Ceramal material for manufacturing hydrogen-enriched water and preparing method and application thereof

A technology of hydrogen-rich water alloy and ceramic material, applied in chemical instruments and methods, water/sewage treatment, light water/sewage treatment, etc., can solve problems such as easy precipitation of precipitates, excessive magnesium ions, easy dissolution of magnesium ions, etc. Achieve the effect of increasing specific surface area, increasing product life, and good economic benefits

Active Publication Date: 2015-11-25
山东木齐健康科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method can only be filled and stored, and hydrogen water cannot be prepared anytime and anywhere, and it is inconvenient to carry
[0007] Hydrogen production by micro-electrolysis of natural ceramic materials generally uses materials such as tourmaline (tourmaline) and metal magnesium powder to compound or directly uses living wave metals such as magnesium particles and rods to prepare hydrogen water by micro-electrolysis. The disadvantages of low hydrogen content, uncontrollable alkalinity, and easy precipitation of sediments seriously affect the taste of water
At the same time, active wave metals such as magnesium particles and magnesium rods are easily oxidized in the air environment, and once oxidized, they basically no longer work, and excessive magnesium ions are easily dissolved in water, resulting in excessive magnesium ions in the water
As far as the current market situation is concerned, the quality of the above products is uneven, and the functional effect is not ideal.

Method used

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  • Ceramal material for manufacturing hydrogen-enriched water and preparing method and application thereof
  • Ceramal material for manufacturing hydrogen-enriched water and preparing method and application thereof
  • Ceramal material for manufacturing hydrogen-enriched water and preparing method and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0068] The hydrogen-rich water alloy ceramic material is made of the following raw materials in parts by weight:

[0069] 57 parts of substrate components, 40 parts of hydrogen-rich components, 13 parts of antibacterial components and 16 parts of binders;

[0070] The base material component is made of raw materials in the following weight percentages:

[0071] Tourmaline 32%, Hydrostone 20%, Silicon Oxide 28%, Calcium Oxide 10%, and Zeolite 10%.

[0072] The hydrogen-rich component is made of raw materials in the following weight percentages:

[0073] Metal magnesium powder 30%, magnesium oxide powder 20% and KDF alloy powder 50%.

[0074] Described antibacterial component is made of the raw material of following percentage by weight:

[0075] Zinc oxide 20%, titanium oxide 50% and cerium oxide 30%.

[0076] Described binding agent is made by the raw material of following percentage by weight:

[0077] High-purity distilled water 30%, carboxypropyl cellulose 30% and bent...

Embodiment 2

[0090] The hydrogen-rich water alloy ceramic material is made of the following raw materials in parts by weight:

[0091] 60 parts of substrate components, 50 parts of hydrogen-rich components, 20 parts of antibacterial components and 12 parts of binder;

[0092] The base material component is made of raw materials in the following weight percentages:

[0093] Tourmaline 25%, Hydrostone 10%, Silicon Oxide 20%, Calcium Oxide 20%, and Zeolite 25%.

[0094] The hydrogen-rich component is made of raw materials in the following weight percentages:

[0095] Metal magnesium powder 40%, magnesium oxide powder 20% and KDF alloy powder 40%.

[0096] Described antibacterial component is made of the raw material of following percentage by weight:

[0097] Zinc oxide 30%, titanium oxide 50% and cerium oxide 20%.

[0098]Described binding agent is made by the raw material of following percentage by weight:

[0099] High-purity distilled water 40%, carboxypropyl cellulose 10% and benton...

Embodiment 3

[0112] The hydrogen-rich water alloy ceramic material is made of the following raw materials in parts by weight:

[0113] 40 parts of substrate components, 30 parts of hydrogen-rich components, 15 parts of antibacterial components and 20 parts of binders;

[0114] The base material component is made of raw materials in the following weight percentages:

[0115] Tourmaline 20%, Hydrostone 15%, Silicon Oxide 35%, Calcium Oxide 15%, and Zeolite 15%.

[0116] The hydrogen-rich component is made of raw materials in the following weight percentages:

[0117] Metal magnesium powder 50%, magnesium oxide powder 30% and KDF alloy powder 20%.

[0118] Described antibacterial component is made of the raw material of following percentage by weight:

[0119] Zinc oxide 40%, titanium oxide 40% and cerium oxide 20%.

[0120] Described binding agent is made by the raw material of following percentage by weight:

[0121] High-purity distilled water 50%, carboxypropyl cellulose 30% and bent...

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Abstract

The invention belongs to the technical field of new environment-friendly materials, and particularly relates to a ceramal material for manufacturing hydrogen-enriched water and the preparing method and application thereof. The ceramal material is prepared from, by weight, 30-85 parts of base material component, 20-60 parts of hydrogen-enriched component, 2-25 parts of anti-microbial component, and 3-30 parts of binder. The base material component is prepared from tourmaline, serpeggiante, silicon oxide, calcium oxide and zeolite. The hydrogen-enriched component is prepared from magnesium metal powder, magnesia powder and KDF alloy powder. The anti-microbial component is prepared from zinc oxide, titanium oxide and cerium oxide. The binder is prepared from one or more of high-purity distilled water, carboxypropyl cellulose and bentonite. The ceramal material can be used for manufacturing alkalescent water, negative-potential water and hydrogen-enriched water and also has an anti-microbial function and a water activating function. The invention further provides the preparing method and application of the ceramal material. The technology is simple and easy to realize. The ceramal material can be applied to products including water purifiers, water purifying kettles and cups.

Description

technical field [0001] The invention belongs to the technical field of new environmental protection materials, and in particular relates to a hydrogen-rich water alloy ceramic material and its preparation method and application. Background technique [0002] Medical research shows that many diseases, including aging, are caused by the accumulation of free radicals in the body that cannot be removed in time. Free radicals are a class of very active and highly oxidative chemical substances produced by human cells during metabolism, also called reactive oxygen species. Free radicals attacking life macromolecules can cause tissue cell damage, which is the root cause of body aging and an important cause of malignant diseases such as tumors. Excessive active oxygen free radicals will produce destructive behavior, leading to damage to normal cells and tissues of the human body, thus causing various diseases, such as heart disease, Alzheimer's disease, Parkinson's disease and tumor...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F1/461C02F1/30
Inventor 李霞王家胜
Owner 山东木齐健康科技有限公司
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