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Formula, preparation method and application of LAS-series glass ceramic abrasive binding agent

A glass-ceramic and bonding agent technology, applied in abrasives, manufacturing tools, metal processing equipment, etc., can solve the problems of insufficient content of microcrystalline phase, polluted macrofluoride, low microcrystallization temperature, etc. The effect of low crystallization heat treatment temperature, high apparent porosity and moderate density

Active Publication Date: 2018-12-18
DALIAN POLYTECHNIC UNIVERSITY
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For the patent of "a glass-ceramic bond for diamond composite materials" (CN 102531400 A), it is only applicable to the production of diamond materials, and the glass formula also uses highly polluting fluoride
[0004] In the prior art, such as in ZL201110049834.8, microcrystalline vitrified bonded billet grinding wheel is prepared by high-temperature sintering at 1150°C. The process is complex and the sintering temperature is high, which limits its application range; in ZL201510344724.2, boron glass is used for 20- 40%, feldspar 22-43%, nepheline powder 10-35%, clay 5-13%, lithium carbonate 2-5%, chromium oxide 3-13% to prepare vitrified bond, sintering temperature is 1000℃, micro The crystal size is 12.8-22.9 μm, the performance improvement is limited, and the sintering temperature is still high
It can be seen that there is a contradiction in the use of glass-ceramic as the binder for abrasive tool production, that is, SiO 2 and Al 2 o 3 If the content is insufficient, the required microcrystalline phase cannot be obtained. If the composition requirements are met, because they are refractory oxides, the melting temperature and microcrystallization temperature must be increased. How to use other auxiliary components and adjust their dosage is to obtain low The key technology of melting temperature and low crystallization temperature
[0005] In addition, the existing bonding agent is only suitable for the preparation of one kind of abrasive tools, and a group of glass formulas to meet the use of multiple varieties of abrasive tools has not been reported yet.

Method used

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  • Formula, preparation method and application of LAS-series glass ceramic abrasive binding agent
  • Formula, preparation method and application of LAS-series glass ceramic abrasive binding agent
  • Formula, preparation method and application of LAS-series glass ceramic abrasive binding agent

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Experimental program
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Effect test

Embodiment 1

[0036] Glass-ceramics were prepared by conventional methods, from Na 3 PO 4 and KNO 3 Introduce flux alkali metal oxide Na 2 O and K 2 O. By (wt%): SiO 2 48, Al 2 o 3 20, Li 2 O 8, B 2 o 3 15.5, Na 2 O 1,K 2 O 1, MgO 1, ZnO 1, BaO 0.5, TiO 2 4. Accurately weigh and mix evenly, first pre-fire at 900°C for 0.5h with a silicon carbide rod electric furnace, then raise to 1200-1300°C at a rate of 5°C / min, keep warm for 2-4h to obtain molten glass.

[0037] Part of the molten glass is poured into a preheated mold for molding, annealed in a muffle furnace to obtain a basic glass sample, which is used to observe the main crystal phase and morphology characteristics of the glass-ceramic, measure the thermal expansion coefficient, and conduct thermal analysis, etc. The nucleation temperature and crystallization temperature of the crystal glass, formulate the heat treatment temperature system; the remaining glass liquid is water-quenched, dried, crushed and sieved to obta...

Embodiment 2

[0040] By (wt%): SiO 2 50, Al 2 o 3 18.Li 2 O 7, B 2 o 3 12, Na 2 O2,K 2 O1, MgO3, ZnO2, BaO1, TiO 2 4. Accurately weigh and mix evenly, first use a silicon carbide rod electric furnace to pre-fire at 900°C for 0.5h, then raise it to 1200-1300°C at a rate of 5°C / min, and keep it warm for 2-4h to obtain molten glass. After being released from the furnace, the samples used for performance testing are poured into preheated molds and placed in a muffle furnace for annealing; the rest of the molten glass is crushed, dried and ground for later use.

[0041] The formed basic glass was subjected to heat treatment, and the process conditions were: nucleation temperature 480°C, crystallization temperature 670°C, heat preservation for 2 hours, and a glass-ceramic sample was obtained. see image 3 , the XRD diffraction peaks of the glass-ceramic sample are consistent with the data of the JCPDF#35-0706 card, indicating that the main crystal phase of the glass-ceramics after he...

Embodiment 3

[0043] By (wt%): SiO 2 56.07, Al 2 o 3 16.16, Li 2 O 6.23, B 2 o 3 8.31, Na 2 O 0.9,K 2 O 0.97, MgO 4.15, ZnO 2.08, BaO 0.52, TiO 2 4.15; Accurately weigh and mix evenly, pre-fire in a silicon carbide rod electric furnace at 900°C for 0.5h, then raise to 1200-1300°C at a rate of 5°C / min, keep warm for 2-4h, obtain molten glass, and take it out of the furnace , the samples used for performance testing are poured into the preheated mold and annealed; the remaining glass liquid is crushed, dried and ground for later use.

[0044] The formed basic glass was subjected to heat treatment, and the technological conditions were: nucleation temperature 490°C, crystallization temperature 680°C, heat preservation for 2 hours, and a glass-ceramic sample was obtained. see Figure 5 , the XRD diffraction peaks of the glass-ceramic sample are consistent with the J JCPDF#35-0794 card data, indicating that the main crystal phase of the glass-ceramics after heat treatment is β-spodu...

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Abstract

The invention discloses a formula, preparation method and application of an LAS-series glass ceramic abrasive binding agent and belongs to the field of glass ceramic abrasive tools. The LAS-series glass ceramic abrasive binding agent is prepared from, by mass, 4-9% of Li2O, 14-20% of Al2O3, 48-58% of SiO2, 8-16% of B2O3, 0.8-2.2% of Na2O, 0.8-1.2% of K2O, 1-4.5% of MgO, 1-3% of ZnO, 0.5-1.5% of BaO and 3.5-4.5% of TiO2. The melting temperature is 1200-1300 DEG C, the sintering temperature is 600-780 DEG C, the coefficient of thermal expansion is small, the adjustable characteristic is achieved, the wettability is good, the agent is suitable for preparing abrasive tools with abrasives such as white corundum, green silicon carbide and artificial diamond, and the tools are moderate in density, low in water absorption rate and high in apparent porosity and breaking strength, have a good chip containing space and good abrasive holding force and are not prone to falling off in the machiningprocess.

Description

technical field [0001] The invention belongs to the technical field of abrasive tools, and in particular relates to a formulation of a LAS series glass-ceramic abrasive bond, a preparation method and application thereof, including a firing process of abrasive tools. Background technique [0002] Glass-ceramic bond belongs to the category of vitrified bond, and at the same time, it takes into account the characteristics of vitrified bond and resin bond. However, in terms of low melting, glass-ceramic bonds also have problems, not only high melting temperature and high energy consumption; aspects of application. Because diamond starts to carbonize at about 700°C in the air environment, and starts to carbonize at about 800°C in a vacuum environment, so if the diamond abrasive is not coated, the minimum requirement for the firing temperature of the diamond abrasive is not higher than 800°C. [0003] In order to solve the problem of high firing temperature of the glass-ceramic ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B24D3/14
CPCB24D3/14
Inventor 姜妍彦程昆李正
Owner DALIAN POLYTECHNIC UNIVERSITY
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