CN102491707A - Method of preparing baking-free load-bearing bricks through steam curing of semidry desulfurization residues - Google Patents

Abstract

The invention discloses a method of preparing baking-free load-bearing bricks through steam curing of semidry desulfurization residues, belonging to the technical fields of environmental engineering and preparation of construction material. According to the invention, a gelling agent is prepared from semidry desulfurization slag and multi-component powder and is uniformly mixed with inert sandy aggregate in a mixer, water accounting for 10 to 46% of the mass of solid powder is added and uniformly mixed with the solid powder, an obtained mixture undergoes pressure forming and demolding so as to obtain green bricks, and the green bricks are subjected to steam curing at a temperature of 40 to 90 DEG C for 1 to 7 d so as to obtain baking-free bricks with sufficient strength; the baking-free bricks can meet different strength requirements for load-bearing bricks of a model number in a range of MU10 to MU30, have excellent water resistance and can be used as exterior wall tiles. According to the invention, the problem that comprehensive utilization of semidry desulfurization gypsum is not easy due to complex composition of the semidry desulfurization gypsum is overcome; effective usage of solid waste in production of the baking-free bricks which cost less than conventional sintered clay bricks do has great significance to energy conservation and environmental protection.

Description

Utilize the steam-cured method for preparing no-baking bearing brick of semi-dry desulphurization waste residue

Technical field

The invention belongs to environment-friendly engineering and material of construction preparing technical field, be specifically related to a kind of steam-cured method for preparing no-baking bearing brick of semi-dry desulphurization waste residue of utilizing.

Background technology

After coal-fired flue gas desulfurization purifies again in atmosphere discharging be a fast-developing both at home and abroad green technology, extensively adopted in each major industry field, wherein can produce a large amount of desulfurated plasters during as the desulfurization medium with lime or slaked lime.Early stage desulfurization technology is main with wet method and dry method dual mode, and wet desulphurization produces the desulfurated plaster of a large amount of sludge-like, and the product of dry desulfurization is generally discharged with flyash or slag, can not discharge desulfurated plaster separately.The gypsum of wet desulphurization is widely used at present produces all kinds of material of construction, the number of patents technology has been arranged and formed the technical system that a cover is mature on the whole.

Semi-dry desulphurization is one type of fast-developing in recent years desulfurization technology, compares with wet desulphurization, have do not produce sewage, desulfurization product without dewatered drying, take up an area of less, characteristics such as investment is little and cost is low.Therefore, compare with wet desulphurization, semi-dry desulphurization has the progress of leap property aspect energy-saving and emission-reduction.But the thing phase composite of semi-dry desulphurization slag is complicated far beyond the wet desulphurization slag, thereby makes the processing of dry desulfurization slag and utilization become difficult, becomes one of bottleneck of semi-dry desulphurization complete set technology popularization.

Invention CN101352893B is the raw material production dry-mixed mortar with semi-dry processed desulfurization gypsum and blast furnace granulated slag.This invents by weight percentage that the slag powders of 10-30% and the semi-dry processed desulfurization gypsum of 10-30% and the medium sand of 60-80% mix in mixer, obtain doing and mix masonry mortar, and 28 days ultimate compression strength of mortar are between 8-20MPa.But also there is following problems in this mortar: 1. its early strength is on the low side, it is used receive more restriction; 2. the volume of desulfurization slag in mortar is too low, makes the cost of this kind dry-mixed mortar higher, and is unfavorable for handling in a large number and utilizing desulfurization slag; 3. the long wearing of this kind building mortar does not obtain checking as yet, and experiment shows the influence that postpones generation because of ettringite, and its longterm strength possibly seriously descend even because of swelling cracking, it is used risk and can not be ignored.

Summary of the invention

The objective of the invention is to the above-mentioned defective that exists in the prior art; Provide a kind of with the semi-dry desulphurization slag be main raw material through the steam-cured method for preparing no-baking bearing brick, adopt the no-baking bearing brick of the inventive method preparation can reach the needed intensity of external wall heavy-load bearing brick, weather resistance and water tolerance.

The inventive method comprises the step of following order:

(a) semi-dry desulphurization slag, this desulfurization slag be pearl to the ecru fines, median size is 4-10um, the BET specific surface area is 2-10m ²/ g; It consists of: the quality percentage composition is the CaO of 40-50%, the SO of 8-16% ₃, 10-18% SO ₂, the MgO of 1-3%, the TFe of 1-2%, the SiO of 0.2-1.0% ₂, 0.4-0.6% Al ₂O ₃, 1-5% K ₂The Na of O, 0.1-0.5% ₂The muriate of O, 1-5%, the loss on ignition of 15-25%; Its radionuclide amount meets GB6566-2010 construction main body material radionuclide content index, i.e. I _Ra≤1.0B _q/ Kg, I _γ≤1.0B _qThe requirement of/Kg (detection method is GB11743-89);

(b) ground granulated blast furnace slag, this slag powders are that the shrend waste residue that iron-smelting blast furnace is discharged is finely ground to powder, are preferably to meet GBFS S95 and/or the S105 that GBT18046-2008 requires;

(c) silicate cement or Portland clinker powder;

(d) unslaked lime or dry hydrate are preferably the grinding that meets JCT479-92 and tail over 10% the for building calcareous calcium lime powder that is less than total mass to 80um;

(e) flyash, the dust of discharging in coal-burning power plant's smokestack is preferably the I level and/or the II level F class flyash that meet GB/T1596-2005;

(f) fine sand in gathering materials promptly is unreactive aggregate such as river sand and/or mountain sand and/or desert sand and/or Gobi desert sand and/or extra large sand and/or CHARACTERISTICS OF TAILINGS SAND and/or the rock powder of classification to the requirement of medium sand that meets the GB/T1468-200 regulation and fine sand;

(2) the raw material (a) and (b) in the step (1), (c), (d), (e) are hybridly prepared into jelling agent; Wherein, the quality percentage composition of each raw material is: the cement of the desulfurization slag of 50-80wt%, the slag powders of 10-35wt%, 2-20wt%, the lime powder of 2-5wt%, the flyash of 5-15wt%;

(3) with in the jelling agent of step (2) gained and the step (1) gather materials and water is uniformly mixed into leather hard, wherein, aggregate quality accounts for the 0-75% of jelling agent and aggregate quality summation, wc is that the mass ratio of water and jelling agent powder is 0.10-0.46; Wc and forming pressure need be complementary, and low usually wc is corresponding to high forming pressure;

(4) mixture with step (3) gained fills mould, and compression moulding then, the demoulding with the adobe after the demoulding in 40-90 ℃ of water vapor maintenance 1-7 days, promptly got no-baking bearing brick in moisture-keeping maintaining 0-21 days at normal temperatures then; Usually can reach 80% of final strength in steam-cured 3 days.

Further, said compression moulding is adopted hydrostatic profile or is shaken molded; Forming pressure during hydrostatic profile is preferably 3-80MPa.Shake when molded, general shaking is pressed into the shaped brick machine also can satisfy the moulding requirement.

The present invention has following advantage than prior art: 1. the desulfurization slag volume is big, thereby the waste residue utilization rate is increased, and the goods cost reduces; 2. the early strength of goods is big, and curing time is short, can enhance productivity greatly, thereby make goods that better cost performance arranged; 3. through the lift velocity of steam-cured raising product strength, avoided ettringite to postpone to generate disadvantageous effect simultaneously to goods longterm strength and weather resistance; 4. not being merely green building material provides a kind of raw material sources of new economy, can also handle and utilize the semi-dry desulphurization slag effectively.

Embodiment

Below in conjunction with concrete experiment embodiment the present invention is described in further detail.

(1) half-dried pressure hydrostatic profile instance: the preparation case process technical parameter of half-dried pressure hydrostatic profile when table 1 is listed in the wc of 0.1-0.33.Test raw materials used: semi-dry desulphurization slag, this desulfurization slag be pearl to the ecru fines, dispersiveness and good fluidity, median size is 4-10um, the BET specific surface area is 2-10m ²/ g, it consists of: the quality percentage composition is the CaO of 40-50%, the SO of 8-16% ₃, 10-18% SO ₂, the MgO of 1-3%, the TFe of 1-2%, the SiO of 0.2-1.0% ₂, 0.4-0.6% Al ₂O ₃, 1-5% K ₂The Na of O, 0.1-0.5% ₂The muriate of O, 1-5%, the loss on ignition of 15-25%, its radionuclide amount meet GB6566-2010 construction main body material radionuclide content index, i.e. I _Ra≤1.0B _q/ Kg, I _γ≤1.0B _qThe requirement of/Kg (detection method is GB11743-89); The S95 GBFS; 80um tails over 10% the calcium lime powder that is less than total mass; I level F class flyash; The PC32.5 composite Portland cement; The not specified river sand that is the medium sand grade gathers materials.At first, be respectively that the mixed of flyash of lime powder, the 5-15wt% of cement, the 2-5wt% of slag powders, the 2-20wt% of desulfurization slag, the 10-35wt% of 50-80wt% is mixed with jelling agent according to the quality percentage composition of each raw material.Then, jelling agent is filled mould after being uniformly mixed into the mixture of leather hard with water with gathering materials.The aggregate-to-cement ratio mass ratio with the jelling agent powder that refers to gather materials.Die trial is the punching block of interior empty 125 * 40 * 25mm, and the water chestnut cylinder test block of moulding is of a size of: 125 * 25 * 20～25mm, the test block after the moulding is a direct demold.After the demoulding under design temperature airtight steam-cured 7 days again mark support to 28 days, the test block that needs to survey full water ultimate compression strength is soaked preceding 1 day of survey.The performance data of each instance is seen table 2.Ultimate compression strength data in the table 2 are the data of the direct pressurized of single test block, and load face is 125 * 20～25mm.28 days ultimate compression strength of each test block (or more early the ultimate compression strength in the length of time) are 11-47MPa.Each instance can satisfy each model heavy-load bearing brick corresponding strength requirement between MU10～MU30 respectively, and the softening system number average is greater than 0.8, average out to 1.0, and explanation has excellent water-resistance.The full water-mass density of each test block is 1.9-2.1, baking density 1.7-1.8, and immersion quality half a year is not lost in water, does not have obviously softening characteristic yet.

The half-dried pressure hydrostatic profile of table 1 examples preparation processing parameter

^*Not specified gathering materials is the river sand of medium sand grade; The mountain is thin: mountain sand, grade are fine sand; The ore deposit is thin: CHARACTERISTICS OF TAILINGS SAND, grade are fine sand.

(2) standard square production instance: table 3 is listed with brick machine molded standard square (240 * 115 * 53mm) the detection data of shaking.The vibratory compaction full automatic control of brick machine, 56 blocks of standard squares of once shaped, each detects the MV that data are at least 3 standard squares detection data in the table.Wherein the detection of ultimate compression strength is undertaken by the detection method of non-fired common brick in the GB/T2542-2003 Test methods for wall bricks 7.3.1.3 joint.Test raw materials used: S105 GBFS, 80um tail over 10% dry hydrate, II level F class flyash, the PC32.5 composite Portland cement that is less than total mass, and gathering materials is river sand, and grade is a medium sand.Shaking after molded is direct demold.After the demoulding under design temperature airtight steam-cured 5 days earlier, sprinkle water at interval maintenance to 28 at room temperature day of overlay film again.Each instance can satisfy each model heavy-load bearing brick corresponding strength requirement between MU10～MU30 respectively.

The half-dried pressure hydrostatic profile of table 2 instance performance

The table 3 molded standard square instance that shakes

Claims (2)

1. one kind is utilized the steam-cured method for preparing no-baking bearing brick of semi-dry desulphurization waste residue, it is characterized in that comprising the step of following order:

(1) prepare following several kinds of raw materials:

(a) semi-dry desulphurization slag, this desulfurization slag be pearl to the ecru fines, median size is 4-10um, the BET specific surface area is 2-10m ²/ g; It consists of: the quality percentage composition is the CaO of 40-50%, the SO of 8-16% ₃, 10-18% SO ₂, the MgO of 1-3%, the TFe of 1-2%, the SiO of 0.2-1.0% ₂, 0.4-0.6% Al ₂O ₃, 1-5% K ₂The Na of O, 0.1-0.5% ₂The muriate of O, 1-5%, the loss on ignition of 15-25%; Its radionuclide amount meets GB6566-2010 construction main body material radionuclide content index;

(b) ground granulated blast furnace slag, this slag powders are that the shrend waste residue that iron-smelting blast furnace is discharged is finely ground to powder, are preferably to meet GBFS S95 and/or the S105 that GBT18046-2008 requires;

(c) silicate cement or Portland clinker powder;

(d) unslaked lime or dry hydrate are preferably the grinding that meets JCT479-92 and tail over 10% the for building calcareous calcium lime powder that is less than total mass to 80um;

(e) flyash, the dust of discharging in coal-burning power plant's smokestack is preferably the I level and/or the II level F class flyash that meet GB/T1596-2005;

(f) fine sand in gathering materials promptly is unreactive aggregate such as river sand and/or mountain sand and/or desert sand and/or Gobi desert sand and/or extra large sand and/or CHARACTERISTICS OF TAILINGS SAND and/or the rock powder of classification to the requirement of medium sand that meets the GB/T1468-200 regulation and fine sand;

(2) the raw material (a) and (b) in the step (1), (c), (d), (e) are hybridly prepared into jelling agent; Wherein, the quality percentage composition of each raw material is: the lime powder of the slag powders of the desulfurization slag of 50-80 wt%, 10-35 wt%, the cement of 2-20wt%, 2-5 wt%, the flyash of 5-15 wt%;

(3) with in the jelling agent of step (2) gained and the step (1) gather materials and water is uniformly mixed into leather hard, wherein, aggregate quality accounts for the 0-75% of jelling agent and aggregate quality summation, wc is that the mass ratio of water and jelling agent powder is 0.10-0.46;

(4) mixture with step (3) gained fills mould, and compression moulding then, the demoulding with the adobe after the demoulding in 40-90 ℃ of water vapor maintenance 1-7 days, promptly got no-baking bearing brick in moisture-keeping maintaining 0-21 days at normal temperatures then.

2. the steam-cured method for preparing no-baking bearing brick of semi-dry desulphurization waste residue of utilizing according to claim 1 is characterized in that: said compression moulding is adopted hydrostatic profile or is shaken molded; Forming pressure during hydrostatic profile is preferably 3-80MPa.