MA-M2T spinel solid liquor enhanced magnesium oxide based foam ceramic filter and preparation method thereof

A MA-M2T, magnesium oxide-based technology, applied in chemical instruments and methods, membrane filters, ceramic products, etc., can solve the problem of reduced chemical stability of intergranular bonding, increased lattice distortion of matrix magnesium oxide, and operational limitations And other problems, to achieve the effect of excellent chemical stability, simple process, good strength

Active Publication Date: 2018-08-24
FENGYANG L S NET FORMING CO LTD +2
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  • Summary
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  • Claims
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Problems solved by technology

Chinese patent documents CN1011306B (pure magnesia foam ceramic filter and its preparation process), CN101138691A (preparation method of magnesia foam ceramic filter for casting), etc., prepare foam ceramics with pure magnesia as raw material, because MgO has a very high melting point and coefficient of thermal expansion (13.5×10 -6 / °C) is high, therefore, it leads to difficult sintering (sintering temperature is not lower than 0.8 times its melting point) and poor thermal shock resistance, which limits the application and development of MgO foam ceramics
add V 2 o 5 In powder form, MgO will react with V at 1190°C 2 o 5 form an approximate composition of Mg 3 V 2 o 8 The liquid phase promotes sintering and can significantly reduce the sintering temperature of MgO foam ceramics, but V 2 o 5 Harmful to the respiratory system and skin during use, and has strict restrictions on operation
with V 2 o 5 Similarly, cobalt oxide is also a good low-temperature sintering aid, but its application is limited as a highly toxic substance and rare resource
Fluoride is a strong co-solvent and mineralizer commonly used in ceramic industry sintering, Chinese patent documents CN100536986C (magnesia foam ceramic filter), CN1473947A (foam ceramic for magnesium and magnesium alloy melt purification), CN101785944B (for magnesium Fluorite (melting point 1423°C) and magnesium fluoride (melting point 1248°C) are added to the preparation method of magnesium oxide foam ceramic filter for magnesium melt filtration. The solid solution of fluoride not only increases the oxidation of the matrix during the sintering process The lattice of magnesium is distorted, and it is easy to form a low-melting liquid phase, thereby reducing the sintering temperature of magnesia ceramics; however, during the sintering process, F in fluoride combines with Si, Al, Fe, and Ca, and most (in ceramic tiles) About 70% in production) volatilization in gaseous form not only erodes the green body itself and damages the quality of sintered ceramics, but more seriously, it will cause fluoride pollution when discharged into the atmosphere. Fluoride can enter the human body through the respiratory tract, digestive tract and skin , has a toxic effect on the central nervous system and myocardium, and low-concentration fluorine pollution can lead to brittle calcification of teeth and bones. The discharge standard of fluoride must be lower than 5.0mg / m2 in the "Ceramic Industry Pollutant Discharge Standard" (GB25464-2010) 3 Therefore, using fluoride as a low-temperature sintering aid for magnesia ceramics will inevitably increase the emission of gaseous fluoride and increase the burden of environmental protection investment; in addition, fluoride ions in the residual solid-solution fluoride in ceramics exist in the form of replacing oxygen ions, resulting in crystal The chemical stability of the intergranular bonding is reduced, and it is difficult to resist the long-term erosion of flux inclusions in the magnesium melt
Water glass, silica sol and ethyl silicate are used as binders in the preparation slurry of the disclosed ceramic foam filters such as Chinese patent literature CN101138691A, and the SiO between the sintered ceramic foam particles 2 The presence of components makes it easy to react with magnesium and its alloy melts according to (4), which also reduces the chemical stability of foamed ceramics
However, diboron trioxide is easy to react with magnesium and aluminum, and is not stable in magnesium and aluminum alloy melts; at the same time, because diboron trioxide is soluble in solvents such as water and ethanol, it can strongly absorb water in the air to form boric acid. The diboron trioxide added in the preparation process of foam ceramics is dissolved in water to form a boric acid aqueous solution, which is easy to react with magnesium oxide to form magnesium borate precipitation and reduce its effect
Gallium oxide is a homogeneous oxide of diboron trioxide, which forms spinel-type MgGa with magnesium oxide at a lower temperature 2 o 4 It plays a role in reducing the sintering temperature, but the amount of gallium resources is very small (gallium is a strategic reserve metal), and the high price of gallium oxide limits its application in ordinary ceramics.

Method used

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  • MA-M2T spinel solid liquor enhanced magnesium oxide based foam ceramic filter and preparation method thereof
  • MA-M2T spinel solid liquor enhanced magnesium oxide based foam ceramic filter and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0047] According to the ratio that nano-titanium oxide accounts for 1% of the ceramic powder quality, the weighing particle diameter is 30nm nano-titanium oxide and the particle diameter is 250 orders (middle diameter d 50 Prepare ceramic powder for 58 μm) fused magnesia powder; mix and prepare rheological agent according to the mass ratio of polyacrylic acid and hydroxyethyl cellulose at a ratio of 1:4.

[0048] According to mass percentage, 15% of nano-alumina sol with a solid content of 20% (select a commercial nano-alumina sol with a nearly neutral pH value, the same below), 0.8% of rheological agent, and the rest are ceramic powders for batching. First, add the fused magnesia powder into the ball mill tank according to the proportion, and prepare the nano-aluminum sol, rheological agent and appropriate amount of deionized water (the amount to be added according to the solid content of the ceramic slurry, the same below) to prepare a solution Add nano-titanium oxide powder...

Embodiment 2

[0052] Account for the proportioning of 2% of ceramic powder quality according to nano-titanium oxide, weighing particle diameter is the nano-titanium oxide of 60nm and particle diameter is 500 orders (middle diameter d 50 Prepare ceramic powder for fused magnesia powder (25 μm); mix and prepare rheological agent according to the mass ratio of polyacrylic acid and hydroxypropyl methylcellulose at a ratio of 1:4.

[0053]According to mass percentage, 20% of nano-aluminum sol with a solid content of 25%, 1.5% of rheological agent, and the rest are ceramic powder for batching. First, add the fused magnesium oxide powder into the ball mill tank according to the proportion, prepare nano-aluminum sol, rheological agent and appropriate amount of deionized water into a solution, add nano-titanium oxide powder, and ultrasonically treat it for 45 minutes to make the nano-titanium oxide powder After fully dispersing in the solution, add it to the ball mill tank, then add corundum balls a...

Embodiment 3

[0057] Account for the proportioning of 1.5% of the ceramic powder quality according to nano-titanium oxide, weigh the nano-titanium oxide and the particle diameter of 50nm as 325 orders (median diameter d 50 Prepare ceramic powder for fused magnesia powder (45 μm); mix and prepare rheological agent according to the mass ratio of polyacrylic acid and hydroxyethyl cellulose at a ratio of 1:4.

[0058] According to mass percentage, 25% of nano-alumina sol with a solid content of 22%, 1.0% of rheological agent, and the rest are ceramic powder for batching. First, add the fused magnesia powder into the ball mill tank according to the ratio, prepare nano-aluminum sol, rheological agent and appropriate amount of deionized water into a solution, add nano-titanium oxide powder, and ultrasonically treat it for 60 minutes to make the nano-titanium oxide powder After fully dispersed in the solution, add it to the ball mill tank, then add corundum balls according to the ratio of ball to m...

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Abstract

The invention discloses an MA-M2T spinel solid liquor enhanced magnesium oxide based foam ceramic filter which can realize sintering at the low temperature and has excellent chemical stability and thermal shock resistance and a preparation method of the foam ceramic filter. The preparation method comprises steps as follows: (1) 15%-25% of nano aluminum sol, 0.8%-1.5% of a rheological agent and thebalance of magnesium oxide ceramic powder containing a nano titania sintering aid are prepared in percentage by mass, deionized water is added, the mixture is subjected to ball milling and uniform mixing, and ceramic slurry with the solid content of 60%-70% is prepared through vacuum exhausting; (2) a polyurethane foam plastic template is soaked in the ceramic slurry and is extruded by a roller press to remove redundant soaked hanging slurry, a biscuit is prepared, and the biscuit is heated to 80-120 DEG C and dried; (3) the dried biscuit is put in a sintering furnace, heated to 1,400-1,600 DEG C for high-temperature sintering and cooled to the room temperature with the furnace, and the magnesium oxide based foam ceramic filter is obtained.

Description

technical field [0001] The invention relates to a magnesium oxide-based foam ceramic filter and a preparation method thereof, in particular to a MA-M 2 The invention discloses a T spinel solid solution reinforced magnesium oxide-based foam ceramic filter and a preparation method thereof, belonging to the field of metal materials and metallurgy. The filter prepared by the invention is particularly suitable for filtering and purifying magnesium and its alloy melts, and can also be used for filtering and purifying aluminum and its alloy melts. Background technique [0002] Magnesium is chemically active. During casting and processing, it is very easy to chemically react with oxygen, nitrogen and water vapor. The resulting products remain in the magnesium, affecting the internal quality of the product and deteriorating the performance of the product. According to the types and properties of inclusions in magnesium alloys, inclusions are generally divided into two categories: me...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/04C04B35/634C04B35/636C04B35/80C04B38/06B01D71/02
CPCB01D71/024C04B35/04C04B35/63404C04B35/6365C04B35/80C04B38/0615C04B2235/3234C04B2235/6562C04B2235/5436C04B2235/3222C04B35/053C04B35/62665C04B2235/3232C04B2235/5454C04B2235/3218C04B35/6261C04B35/6263C04B2235/6028C04B2235/80C04B2111/00793B01D67/0041B01D71/025B01D39/2093B01D2239/10B01D67/00041
Inventor 丁之光刘子利刘希琴叶兵丁文江
Owner FENGYANG L S NET FORMING CO LTD
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