effectively remove peculiar smell and resist bacteria, tap water treated by the terahertz composition provided by the invention is small molecular group water with the half-width of 40HZ of vibration frequency, has high stability, and can reach the CJ/T94-2005 standard.
Description
Technical Field
The invention relates to the technical field of terahertz compositions, in particular to a terahertz composition and a preparation method thereof.
Background
Terahertz waves are one type of electromagnetic waves, and are electromagnetic waves with frequencies ranging from 0.1THz to 10THz, and wavelengths ranging from 0.03 to 3mm, which are between microwave and infrared.
The water molecules are associated together by intermolecular forces to form water molecule clusters or water molecule clusters. The small molecular group water enters within 100Hz, and consists of 5-7 water molecules to form a water molecular group, so that the water molecular group has high penetrability, high diffusibility, high dissolving power, high oxygen content and weak alkalinity. After entering human body, the small molecular group water can bring more soluble nutrient substances into cells, thereby accelerating cell metabolism. The small molecular group water prepared by the existing method has larger size, is difficult to maintain and has poor stability.
At present, no terahertz composition which can be used for preparing water into small molecular group water, and has the effects of eliminating the peculiar smell of the environment and the human body and resisting bacteria exists.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a terahertz composition and a preparation method thereof.
The invention aims to protect a terahertz composition, which comprises the following raw material components in parts by weight: 10-15 parts of titanium dioxide, 5-15 parts of germanium ore, 15-25 parts of neodymium ore, 10-15 parts of lanthanum ore, 10-15 parts of cerium ore, 5-10 parts of magnesium ore, 5-10 parts of phosphate ore, 5-10 parts of calcium ore and 25-35 parts of rare earth mineral powder; the rare earth mineral powder is a mixture of lanthanum, cerium and europium.
Preferably, the weight part ratio of lanthanum to cerium to europium is 1: 1: 2.
further preferably, the terahertz composition comprises the following raw material components in parts by weight: 12.5 parts of titanium dioxide, 10 parts of germanium ore, 20 parts of neodymium ore, 12.5 parts of lanthanum ore, 12.5 parts of cerium ore, 7.5 parts of magnesium ore, 7.5 parts of phosphate ore, 7.5 parts of calcium ore and 30 parts of rare earth mineral powder.
Further preferably, the terahertz composition comprises the following raw material components in parts by weight: 10 parts of titanium dioxide, 5 parts of germanium ore, 15 parts of neodymium ore, 10 parts of lanthanum ore, 10 parts of cerium ore, 5 parts of magnesium ore, 5 parts of phosphate ore, 5 parts of calcium ore and 25 parts of rare earth mineral powder.
Further preferably, the terahertz composition comprises the following raw material components in parts by weight: 15 parts of titanium dioxide, 15 parts of germanium ore, 25 parts of neodymium ore, 15 parts of lanthanum ore, 15 parts of cerium ore, 10 parts of magnesium ore, 10 parts of phosphate ore, 10 parts of calcium ore and 35 parts of rare earth mineral powder.
Another objective of the present invention is to protect the preparation method of the terahertz composition, which comprises the following steps:
s1, mixing germanium ore, neodymium ore, lanthanum ore, cerium ore, magnesium ore, phosphate ore and calcium ore, and crushing to obtain mixed ore powder;
s2, adding titanium dioxide and rare earth mineral powder into the mixed ore powder, and stirring to obtain the terahertz composition.
Preferably, in step S1, the pulverization is to 100-200 nm.
Preferably, in step S2, the stirring is performed for 30-60min at a stirring speed of 60-80 r/min.
The invention has the beneficial effects that:
(1) the terahertz composition provided by the invention can emit 4-16 um far infrared light waves, is beneficial to human bodies and environment, and can effectively remove peculiar smell and resist bacteria, tap water treated by the terahertz composition provided by the invention is small molecular group water with half-width of 40HZ of vibration frequency, and the stability is high, so that the CJ/T94-2005 standard can be reached.
(2) The preparation method of the terahertz composition provided by the invention is simple to operate and stable in technology, and the prepared terahertz composition is excellent in effect and has great popularization value.
Detailed Description
Hereinafter, embodiments of the present invention will be described in detail. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.
It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.
Example 1
The embodiment provides a terahertz composition, which comprises the following raw material components in parts by weight: 12.5 parts of titanium dioxide, 10 parts of germanium ore, 20 parts of neodymium ore, 12.5 parts of lanthanum ore, 12.5 parts of cerium ore, 7.5 parts of magnesium ore, 7.5 parts of phosphate ore, 7.5 parts of calcium ore and 30 parts of rare earth mineral powder. The rare earth mineral powder is a mixture of lanthanum, cerium and europium, and the weight part ratio of the lanthanum to the cerium to the europium is 1: 1: 2.
the embodiment also provides a preparation method of the terahertz composition, which comprises the following steps:
s1, mixing germanium ore, neodymium ore, lanthanum ore, cerium ore, magnesium ore, phosphate ore and calcium ore, and crushing to obtain mixed ore powder;
s2, adding titanium dioxide and rare earth mineral powder into the mixed ore powder, and stirring to obtain the terahertz composition.
In step S1, the pulverization is to 150 nm.
In step S2, the stirring is carried out for 45min at a stirring speed of 70 r/min.
Example 2
The embodiment provides a terahertz composition, which comprises the following raw material components in parts by weight: 10 parts of titanium dioxide, 5 parts of germanium ore, 15 parts of neodymium ore, 10 parts of lanthanum ore, 10 parts of cerium ore, 5 parts of magnesium ore, 5 parts of phosphate ore, 5 parts of calcium ore and 25 parts of rare earth mineral powder. The rare earth mineral powder is a mixture of lanthanum, cerium and europium, and the weight part ratio of the lanthanum to the cerium to the europium is 1: 1: 2.
the embodiment also provides a preparation method of the terahertz composition, which comprises the following steps:
s1, mixing germanium ore, neodymium ore, lanthanum ore, cerium ore, magnesium ore, phosphate ore and calcium ore, and crushing to obtain mixed ore powder;
s2, adding titanium dioxide and rare earth mineral powder into the mixed ore powder, and stirring to obtain the terahertz composition.
In step S1, the pulverization is to 150 nm.
In step S2, the stirring is carried out for 45min at a stirring speed of 70 r/min.
Example 3
The embodiment provides a terahertz composition, which comprises the following raw material components in parts by weight: 15 parts of titanium dioxide, 15 parts of germanium ore, 25 parts of neodymium ore, 15 parts of lanthanum ore, 15 parts of cerium ore, 10 parts of magnesium ore, 10 parts of phosphate ore, 10 parts of calcium ore and 35 parts of rare earth mineral powder. The rare earth mineral powder is a mixture of lanthanum, cerium and europium, and the weight part ratio of the lanthanum to the cerium to the europium is 1: 1: 2.
the embodiment also provides a preparation method of the terahertz composition, which comprises the following steps:
s1, mixing germanium ore, neodymium ore, lanthanum ore, cerium ore, magnesium ore, phosphate ore and calcium ore, and crushing to obtain mixed ore powder;
s2, adding titanium dioxide and rare earth mineral powder into the mixed ore powder, and stirring to obtain the terahertz composition.
In step S1, the pulverization is to 150 nm.
In step S2, the stirring is carried out for 45min at a stirring speed of 70 r/min.
Test example 1
Determination of Water molecule group size
The test method comprises the following steps: the test group was tap water obtained by soaking the terahertz composition prepared in example 1 for 10min, the control group 1 was tap water, and the control group 2 was mineral water. The half-width of the vibration frequency of the test group, the control group 1 and the control group 2 was measured by a nuclear magnetic resonance spectrometer.
And (3) testing results: see Table 1
TABLE 1
Test example 2
Stability test of tap water after soaking of terahertz composition prepared in example 1 for 10min
Test the tap water obtained by immersing the terahertz composition prepared in example 1 for 10min was left for 7 days, and the half-width of the vibration frequency was measured on the first day and the seventh day, respectively.
And (3) testing results: see table 2.
TABLE 2
Standing time (sky) | Half width of vibration frequency (HZ) |
1 | 40 |
7 | 44 |
Test example 3
A water quality detection test method is performed on tap water obtained after the terahertz composition prepared in example 1 is soaked for 10 min: detection is carried out by adopting detection standard CJ/T94-2005
And (3) testing results: see Table 3
TABLE 3
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.
Claims (8)
1. A terahertz composition, characterized by: the terahertz composition comprises the following raw material components in parts by weight: 10-15 parts of titanium dioxide, 5-15 parts of germanium ore, 15-25 parts of neodymium ore, 10-15 parts of lanthanum ore, 10-15 parts of cerium ore, 5-10 parts of magnesium ore, 5-10 parts of phosphate ore, 5-10 parts of calcium ore and 25-35 parts of rare earth mineral powder; the rare earth mineral powder is a mixture of lanthanum, cerium and europium.
2. The terahertz composition of claim 1, wherein: the weight part ratio of lanthanum, cerium and europium is 1: 1: 2.
3. the terahertz composition of claim 2, wherein: the terahertz composition comprises the following raw material components in parts by weight: 12.5 parts of titanium dioxide, 10 parts of germanium ore, 20 parts of neodymium ore, 12.5 parts of lanthanum ore, 12.5 parts of cerium ore, 7.5 parts of magnesium ore, 7.5 parts of phosphate ore, 7.5 parts of calcium ore and 30 parts of rare earth mineral powder.
4. The terahertz composition of claim 2, wherein: the terahertz composition comprises the following raw material components in parts by weight: 10 parts of titanium dioxide, 5 parts of germanium ore, 15 parts of neodymium ore, 10 parts of lanthanum ore, 10 parts of cerium ore, 5 parts of magnesium ore, 5 parts of phosphate ore, 5 parts of calcium ore and 25 parts of rare earth mineral powder.
5. The terahertz composition of claim 2, wherein: the terahertz composition comprises the following raw material components in parts by weight: 15 parts of titanium dioxide, 15 parts of germanium ore, 25 parts of neodymium ore, 15 parts of lanthanum ore, 15 parts of cerium ore, 10 parts of magnesium ore, 10 parts of phosphate ore, 10 parts of calcium ore and 35 parts of rare earth mineral powder.
6. The method for preparing a terahertz composition as claimed in any one of claims 1 to 5, wherein: the preparation method comprises the following steps:
s1, mixing germanium ore, neodymium ore, lanthanum ore, cerium ore, magnesium ore, phosphate ore and calcium ore, and crushing to obtain mixed ore powder;
s2, adding titanium dioxide and rare earth mineral powder into the mixed ore powder, and stirring to obtain the terahertz composition.
7. The method for preparing the terahertz composition as claimed in claim 6, wherein: in step S1, the pulverization is performed to 100-200 nm.
8. The method for preparing the terahertz composition as claimed in claim 6, wherein: in step S2, the stirring is carried out for 30-60min at a stirring speed of 60-80 r/min.
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