CN1562855A - Method for fabricating plates made from fine concrete modified by epoxy emulsion - Google Patents
Method for fabricating plates made from fine concrete modified by epoxy emulsion Download PDFInfo
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- CN1562855A CN1562855A CN 200410026757 CN200410026757A CN1562855A CN 1562855 A CN1562855 A CN 1562855A CN 200410026757 CN200410026757 CN 200410026757 CN 200410026757 A CN200410026757 A CN 200410026757A CN 1562855 A CN1562855 A CN 1562855A
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- cement
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Abstract
By this method, epoxy can be cross-linked, solidified, formed to film in early stage to make cement fine concrete form epoxy net layer slotting structure when cement concrete is modified in board material producing. The method is to mix epoxy emulsion and water according to polyash ratio 20:100-45:100 and water ash ratio 33:100 into cement, fine aggregate andp earlstone powder to be stirred to form epoxy cement paste, then to put room-temp. stype amines curing agent into the epoxy cement paste to fully stir to make cement concrete forming asphalt alite with epoxy net layer slotting structure, finally asphalt alite is processed to board material.
Description
Technical field
The present invention relates to a kind of method of making sheet material with epoxy emulsion modified cement fine concrete.
Background technology
In the process of making goods such as cement concrete sheet material, all need cement concrete is carried out modification to improve the over-all properties of its goods at present.About modified cement mortar or concrete method, industry proposed many models both at home and abroad, and wherein foremost is Ohamam model, Konietzko model, Puterman model and Malorny model.They all are will polymkeric substance, solidifying agent mixes in the cement fine concrete after mixing again, and polymkeric substance is to form film under sand-cement slurry or concrete lose the situation of moisture content, thereby improves functions such as folding strength, the waterproof, seepage control of cement fine concrete be saturating.Chinese patent publication number CN1267649, open day on September 27th, 2000, the method that a kind of name is called the modified cement-concrete of " with the method for condensate of melamine sulfonate and formaldehyde to cement concrete modifying " is disclosed, it is that admixture comes cement concrete is carried out modification with trimeric cyanamide sulfonic acid (trihydroxyethyl methyl quaternary ammonium) salt formaldehyde condensation products, and purpose is the flowing property of refinforced cement goods making processes.But, the same with aforementioned multiple model, also there is following problems in it: when mixing the cement fine concrete again after polymkeric substance, solidifying agent are mixed and carrying out modification, only could film forming when the later stage of hydrated reaction of cement loses moisture content, cement fine concrete crosslinking curing speed should not be grasped, solidification effect is bad, system viscosity is big, make functions such as its folding strength, waterproof, seepage control be saturating not reach the ideal designs requirement, can not large-scale industrial production and construction.
Summary of the invention
Technical problem to be solved by this invention is to overcome the deficiencies in the prior art, a kind of method of making sheet material with epoxy emulsion modified cement fine concrete is provided, when using this method and carrying out cement concrete modifying, epoxy can be just crosslinked in early days at hydrated cementitious, film-forming, crosslinking curing speed is easy to grasp, solidification effect is good, can make the cement fine concrete form epoxy network intercalation shape structure, thereby make the sheet material folding strength of making according to this method, functions such as waterproof, seepage control is saturating can reach the ideal designs requirement, has lightweight, waterproof, mildew-resistant, corrosion-resistant, fire prevention, anti-freeze thawing, dry linting slag not, permeable steam, multifunctionalities such as heat-insulation and heat-preservation, and can large-scale industrial production.
The technical solution adopted in the present invention is that the present invention carries out according to following step:
(1) determine raw material and composition by weight thereof:
With 100 parts of cement, polymer cement ratio is 20: 100 to 45: 100, water cement ratio is to determine raw material and composition by weight thereof at 33: 100, described cement comprises the cement II that is used to make the cement I of epoxy cement slurry and is used for crosslinking agent, described solidifying agent is the amine or the room temperature curing type modified amine of room temperature curing type, described solidifying agent and described cement II to add proportional be 1: 3, described polymer cement ratio is represented solid content and the summation of described solidifying agent and the weight ratio between the cement of epoxy in the epoxy emulsion, the ratio of the solid content of epoxy and described solidifying agent is 120: 50 in the wherein said epoxy emulsion, described epoxy emulsion is that solid content is 50% non-ionic type epoxy emulsion, described water cement ratio is represented water in the described epoxy emulsion and the weight ratio between make up water sum and the described cement, cement I described in the described epoxy cement slurry: meticulous aggregate: pearl salt powder: the alkali resistant glass is 100: 80: 5.7: 1.9, and determine each material component by above-mentioned parameter and be:
17.65~39.71 parts of 82.35~60.29 parts of cement II of cement I
4.69~3.44 parts in 65.88~48.23 portions of pearl salt of meticulous aggregate powder
28.24~63.52 parts of 1.56~1.15 parts of epoxy emulsions of alkali resistant glass
18.88~1.24 parts of 5.88~13.24 parts of make up water of solidifying agent
(2) set by step (1) described weight part is incorporated into described epoxy emulsion and described make up water in described cement I, described meticulous aggregate, described pearl salt powder and the described alkali resistant glass and stirs, after 30 to 60 minutes mixing, form described epoxy cement slurry;
(3) set by step (1) described weight part with described solidifying agent under the addition of described cement II through 30 to 60 minutes thorough mixing;
(4) the described solidifying agent with addition joins in the described epoxy cement slurry, fully stirs through 10 to 15 minutes, makes cement concrete form the cement stone of the epoxy network intercalation shape structure of paste;
(5) the cement stone of the epoxy network intercalation shape structure of described paste is processed into sheet material.
Described meticulous aggregate is a silica powder.
The invention has the beneficial effects as follows: because the present invention mixes in cement, meticulous aggregate, light material by certain water cement ratio, polymer cement ratio epoxy emulsion earlier and stirs, form the epoxy cement slurry, to join through the solidifying agent of the meticulous stopping composition addition of water-absorbent in the polymer water slurry body then, after fully stirring, make cement concrete form the cement stone of the epoxy network intercalation shape structure of paste, again the cement stone of the epoxy network intercalation shape structure of described paste is processed into sheet material, so can produce following effect:
Epoxy can be at hydrated cementitious in early days with regard to crosslinked, film-forming, in the early stage moulding of cement products, the demoulding, heavy construction leak stopping, waterproof, repairing, the finishing material construction as sizing agent paste, anticorrosion, surface decoration and protection etc. bring more advanced implementation method;
Epoxy can be in the early stage film forming of hydrated cementitious, and it can seal the pore in sand-cement slurry or the concrete in advance, and it is volatilized that moisture content is difficult for, thus the hydration reaction of longer maintenance cement, thus help facilitating of silicate product later strength;
Epoxy can be in the early stage film forming of hydrated cementitious, and along with the reaction of hydrated cementitious, moisture content is fewer and feweri, in the regular hour, just can form three-dimensional reticulated structure, save the addition of epoxy, thereby make cement structures keep good water tolerance also still to have certain ventilation property, the high-strength performance of bringing into play Resins, epoxy simultaneously improves folding strength, the ultimate compression strength of cement products greatly;
The solid content of epoxy emulsion of the present invention is that the function according to desired product designs, and determines that by water cement ratio and polymer cement ratio solidifying agent is also determined by it, can require make multiple batching reach scientific formula according to different designs, thereby save the energy.
Therefore, use sheet material that modified cement fine concrete of the present invention manufactures and have lightweight, waterproof, mildew-resistant, corrosion-resistant, fire prevention, anti-freeze thawing, multifunctionalities such as dry linting slag, permeable steam, heat-insulation and heat-preservation not, and can large-scale industrial production.
Description of drawings
Fig. 1 is a process flow sheet of the present invention.
Embodiment
The present invention is when sheet material is manufactured in modification to the cement fine concrete with epoxy emulsion, epoxy emulsion and suitable solidifying agent are divided into two different unit, design is by a certain percentage stirred with cement, meticulous aggregate, light material, meticulous water-absorbing material thorough mixing respectively, and then converge and stir the method for making, the present invention is with its abbreviation " binary blend " method.Adopt the model of the epoxide modified cement fine concrete morphological structure of binary blending method, be called " binary blend " model, its structure-forming process is divided into following several stages:
Fs: when epoxy emulsion mixes stirring as the monobasic of " binary blend " method by certain polymer cement ratio, water cement ratio and cement, meticulous aggregate, light material etc., after the mixing through 30 to 60 minutes (or add powerful stirring can shorten the time), epoxy particle in the emulsion is evenly distributed in the cement slurry, forms the epoxy cement slurry.In this system, along with the aquation of cement, cement gel forms gradually, and epoxy emulsion promotes some straight, parallel, flaky or filamentary structures to form (as CaSO
42H
2O crystal, Ca (OH)
2Crystal also may be emulsion and hydrated cementitious product).This moment the Ca (OH) in the liquid phase
2The state that reaches capacity, epoxy particle is deposited on cement gel (can contain not hydrated cement in the gel) particulate surface simultaneously, in addition the Ca (OH) in the liquid phase
2When forming one deck gel of calcium silicate with the silicate reaction on mineral aggregate surface, some epoxy particles are also being adsorbed on the mineral aggregate surface.(manufacture formed article this moment is extremely low as timber intensity, and water-absorbent is equal to normal concrete, but material is stratified in the whole system.)
Subordinate phase: along with hydrated cementitious in the system constantly carries out, the water yield is reducing gradually, the cement gel structural development is to certain amount attitude, epoxy has the part particle to be limited in the pore of cement slurry, bigger hole is had close-burning epoxy particle to fill (the capillary-size pore size in the general cement slurry is between 0.2 to 2um, and the epoxy particle size is generally between 0.05 to 0.5um) in the mixture.Simultaneously as another yuan in " binary blend " method---solidifying agent mixed fully through 30 to 60 minutes under the addition of the meticulous stopping composition of water-absorbent; interact between them; active group polarity in the solidifying agent strengthens; owing to fill the effect of water-absorbing material; increased the specific surface area of active group,, curing crosslinked for mixing with epoxy particle lays the first stone.This moment, the solidifying agent with addition added in the epoxy cement slurry, fully stirred to make through 10 to 15 minutes very big chemical reaction has taken place in the system: after the solidifying agent of addition is met water, solidifying agent becomes more active particle, the meticulous suction filler of crosslinking agent has absorbed the water that is adhering to the epoxy particle interface simultaneously, thereby make this interface be in desiccation temporarily, then epoxy in this interface and solidifying agent are cross-linked into macromole and reaction film forming rapidly; More owing to be in exothermic phase during hydrated cementitious, impel temperature in the interface to meet or exceed epoxy particle and solidifying agent is crosslinked, the temperature of film-forming, make it film forming; Constantly react in the whole system, constantly film forming.Owing to crosslinked, curing reaction, the water in the emulsion more is separated, and is absorbed and then hydration reaction by cement, forms more gel conversely; Part meets that water becomes active particulate solidifying agent (meeting the amine that dissociates out behind the water), initiator enters cement slurry than in the macrovoid, with crosslinked, the curing reaction of epoxy particle that is limited in the pore, thus the film forming storage pore.
Phase III: owing to carrying out continuously of hydration process, water in the system is all absorbed gradually in the chemically-bonded water of cement hydration process and is gone, facilitated more gels to generate, the continuous web frame of three-dimensional after crosslinked final formation is solidified also constantly takes place in the amine ion that while epoxy particle and solidifying agent dissociate out.This structure interconnects cement-hydrate, also be to be entangled with mutually to be intertwined between them, and hardened cement paste finally also forms continuous structure, and their this web frames that tangles mutually condense in the mineral aggregate weighting material together and form the water mudrock structure form of having improved.
The quadravalence section: hardening of cement at the beginning, the three-dimensional web frame continuously of epoxy in the system is better than cement gel net continuous structure, this moment, film forming epoxy network sealed mortar, concrete surface, make in sand-cement slurry and the concrete system and contain moisture content, proceed hydration reaction, form epoxy network until hardening fully and insert lamellated water mudrock structure form.
As shown in Figure 1, the present invention utilizes above-mentioned principle, desired raw material is made the cement stone of the epoxy network intercalation shape structure of paste by following step:
(1) determine raw material and composition by weight thereof:
With 100 parts of cement, polymer cement ratio is 20: 100 to 45: 100, water cement ratio is to determine raw material and composition by weight thereof at 33: 100, described cement comprises the cement II that is used to make the cement I of epoxy cement slurry and is used for crosslinking agent, described solidifying agent is the amine or the room temperature curing type modified amine of room temperature curing type, described solidifying agent and described cement II to add proportional be 1: 3, described polymer cement ratio is represented solid content and the summation of described solidifying agent and the weight ratio between the cement of epoxy in the epoxy emulsion, the ratio of the solid content of epoxy and described solidifying agent is 120: 50 in the wherein said epoxy emulsion, described epoxy emulsion is that solid content is 50% non-ionic type epoxy emulsion, described water cement ratio is represented water in the described epoxy emulsion and the weight ratio between make up water sum and the described cement, cement I described in the described epoxy cement slurry: meticulous aggregate: pearl salt powder: the alkali resistant glass is 100: 80: 5.7: 1.9, and determine each material component by above-mentioned parameter and be:
17.65~39.71 parts of 82.35~60.29 parts of cement II of cement I
4.69~3.44 parts in 65.88~48.23 portions of pearl salt of meticulous aggregate powder
28.24~63.52 parts of 1.56~1.15 parts of epoxy emulsions of alkali resistant glass
18.88~1.24 parts of 5.88~13.24 parts of make up water of solidifying agent
(2) set by step (1) described weight part is incorporated into described epoxy emulsion and described make up water in described cement I, described meticulous aggregate, described pearl salt powder and the described alkali resistant glass and stirs, after 30 to 60 minutes mixing, form described epoxy cement slurry;
(3) set by step (1) described weight part with described solidifying agent under the addition of described cement II through 30 to 60 minutes thorough mixing;
(4) the described solidifying agent with addition joins in the described epoxy cement slurry, fully stirs through 10 to 15 minutes, makes cement concrete form the cement stone of the epoxy network intercalation shape structure of paste;
Utilizing the cement stone extrusion moulding of sheet-forming machine with the epoxy network intercalation shape structure of described paste again, was stripper plate in 24 to 48 hours through room temperature, and room temperature after five to seven days dispatch from the factory on request by the whole sanction of specification, packing.
Above-mentioned cement adopts the 425# ordinary Portland cement, and meticulous aggregate adopts the above silica powder of 200 orders, and pearl salt powder adopts the above pearl salt powder of 150 orders, and the alkali resistant glass adopts the long alkali resistant glass of 5cm, and it is 50% non-ionic type E that epoxy emulsion adopts solid content
44Emulsion or E
51Emulsion, it is 50% non-ionic type E that the present invention adopts solid content
44Emulsion.
The sheet material that utilizes the present invention to make has lightweight (ceramic approximately weight 3/5), waterproof (soaking suction≤3% in 72 hours), mildew-resistant, corrosion-resistant, fire prevention, anti-freeze thawing, multifunctionalities such as dry linting slag, permeable steam, heat-insulation and heat-preservation not, can be used for multiple use.
Embodiment 1:
Get 100 kilograms of cement, polymer cement ratio 20: 100, water cement ratio 33: 100, determine thus: cement I is that 82.35 kilograms, cement II are that 17.65 kilograms, silica powder are that 65.88 kilograms, pearl salt powder are that 4.69 kilograms, alkali resistant glass are that 1.56 kilograms, epoxy emulsion are that 28.24 kilograms, solidifying agent are that 5.88 kilograms, make up water are 18.88 kilograms.Be incorporated into epoxy emulsion and make up water in cement I, silica powder, pearl salt powder and the alkali resistant glass and stir, after 30 minutes mixing, form the epoxy cement slurry; With solidifying agent under the addition of cement II through 30 minutes thorough mixing; The solidifying agent of described addition is joined in the described epoxy cement slurry, fully stirred, make cement concrete form the cement stone of the epoxy network intercalation shape structure of paste through 15 minutes; Make sheet material by sheet-forming machine again, 48 hours stripper plates of room temperature (25 ℃) are cut out the use of can dispatching from the factory by specification is whole after the maintenance in 5 to 7 days.
The panel density of producing according to this prescription is 1.54g/cm
3, water ratio 3.28%, water-intake rate 15%, modulus of rupture 4.32MPa, tensile property 4.51MPa, the temperature rate 9.81% that rises, contract with dry rate 0.08%.
Embodiment 2:
Get 100 kilograms of cement, polymer cement ratio 45: 100, water cement ratio 33: 100, determine thus: cement I is that 60.29 kilograms, cement II are that 39.71 kilograms, silica powder are that 48.23 kilograms, pearl salt powder are that 3.44 kilograms, alkali resistant glass are that 1.15 kilograms, epoxy emulsion are that 63.52 kilograms, solidifying agent are that 13.24 kilograms, make up water are 1.24 kilograms.Be incorporated into epoxy emulsion and make up water in cement I, silica powder, pearl salt powder and the alkali resistant glass and stir, after 30 minutes mixing, form the epoxy cement slurry; With solidifying agent under the addition of cement II through 30 minutes thorough mixing; The solidifying agent of described addition is joined in the described epoxy cement slurry, fully stirred, make cement concrete form the cement stone of the epoxy network intercalation shape structure of paste through 10 minutes; Make sheet material by sheet-forming machine again, 48 hours stripper plates of room temperature (25 ℃) are cut out the use of can dispatching from the factory by specification is whole after the maintenance in 5 to 7 days.
The panel density of producing according to this prescription is 1.72g/cm
3, water ratio 2.87%, water-intake rate 1.32%, modulus of rupture 21.11MPa, tensile property 22.34MPa, the no temperature rate that rises, contract with dry rate 0.28% does not have behind 25 freeze-thaw cycle of freeze-thaw-and aliquation and crack performance occur.
Embodiment 3:
Get 100 kilograms of cement, polymer cement ratio 33: 100, water cement ratio 33: 100, determine thus: cement I is that 70.88 kilograms, cement II are that 29.12 kilograms, silica powder are that 56.7 kilograms, pearl salt powder are that 4 kilograms, alkali resistant glass are that 1.35 kilograms, epoxy emulsion are that 46.6 kilograms, solidifying agent are that 9.7 kilograms, make up water are 9.7 kilograms.Be incorporated into epoxy emulsion and make up water in cement I, silica powder, pearl salt powder and the alkali resistant glass and stir, after 30 minutes mixing, form the epoxy cement slurry; With solidifying agent under the addition of cement II through 30 minutes thorough mixing; The solidifying agent of described addition is joined in the described epoxy cement slurry, fully stirred, make cement concrete form the cement stone of the epoxy network intercalation shape structure of paste through 15 minutes; Make sheet material by sheet-forming machine again, 48 hours stripper plates of room temperature (25 ℃) are cut out the use of can dispatching from the factory by specification is whole after the maintenance in 5 to 7 days.
The panel density of producing according to this prescription is 1.66g/cm
3, water ratio 3.28%, water-intake rate 4.18%, modulus of rupture 8.51MPa, tensile property 8.66MPa, the temperature rate 0.188% that rises, contract with dry rate 0.194%, the internal radiation index is less than 0.09, and the external radiation exposure index reaches the A level less than 0.11, does not have behind 25 freeze-thaw cycle of frost resistance aliquation and crack performance to occur.
Claims (2)
1, a kind of method of making sheet material with epoxy emulsion modified cement fine concrete is characterized in that it carries out according to following step:
(1) decide raw material and composition by weight thereof:
With 100 parts of cement, polymer cement ratio is 20: 100 to 45: 100, water cement ratio is to determine raw material and composition by weight thereof at 33: 100, described cement comprises the cement II that is used to make the cement I of epoxy cement slurry and is used for crosslinking agent, described solidifying agent is the amine or the room temperature curing type modified amine of room temperature curing type, described solidifying agent and described cement II to add proportional be 1: 3, described polymer cement ratio is represented solid content and the summation of described solidifying agent and the weight ratio between the cement of epoxy in the epoxy emulsion, the ratio of the solid content of epoxy and described solidifying agent is 120: 50 in the wherein said epoxy emulsion, described epoxy emulsion is that solid content is 50% non-ionic type epoxy emulsion, described water cement ratio is represented water in the described epoxy emulsion and the weight ratio between make up water sum and the described cement, cement I described in the described epoxy cement slurry: meticulous aggregate: pearl salt powder: the alkali resistant glass is 100: 80: 5.7: 1.9, and determine each material component by above-mentioned parameter and be:
17.65~39.71 parts of 82.35~60.29 parts of cement II of cement I
4.69~3.44 parts in 65.88~48.23 portions of pearl salt of meticulous aggregate powder
28.24~63.52 parts of 1.56~1.15 parts of epoxy emulsions of alkali resistant glass
18.88~1.24 parts of 5.88~13.24 parts of make up water of solidifying agent
(2) set by step (1) described weight part is incorporated into described epoxy emulsion and described make up water in described cement I, described meticulous aggregate, described pearl salt powder and the described alkali resistant glass and stirs, after 30 to 60 minutes mixing, form described epoxy cement slurry;
(3) set by step (1) described weight part with described solidifying agent under the addition of described cement II through 30 to 60 minutes thorough mixing;
(4) the described solidifying agent with addition joins in the described epoxy cement slurry, fully stirs through 10 to 15 minutes, makes cement concrete form the cement stone of the epoxy network intercalation shape structure of paste;
(5) the cement stone of the epoxy network intercalation shape structure of described paste is processed into sheet material.
2, method of making sheet material with epoxy emulsion modified cement fine concrete according to claim 1, it is characterized in that: described meticulous aggregate is a silica powder.
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CN 200410026757 CN1283580C (en) | 2004-04-06 | 2004-04-06 | Method for fabricating plates made from fine concrete modified by epoxy emulsion |
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CN 200410026757 CN1283580C (en) | 2004-04-06 | 2004-04-06 | Method for fabricating plates made from fine concrete modified by epoxy emulsion |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101633572B (en) * | 2008-07-25 | 2013-03-06 | 深圳市海川实业股份有限公司 | Modified cement mortar |
CN103771777A (en) * | 2013-12-31 | 2014-05-07 | 安徽省美域节能环保技术应用有限公司 | Modified cement mortar |
-
2004
- 2004-04-06 CN CN 200410026757 patent/CN1283580C/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101633572B (en) * | 2008-07-25 | 2013-03-06 | 深圳市海川实业股份有限公司 | Modified cement mortar |
CN103771777A (en) * | 2013-12-31 | 2014-05-07 | 安徽省美域节能环保技术应用有限公司 | Modified cement mortar |
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