KR100524381B1 - Pozzolan mortar composition using pozzolan powder and the method of manufacture - Google Patents

Abstract

The present invention relates to a pojoran mortar composition using a pojoran powder, a natural mineral, and a method for manufacturing the same. Neutralizes dust, prevents cement dust, adsorbs heavy metals, volatile organic compounds (VOCs), formaldehyde (HCHO) in indoor air, cleans indoor air, and emits far infrared rays. It relates to a pojoran mortar composition provided by an environmentally friendly material such as. Pojoran mortar in the present invention relates to a pojoran mortar composition composed of a general cement and admixtures and a method of manufacturing the same.

Description

Pozzolan mortar composition using pozzolan powder and the method of manufacture

The present invention relates to a pojoran mortar composition using a natural mineral pojoran and a method for manufacturing the same, and more specifically, it can be applied to a thick coating like mortar from a thin coating such as paint on the concrete surface, as a finishing material in the room When used, it neutralizes cement poison, removes cement dust, cleans indoor air with excellent antibacterial and deodorizing effect, and emits energy that is beneficial to the human body by releasing far infrared rays and negative ions. In the case of the present invention relates to a pojoran mortar composition and its manufacturing method that can be applied to the waterproof and plastering effect.

The Pojoran mineral is a Cretaceous igneous rock of about 100 million years ago. It has excellent acid resistance, corrosion resistance, heat insulation, durability and waterproofness. Historically, many buildings such as the Pantheon in ancient Greek Rome were built as Pojoran and have been built for over 2,000 years. Boasts its robustness. Korea's only Pojoran mine in Hoengseong-gun, Gangwon-do, has excellent antibacterial, deodorant, water purification and detoxification effects. In particular, it contains a large amount of trace elements and organic matter, which is beneficial to the human body, and is used as a cosmetic and high-grade building material.

Until now, most of the living spaces have been finished with gypsum board, plywood, paint, and wallpaper using concrete as the main material, which has been reported several times in the media as well. Syndrome) is the main culprit. Moving into a new building releases an irritating odor that hurts the head. Among these volatile organic compounds (VOCs), benzene (Benzene) is carcinogenic and respiratory irritant. Xylene) causes anesthetic irritation, heart, liver, stomach, and nerves. Toluene causes anesthesia and anemia, and Stylene may cause anesthesia and the central nervous system. . In addition, ethyl benzene (Ethyle benzene) is a strong irritant to the eyes, respiratory system and central nervous system disorders, Dochloromethane causes red blood cells increase, anesthetic, and the central nervous system, Tetrachloroethylene (Tetrachloroethylene) It is a substance that is highly likely to cause abnormalities in the gastrointestinal nerve tissue and is designated as a specific harmful substance by the Ministry of Environment of Korea.

In new buildings, formaldehyde or acetaldehyde is a harmful gas produced by the oxidation of methyl alcohol or ethyl alcohol and continues to be released for 4 to 5 years. Many people living in offices or apartments in newly constructed buildings complain of coughing, stuffy nose, and asthma, which are also caused by chemicals in the air. In particular, research results that the cause of allergic rhinitis is due to formaldehyde in the room air is attracting attention. Formaldehyde has been designated as a poison declared by the Ministry of Environment. In addition, although it is a carcinogen that is widely known as a chemical having both high toxicity and environmental hazards, there is no indoor environmental standard for harmful gases indoors until now.

As a solution to harmful substances emitted indoors, it is easy to think of how to discharge pollutants by deliberate ventilation or install an air purifier for controlling VOCs, but it is often not practical and costly to operate. There is a problem such as, there is a disadvantage that it is not a fundamental solution to fundamentally block harmful substances.

In addition, there are products using minerals such as ocher, illite, and zeolite, but it is difficult to solve the problem of new building syndrome because there are many parts that cannot be trusted with efficacy depending on the origin or type of mineral.

Therefore, the object of the present invention is to neutralize the cement poison, block the cement dust, and excellent adsorption power of volatile organic compounds (VOCs) generated in the room, and to promote the human body activity by far-infrared emission to accelerate the pleasant indoor environment In addition, Pojoran has a good workability to provide mortar.

In order to achieve the above object, the composition of pojoran mortar of the present invention adds 10 to 40 parts by weight of cement to 100 parts by weight of pojoran powder of 100 to 400 mesh, and 0.5 to 4.0 parts by weight of ligrin or naphthalene cement admixture. It is characterized by the fact that the addition is carried out using a ball mill.

The above object of the present invention is to neutralize the cement poison, block the cement dust, excellent absorption of harmful substances generated in the room, improve the activity of the human body by far-infrared radiation to create a comfortable indoor environment, good construction properties Pojoran is achieved by mortar.

Hereinafter, the present invention will be described in detail.

<Example 1> Change in Cement Increase and Kinds of Admixtures

Rocks were purchased from the Pojoran mine in Hoengseong, Gangwon-do, and crushed through a jaw crusher, a ball mill, and an atrium mill, and powdered using a sieve. Elements contained in the pojoran mineral used in the present invention are shown in Table 1, electron micrographs are shown in Figure 1. This result is the analysis result of Korea Testing and Research Institute.

100 and 400 mesh pojoran powders are mixed at a weight ratio of 1: 1, and 1 kg each of the mixed pojoran powders is prepared as 9 samples, and 3,100, 250, and 400 g of cement are added thereto to mix the powder state. It was. Separately, nine 9 g of naphthalene admixtures and nigrin based admixtures were measured in 500 ml beakers, 200 ml of water was supplied, and the mixtures were uniformly mixed using a mixer. Stirring made pojoran mortar. The Pojoran mortar was used to paint the concrete floor with an average knife of 10 mm, and to paint concrete specimens with an average thickness of 1.0 mm using a brush, and after 1 week, the surface was observed.

As the amount of cement increased, the adhesion increased, and when pressed under pressure on the coated surface, the hardness increased as the amount of cement increased, but the breathability and moisture permeability were reversed. When half of the specimens were immersed in water, the larger the amount of Pojoran, the more water was absorbed.

When the admixture was added, although the amount of water was supplied less, the mobility of the trowel was good when mixing and painting, but it was very difficult when the admixture was not added. This means that the addition of the admixture increases the flexibility of the mortar even when the amount of water is added, which means that the addition of the admixture improves work efficiency and increases the strength of the cement. The role of the admixture of is better. In addition, the comparison of hydrogen ion concentration between the concrete wall and the pojoran mortar showed an average pH of 11.6 on the concrete wall and an average pH of 7.9 on the pojoran mortar.

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<Example 3> Physical and chemical experiment of this invention

In order to investigate whether or not the mortar composition of the present application is suitable for the physical properties as a functional finish, a sample was made and commissioned to an accredited certification institution such as the Korea Institute of Construction Materials and Korea Living Environment Testing Institute. The results are shown in [Table 2] to [ Table 6].

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<Example 4>

In order to confirm the deodorizing effect of the pojoran mortar composition through the adsorption and removal ability of harmful gas, the difference between indoor air and the site where the third-party Pojoran mortar composition was constructed at the site of a general new apartment building was constructed and The results are shown in [Table 7]. Also, to measure the harmful gas adsorption and deodorization effect of the pojoran mortar composition, the concentration change after a certain period of time was measured by gas chromatography (head space method). After injecting 2 g of the mortar composition and a solvent, the temperature was raised to 70 ° C., and the concentration of the gas was measured by GC at an interval of 1 hour while the solvent was vaporized. The analysis conditions of GC were FID detector and 30m capillary column was used to isolate analytes. The temperature of injector, oven and detector were set to 100 ℃, 60 ℃ and 200 ℃, respectively. The results of this experiment are shown in [Table 8] and the emission concentration changes of the harmful gases over time are measured and the results are attached to [Figure 2].

When finishing the interior of the building with Pojoran mortar composition using natural mineral Pojoran powder instead of conventional wallpaper or paint, the adsorption rate of odor and harmful gas contained in the indoor atmosphere is very good, and it neutralizes the cement poison and dust. It has been found to have a beneficial effect in suppressing the occurrence and maintaining a healthy life of the human body by far-infrared emission without inhibiting other physical and chemical properties.

Figure 1: Electron micrograph of the pojoran powder used as the pojoran mortar and pojoran thin coating agent of the present invention.

Figure 2: Figure of the change in the concentration of harmful gas emission over time for the Pojoran thin spreader of the present invention

Claims (4)

In the method for obtaining a pojoran mortar composition using a natural mineral Pojoran mineral, Add 10-40 parts by weight of cement to 100 parts by weight of pojoran powder of 100-400 mesh and add 0.5-4.0 parts by weight of lignin- or naphthalene-based cement admixture, but dilute it with 10-15 times the amount of admixture. A method for producing a pojoran mortar composition comprising the step of adding and obtaining a mortar composition using a mixer. In the composition of mortar using the pojoran mineral which is a natural mineral, Pojoran mortar composition characterized in that it contains 10 to 40 parts by weight of cement, 0.5 to 4.0 parts by weight of lignin-based or naphthalene-based cement admixtures based on 100 parts by weight of 100-400 mesh pojoran powder. delete delete