CN109932502A - The measuring method of structure glue dosage, ceramic tile construction method - Google Patents
The measuring method of structure glue dosage, ceramic tile construction method Download PDFInfo
- Publication number
- CN109932502A CN109932502A CN201910317496.8A CN201910317496A CN109932502A CN 109932502 A CN109932502 A CN 109932502A CN 201910317496 A CN201910317496 A CN 201910317496A CN 109932502 A CN109932502 A CN 109932502A
- Authority
- CN
- China
- Prior art keywords
- ceramic tile
- structure glue
- glue
- thickness
- tile
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Finishing Walls (AREA)
Abstract
A kind of measuring method of structure glue dosage, minimum bonding thickness including determining structure glue, obtain the cohesive force > ceramic tile weight of structure glue bonding layer, adhesion strength >=0.6Mpa, and glue consumption of single-point structure glue when the minimum bonding thickness of structure glue adhesive layer thickness > structure glue on ceramic tile.A kind of ceramic tile construction method, including surface treatment is pasted, matrix metope is concrete wall surface or cement mortar metope;The structure glue at the adhesive surface coating at least 5 of ceramic tile, wherein the glue consumption of every place's structure glue of structure glue meets when tile bonding is when matrix metope at 5, the cohesive force > ceramic tile weight of structure glue adhesive layer, adhesion strength >=0.6Mpa, and the minimum bonding thickness of the thickness G T.GT.GT structure glue of structure glue bonding layer;The tile paste of structure glue is coated on dry matrix metope, extruding dynamics when ceramic tile is pasted in control, makes the minimum bonding thickness of the distance between ceramic tile and described matrix metope > structure glue.
Description
Technical field
The present invention relates to wall construction technical fields, and in particular to a kind of measuring method of structure glue dosage, ceramic tile construction
Method.
Background technique
Metope in public domains such as the public corridor of building, elevator cups generally uses ceramic tile metope, to avoid adopting
Spot is easily retained when with " great Bai wall " (i.e. emulsion paint metope), cleaning cost of upkeep is high.In regions such as the toilets of building
Metope generally also uses ceramic tile metope, in favor of the quick discharge of water flow.
Instantly, generally by being put on the cement mortar at the ceramic tile back side by tile paste on metope, metope base, which should be, is looked for
Average face.Cement mortar is used to paste ceramic tile for wet work construction.Specifically, needing to soak ceramic tile before tile paste;
And prepare cement mortar immediately at the construction field (site), fugitive dust can be generated in configuration process.In construction and solidification process, effect is pasted
Fruit is limited by the condition of cure limitation of cement again, is not easy to construct at low ambient temperatures.It is serious instantly in dust pollution, cement,
Sand price amount of increase may be prolonged in the presence of the amount of increase for being more than 50%, and because fugitive dust is managed using cement mortar paving ceramic tile
It delays work the phase.According to measuring and calculating, under the premise of all are ready, the paving efficiency of the ceramic tile of skilled worker is in 15 ㎡/(man day).
In order to avoid falling off for wall brick as far as possible, form friction pattern is conventionally formed at the back side of ceramic tile, and patch block work also can be
All spread cement mortar in the back side of ceramic tile.Although using so many measure, when pasting ceramic tile using cement mortar,
It is found through being investigated in Zhengzhou area, many metopes appearance are different degrees of to fall off, and needs later period maintenance.This has the following problems:
1. ceramic tile falls off, position and opportunity are unforeseen, may cause secondary injury to neighbouring personage, property;2. maintenance capacity
Greatly, and in maintenance process the building waste generated is not easy to handle.
Summary of the invention
Goal of the invention of the invention is to provide a kind of ceramic tile construction method, cannot be simultaneous to solve existing ceramic tile construction method
The technical issues of caring for construction cost and maintenance cost.Solve the technical problem, it is necessary first to the dosage of accurate measuring and calculating structure glue and
Usage.
In order to solve the above technical problems, the present invention adopts the following technical scheme:
Design a kind of measuring method of structure glue dosage, comprising the following steps:
The step of determining the minimum bonding thickness of structure glue bonding layer, coefficient of linear thermal expansion α, sticking state including obtaining ceramic tile
Ceramic tile height L, structure glue shear strength Гdes, structure glue elastic modulus E data, according to following equations group calculating tied
The minimum bonding thickness e of structure glue bonding layer,
Wherein, L is the temperature difference displacement in the short transverse of the ceramic tile of sticking state, and L is tile paste when on metope
Highly, △ TS Plate temperature difference when extreme temperature, △ T are born when to construct and after tile pasteS50 DEG C are taken, α is ceramic tile
Coefficient of linear thermal expansion, e are the minimum bonding thickness of structure glue bonding layer, and G is structure glue modulus of shearing, and E is structure glue springform
Amount, ГdesFor the shear strength of structure glue;
Test obtain single-point structure glue on ceramic tile glue consumption, tile bonding in matrix metope when structure glue bonding layer thickness
The bonding force data of degree and structure glue bonding layer, the cohesive force > ceramic tile weight of screening structure glue bonding layer, adhesion strength >=
0.6Mpa, and single-point structure glue when the minimum bonding thickness e of the thickness G T.GT.GT structure glue bonding layer of structure glue bonding layer is in ceramic tile
On glue consumption.
A kind of ceramic tile construction method is designed, is included the following steps,
The step of pasting surface treatment, the adhesive surface correspond to the binding face of matrix metope and ceramic tile, and described matrix metope is mixed
Solidifying cob wall face or cement mortar metope;
The step of being coated with jelly, the structure glue at the adhesive surface coating at least 5 of ceramic tile, wherein structure glue is separately positioned on length at 5
Rectangular quadrangle and center, and the coating diameter of every place's structure glue of the structure glue at 5, coating thickness meet: work as ceramic tile
When being bonded in matrix metope, the cohesive force > ceramic tile weight of structure glue bonding layer, adhesion strength >=0.6Mpa, and structure gluing knot
The minimum bonding thickness of the thickness G T.GT.GT structure glue bonding layer of layer;
The step of paving ceramic tile, is coated with the tile paste of structure glue on dry matrix metope, when ceramic tile is pasted in control
Extruding dynamics so that after tile paste is on described matrix metope, the distance between ceramic tile and matrix metope > structure glue
Minimum bonding thickness.
It preferably, further include temporarily consolidating at the adhesive surface coating at least 2 of the ceramic tile in the step of coating jelly
Determine glue, is arranged in the short transverse of the sticking state of the ceramic tile wherein being fixed temporarily glue at 2;In the step of the paving ceramic tile
It suddenly further include being fixed temporarily after glue can play and be fixed temporarily the ceramic tile described, the external force to the block ceramic tile being removed
It is fixed.
Further, the structure glue is structural silicone adhesive, and the glue that is fixed temporarily is that performance meets " non-structural carrying use
Stone adhesive " JC/T989-2006 require cloud stone glue.
Further, the adhesive surface of the ceramic tile is equipped with for structure glue application place mark, is fixed temporarily glue coating position
Set mark.
Further, the ceramic tile is the size of 300mm × 600mm, and the structure glue in the rectangular quadrangle is coated with
The distance on adjacent both sides of the position away from the ceramic tile is 40mm~50mm, and the application place for being fixed temporarily glue is apart from institute
It states two long sides of ceramic tile and wherein the distance of a broadside is 150mm.
Further, the structure glue is structural silicone adhesive, the coating jelly the step of in, every place's structure glue
Smearing diameter is 25mm, coating thickness 5mm, after tile bonding is on described matrix metope, between ceramic tile and matrix metope
Distance be 1.5mm~2mm.
Compared with prior art, the beneficial effects of the present invention are: the method for the present invention is only applicable to Imitation Rock Porcelain Tiles construction.
(1) utilize the good bonding characteristic of structure glue, reduce influence bond effect factor (such as: floating bits, take off liquid stain
Mould agent, temperature etc.) to the weighing factor of being firmly bonded property, and using the good application place of consistency, coating weight, improve interior wall
Brick pastes first-time qualification rate, reduces later period maintenance amount, saves maintenance cost.
(2) belong to dry operation construction, before construction, without soaking brick and mortar stirring, former several skilled workers use cement
The paving efficiency of mortar paving ceramic tile is imitated in 15 ㎡/(man day), these workers using the paving of the method for the present invention paving ceramic tile
Rate improves 33.3% in 20 ㎡/(man day), efficiency.
(3) structure glue point sticky intensity is high, and overall materials are few, replaces cement mortar using structure glue point, reduces powder
Total amount;Using structure glue point sticky construction method, it can control the dosage of structure glue under the premise of meeting structural strength, compare
Extensive style is pasted, and can be realized the accurate control of materials, more environmentally friendly.
(4) at low cost, with practical 20168 ㎡ of bonding area accounting, using cement mortar paving ceramic tile direct cost about
It is 1288735 yuan, using the method for the present invention, the wherein more traditional adhesive construction of fee of material, labour cost is saved respectively:
1. fee of material: the 18.9 Yuan/㎡ -8.8 Yuan/Yuan/of ㎡=10.1 ㎡;2. labour cost: the 45 Yuan/㎡ -40 Yuan/Yuan/of ㎡=5 ㎡.Altogether
Meter is saved: 20168 ㎡ × (㎡=304536.8 yuan 10.1+5) Yuan/.
Detailed description of the invention
Fig. 1 is the structure glue at the ceramic tile back side in the embodiment of the present invention 2 and the application place for being fixed temporarily glue, size in figure
Mark unit is mm.
In figure, 1- ceramic tile, 21- is fixed temporarily glue application place, 22- structure glue application place.
Specific embodiment
Illustrate a specific embodiment of the invention with reference to the accompanying drawings and examples, but following embodiment is used only in detail
It describes the bright present invention in detail, does not limit the scope of the invention in any way.
A kind of embodiment 1: measuring method of structure glue dosage, comprising the following steps:
The step of determining the minimum bonding thickness of structure glue bonding layer, coefficient of linear thermal expansion α, sticking state including obtaining ceramic tile
Ceramic tile height L, structure glue shear strength Гdes, structure glue elastic modulus E data, according to following equations group calculating tied
The minimum bonding thickness e of structure glue bonding layer,
Wherein, L is the temperature difference displacement in the short transverse of the ceramic tile of sticking state, and L is tile paste when on metope
Highly, △ TS Plate temperature difference when extreme temperature, △ T are born when to construct and after tile pasteS50 DEG C are taken, α is ceramic tile
Coefficient of linear thermal expansion, e are the minimum bonding thickness of structure glue bonding layer, and G is structure glue modulus of shearing, and E is structure glue springform
Amount, ГdesFor the shear strength of structure glue;
Test obtain single-point structure glue on ceramic tile glue consumption, tile bonding in matrix metope when structure colloid thickness,
The sectional area of structure colloid and the bonding force data of structure colloid screen the cohesive force > ceramic tile weight of structure glue bonding layer, glue
Knotting strength >=0.6Mpa(adhesion strength >=0.6Mpa is job specfication regulation), and the thickness G T.GT.GT structure gluing of structure glue bonding layer
Glue consumption of the single-point structure glue on ceramic tile when the minimum bonding thickness e of knot layer.
Specific implementation process is as follows:
The method of the present invention is only applicable to ceramic tile construction, can be as follows: using the technical parameter of the ceramic tile of the method for the present invention
Table 1 can be using the technical parameter of the ceramic tile of the method for the present invention
。
The technical parameter for the structural silicone adhesive that can be used in the method for the present invention is as follows:
The technical parameter for the structural silicone adhesive that can be used in 2 the method for the present invention of table
。
Test the data of the coating method for obtaining structure glue, coating weight and draw knot force
(1) the minimum bonding thickness of structure glue is determined.
Obtain the length of ceramic tile, the coefficient of linear thermal expansion of ceramic tile, structure glue shear strength, structure glue elasticity modulus data.
The thermal expansion curve of ceramic tile is calculated using formula (1) and the above-mentioned data of combination,
∆L=L·△TSα (1)
In formula, L is the temperature difference displacement of ceramic tile in vertical direction, and L is height of tile paste when on metope, △ TS
With the plate temperature difference after tile paste when receiving extreme temperature when to construct, α is the coefficient of linear thermal expansion of ceramic tile.
Using formula (2) and the minimum of above-mentioned data calculating structure glue is combined to bond thickness,
(2)
In formula, e is the minimum bonding thickness of structure glue, and L is the temperature difference displacement of ceramic tile in vertical direction, and G is structure glue
Modulus of shearing, can take E/3, E is structure glue elasticity modulus, ГdesFor the shear strength design value of structure glue;
For example, a kind of L of the ceramic tile of 300mm × 600mm is 600mm, △ TSIt is 50 DEG C, α is 1 × 10-5/ DEG C, then L=600
×50×1×10-5=0.3(mm).In general, the E of the ceramic tile be 1.4N/mm2, Г des be 0.11Mpa, then e=(1.4/3) ×
0.3 0.11=1.27mm of ÷, when that is to say the bonding model ceramic tile, thickness >=1.27mm of structure glue bonding layer.
(2) thickness is bonded after the extension after determining coating diameter, coating thickness and tile bonding of the structure glue on ceramic tile
Relationship between degree.
On concrete wall surface at the construction field (site), the ceramic tile of 150mm × 150mm is selected, it is straight to carry out the coating of structure glue point sticky
Extension Thickness Test after diameter, thickness and bonding.Structure glue point coating diameter can hollow out on certain thickness plate
The conduct template of the through-hole of diameter is corresponded to out.
The structure glue point sticky Thickness Test data of 3 application area diameter 20mm of table
。
The structure glue point sticky Thickness Test data of 4 application area diameter 25mm of table
。
The structure glue point sticky Thickness Test data of 5 application area diameter 30mm of table
。
Based on the test data of table 3-5, analysis can be obtained:
(1) during surface brick adherence, worker firmly paste, glue be squeezed power effect, be extended, in same smear zone
Under the diameter of domain, the thickness after extension is respectively worth relatively, so the thickness after extension is almost the same, about 0.7mm~0.8mm.
(2) smearing thickness is little to glue bonding layer thickness effect after extension.
(3) not directly proportional between smearing thickness and glue bonding layer thickness after extension.
Multiple spot adhesion test is carried out on 300mm × 600mm whole tile.
The structure glue point sticky Thickness Test data of 6 application area diameter 25mm of table
。
Based on the test data of table 6, analysis can be obtained:
(1) when carrying out pasting test using the ceramic tile of 150mm × 150mm, different coating diameters, thickness, the structure after bonding
Glue-line extends thickness within 1mm, the reason is that stress is more concentrated when pasting, the structure glue extension thickness of dotted coating is basic
In 0.7~0.8mm, it is unsatisfactory for the requirement of the minimal structure glue bonding layer thickness 1.27mm calculated.
(2) test of 300mm × 600mm full sized brick is carried out, diameter D=25mm is coated with, selects coating thickness for 3mm and two kinds of 5mm
Situation, data show, with same big power, it is thick to can satisfy structure glue minimum bonding by average thickness about 1.6mm after pasting
The requirement of degree.It is compared with the brick of 150mm × 150mm, stress is more uniform and smaller when stickup.
Conclusion: during on-site construction, the thickness of adhesive layer, can be used pulvinulus after needing control structure glue point to be sticked to glue extension
The method of piece control, adhesive layer thickness is 1.5 mm~2mm after the extension of control structure glue.
(3) adhesion strength of structure glue sticking ceramic tile and cement mortar metope is determined.
The single-point cohesion test of structure glue is carried out, on the ceramic tile of 40mm × 40mm size to obtain structure glue sticking porcelain
The adhesion strength of brick and cement mortar metope, to select optimal coating weight, coating method.
The thermographic data of 7 tile bonding power of table test process
。
8 ceramic tile of table is bonded pull-out test record
。
Survey adhesion strength=pulling force peak value ÷ expanding area.Based on the above test result, D=10mm, D=15mm, D=20mm
Cohesive force numerical discretization it is big, no longer use.The Imitation Rock Porcelain Tiles of the common 300mm × 600mm size in construction site, weight is about
For 31.25N/ block, the knot of structure glue single-point cohesive force the average out to 587N > 31.25N, D=30mm, H=3mm of D=25mm, H=3mm
Structure glue single-point cohesive force average out to 611N > 31.25N, can satisfy requirement.
D=25mm and D=30mm are compared and analyzed: cohesive force the average out to 587N, glue consumption 1473mm of D=25mm
³;Cohesive force the average out to 611N, glue consumption 2119mm3 of D=30mm.Cohesive force comparison: (611-587)/587=4%;Glue consumption
Comparison: (2119-1473)/1473=44%.Cohesive force improves 4%, and glue consumption needs to improve 44%, uneconomical.
Conclusion: after test, using coating diameter D=25, coating thickness H=3mm, glue consumption 1.5cm3, adhesion strength (is drawn
Stretch and shear), it can satisfy requirement, and glue consumption is few, it is most economical.
In view of the error of construction site degree of plainness for wall surface, in the every of rectangular angle point and central point (totally 5 single-points)
A single-point is respectively coated diameter D=25mm, and the structure glue of coating thickness H=5mm carries out live stickup and hanging test verifying, effect
Fruit is good.
Embodiment 2: a kind of ceramic tile construction method includes the following steps,
The step of pasting surface treatment, the adhesive surface correspond to the binding face of matrix metope and ceramic tile, and described matrix metope is mixed
Solidifying cob wall face or cement mortar metope;Make matrix wall surface levelling, and remove the floating bits of surface of wall, liquid stain, removes the viscous of ceramic tile
Floating bits, the release agent of junction;
The step of being coated with jelly, the structure glue at the adhesive surface coating 5 of ceramic tile, this at 5 structure glue be separately positioned on it is rectangular
Quadrangle and center, and the glue consumption of every place's structure glue meets: when tile bonding is when matrix metope, structure glue bonding layer
Cohesive force > ceramic tile weight, adhesion strength >=0.6Mpa(adhesion strength >=0.6Mpa are job specfication regulation), and structure gluing
Tie the minimum bonding thickness e of the thickness G T.GT.GT structure glue bonding layer of layer;
The step of paving ceramic tile, is coated with the tile paste of structure glue on dry matrix metope, when ceramic tile is pasted in control
Extruding dynamics so that after tile paste is on described matrix metope, the distance between ceramic tile and matrix metope > structure gluing
Tie the minimum bonding thickness e of layer.
Embodiment 3: a kind of ceramic tile construction method includes the following steps,
The step of pasting surface treatment, the adhesive surface correspond to the binding face of matrix metope and ceramic tile, and described matrix metope is mixed
Solidifying cob wall face or cement mortar metope;Make matrix wall surface levelling, and remove the floating bits of surface of wall, liquid stain, removes the viscous of ceramic tile
Floating bits, the release agent of junction;
The step of being coated with jelly, referring to Fig. 1, the structure glue at the adhesive surface coating 5 of ceramic tile, this at 5 structure glue be separately positioned on
Rectangular quadrangle and center, the glue consumption of every place's structure glue meet: when tile bonding is when matrix metope, structure gluing
The cohesive force > ceramic tile weight of layer is tied, adhesion strength >=0.6Mpa(adhesion strength >=0.6Mpa is job specfication regulation), and tie
The minimum bonding thickness e of the thickness G T.GT.GT structure glue bonding layer of structure glue bonding layer, is fixed temporarily at the adhesive surface coating 2 of ceramic tile
Glue, this is fixed temporarily glue at 2 and arranges in the short transverse of the sticking state of the ceramic tile;
The step of paving ceramic tile, is coated with structure glue and the tile paste for being fixed temporarily glue on dry matrix metope, controls
System pastes extruding dynamics when ceramic tile so that after tile paste is on described matrix metope, between ceramic tile and matrix metope away from
Minimum bonding thickness e from > structure glue is fixed temporarily after glue can play and be fixed temporarily the ceramic tile described, can remove
The external force of the block ceramic tile is fixed.
Embodiment 4: a kind of ceramic tile construction method, as preferred, embodiment 1 or the embodiment to embodiment 1 or embodiment 2
Material used in 2 can select one or more as needed from lower material:
Preferably, structure glue is structural silicone adhesive, preferably neutral silicone adhesive.
Preferably, being fixed temporarily glue is that performance meets " non-structural carrying stone adhesive " JC/T989-2006 requirement
Cloud stone glue.
Preferably, the adhesive surface of ceramic tile is equipped with for structure glue application place mark, is fixed temporarily glue application place mark.
Structure glue application place mark is fixed temporarily glue application place mark and can be configured by construction personnel, general using label
Pen mark corresponding point can, can also when manufacture ceramic tile corresponding position by point, lines be formed with identify meaning
Shape or pattern.
Preferably, ceramic tile be 300mm × 600mm size, the rectangular quadrangle structure glue application place away from
The distance on the adjacent both sides of the ceramic tile is 40mm~50mm, and the application place for being fixed temporarily glue is apart from the ceramic tile
Two long sides and wherein the distance of a broadside is 150mm.It is further preferred that structure glue is structural silicone adhesive, every place
The smearing diameter of structure glue is 25mm, coating thickness 5mm, after tile bonding is on described matrix metope, ceramic tile and matrix
The distance between metope is 1.5mm~2mm.
Calculated using the method for embodiment 3 and the preferred feature of corresponding whole selection examples 4, beneficial effect
Including following aspect:
Technical effect: utilizing the good bonding characteristic of structure glue, reduces the shadow for influencing the factor of bond effect to being firmly bonded property
Weight is rung, and using the good application place of consistency, coating weight, improves internal wall brick and pastes first-time qualification rate, reduce the later period
Maintenance capacity saves maintenance cost.Structure glue performance is relatively stable, is affected by temperature smaller, solves viscous in winter construction wet process
Patch quality is difficult to the status ensured.Structure glue point intensity is high, replaces cement mortar using structure glue point, reduces the total of powder
Amount;Using structure glue point sticky construction method, the dosage of structure glue can control under the premise of meeting structural strength, that compares is thick
Formula stickup is put, can be realized the accurate control of materials, it is more environmentally friendly.
Economic benefit: it is calculated according to 2016 editions " Henan Province's building construction and decorative engineering norms for detailed estimates ", carries out cost pair
Than.Situation is actually used according to scene, uses structure glue point sticky internal wall brick to paste replacement during internal wall brick sticking construction original
Conventional binders paste internal wall brick, innovated construction technology, accelerated speed of application, improved construction efficiency, saved and applied
Work cost is effectively controlled internal wall brick and pastes the problem of hollowing falls off, it is ensured that the construction quality that internal wall brick is pasted, and smoothly
The acceptance of work is passed through, there is apparent Social benefit and economic benefit.Practical 20168 ㎡ of bonding area of this engineering internal wall brick,
Wherein fee of material, labour cost more traditional adhesive construction is saved respectively: 1. fee of material: 18.9 ㎡=10.1 yuan Yuan/㎡ -8.8 Yuan//
㎡;2. labour cost: the 45 Yuan/㎡ -40 Yuan/Yuan/of ㎡=5 ㎡.It is total to save: 20168 ㎡ × (㎡=304536.8 10.1+5) Yuan/
Member.
The present invention is described in detail above in conjunction with drawings and examples, still, those of skill in the art
Member is it is understood that without departing from the purpose of the present invention, can also carry out each design parameter in above-described embodiment
Change, forms multiple specific embodiments, is common variation range of the invention, is no longer described in detail one by one herein.
Claims (7)
1. a kind of measuring method of structure glue dosage, which comprises the following steps:
The step of determining the minimum bonding thickness of structure glue bonding layer, coefficient of linear thermal expansion α, sticking state including obtaining ceramic tile
Ceramic tile height L, structure glue shear strength Гdes, structure glue elastic modulus E data, according to following equations group calculating tied
The minimum bonding thickness e of structure glue bonding layer,
Wherein, L is the temperature difference displacement in the short transverse of the ceramic tile of sticking state, and L is tile paste when on metope
Highly, △ TS Plate temperature difference when extreme temperature, △ T are born when to construct and after tile pasteS50 DEG C are taken, α is ceramic tile
Coefficient of linear thermal expansion, e are the minimum bonding thickness of structure glue bonding layer, and G is structure glue modulus of shearing, and E is structure glue springform
Amount, ГdesFor the shear strength of structure glue;
Test obtain single-point structure glue on ceramic tile glue consumption, tile bonding in matrix metope when structure glue bonding layer thickness
The bonding force data of degree and structure glue bonding layer, the cohesive force > ceramic tile weight of screening structure glue bonding layer, adhesion strength >=
0.6Mpa, and single-point structure glue when the minimum bonding thickness e of the thickness G T.GT.GT structure glue bonding layer of structure glue bonding layer is in ceramic tile
On glue consumption.
2. a kind of ceramic tile construction method, which is characterized in that include the following steps,
The step of pasting surface treatment, the adhesive surface correspond to the binding face of matrix metope and ceramic tile, and described matrix metope is mixed
Solidifying cob wall face or cement mortar metope;
The step of being coated with jelly, including the structure glue at the adhesive surface of ceramic tile coating at least 5, wherein structure glue is respectively set at 5
In rectangular quadrangle and center, and the glue consumption of every place's structure glue of the structure glue at 5 meets: when tile bonding is in base
When body metope, the cohesive force > ceramic tile weight of structure glue bonding layer, adhesion strength >=0.6Mpa, and the thickness of structure glue bonding layer
The minimum bonding thickness of > structure glue bonding layer;
The step of paving ceramic tile, the tile paste including being coated with structure glue control on dry matrix metope and paste porcelain
Extruding dynamics when brick, so that after tile paste is on described matrix metope, the distance between ceramic tile and matrix metope > structure
The minimum bonding thickness of glue.
3. ceramic tile construction method as claimed in claim 2, which is characterized in that in the step of coating jelly further include in institute
It states and is fixed temporarily glue at the adhesive surface coating at least 2 of ceramic tile, wherein being fixed temporarily glue at 2 in the height of the sticking state of the ceramic tile
Degree is arranged on direction;Further include in the step of paving ceramic tile, it is described be fixed temporarily glue can play be fixed temporarily it is described
After ceramic tile, it can remove and the external force of the block ceramic tile is fixed.
4. ceramic tile construction method as claimed in claim 3, which is characterized in that the structure glue is structural silicone adhesive, described to face
When fixed glue be cloud stone glue that performance meets that " non-structural carrying stone adhesive " JC/T989-2006 is required.
5. ceramic tile construction method as described in claim 3 or 4, which is characterized in that the adhesive surface of the ceramic tile is equipped with for tying
Structure glue application place mark is fixed temporarily glue application place mark.
6. ceramic tile construction method as described in claim 3 or 4, which is characterized in that the ceramic tile is the ruler of 300mm × 600mm
It is very little, the rectangular quadrangle structure glue application place away from the distance on the adjacent both sides of the ceramic tile be 40mm~
50mm, two long sides of the application place for being fixed temporarily glue apart from the ceramic tile and wherein the distance of a broadside is
150mm。
7. ceramic tile construction method as claimed in claim 6, which is characterized in that the structure glue is structural silicone adhesive, described
In the step of being coated with jelly, the smearing diameter of every place's structure glue is 25mm, coating thickness 5mm, between ceramic tile and matrix metope
Distance be 1.5mm~2mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910317496.8A CN109932502B (en) | 2019-04-19 | 2019-04-19 | Method for measuring and calculating structural adhesive consumption and tile construction method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910317496.8A CN109932502B (en) | 2019-04-19 | 2019-04-19 | Method for measuring and calculating structural adhesive consumption and tile construction method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109932502A true CN109932502A (en) | 2019-06-25 |
CN109932502B CN109932502B (en) | 2021-06-01 |
Family
ID=66990461
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910317496.8A Active CN109932502B (en) | 2019-04-19 | 2019-04-19 | Method for measuring and calculating structural adhesive consumption and tile construction method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109932502B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111255191A (en) * | 2020-03-16 | 2020-06-09 | 广州万构建筑工程设计有限公司 | Semi-pre-pasted ceramic tile and paving method thereof |
Citations (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1765624A (en) * | 2005-10-17 | 2006-05-03 | 杨振宇 | Polyurethane hard foam plastic composite board with elastic bonding transition layer and production method thereof |
KR100804825B1 (en) * | 2006-12-01 | 2008-02-20 | 주식회사 엘지화학 | Construction method using dry type wall for bathroom |
CN101532312A (en) * | 2009-02-20 | 2009-09-16 | 深圳市建设(集团)有限公司 | Light slat anti-crack construction method |
CN101761155A (en) * | 2008-10-27 | 2010-06-30 | 侯向煜 | Construction method for ceramsite concrete light-weight wall boards |
CN102505842A (en) * | 2011-09-26 | 2012-06-20 | 广东松本绿色板业股份有限公司 | Anti-cracking wall body and construction method for same |
CN202913569U (en) * | 2012-08-17 | 2013-05-01 | 沈阳瑞福工业住宅有限公司 | Light composite wall board for building enclosure |
CN103266689A (en) * | 2013-05-24 | 2013-08-28 | 东莞市彩丽建筑维护技术有限公司 | Construction method and elastic binders for bonding lightweight concrete board wall, and wallboards |
WO2014162253A1 (en) * | 2013-04-05 | 2014-10-09 | Spano Nv | Manufacturing of sheet material and biological glue suitable for this purpose. |
US20150218424A1 (en) * | 2014-02-05 | 2015-08-06 | Nitto Denko Corporation | Surface protective sheet substrate and surface protective sheet |
CN105354390A (en) * | 2015-12-01 | 2016-02-24 | 北京航空航天大学 | New method for predicting two-way tensile modulus and strength of planar oblique woven composite material |
US20160159032A1 (en) * | 2014-12-09 | 2016-06-09 | Chu & Son Inc. | Composite board |
EP3201410A1 (en) * | 2014-10-03 | 2017-08-09 | Norcros Group (Holdings) Ltd. | Improvements in building coverings |
CN107406567A (en) * | 2015-03-12 | 2017-11-28 | 诺瓦蒙特股份公司 | Adhesive composition and its purposes in the method for wood-fiber board is prepared |
CN108507872A (en) * | 2018-01-25 | 2018-09-07 | 深圳市沃特玛电池有限公司 | A kind of test method of binder elongation percentage, tensile strength and elasticity modulus |
US20180354236A1 (en) * | 2014-02-24 | 2018-12-13 | Havco Woods Products, LLC | Composite hybrid-wood floor with wood strips arranged in a pattern for vehicular trailers |
-
2019
- 2019-04-19 CN CN201910317496.8A patent/CN109932502B/en active Active
Patent Citations (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1765624A (en) * | 2005-10-17 | 2006-05-03 | 杨振宇 | Polyurethane hard foam plastic composite board with elastic bonding transition layer and production method thereof |
KR100804825B1 (en) * | 2006-12-01 | 2008-02-20 | 주식회사 엘지화학 | Construction method using dry type wall for bathroom |
CN101761155A (en) * | 2008-10-27 | 2010-06-30 | 侯向煜 | Construction method for ceramsite concrete light-weight wall boards |
CN101532312A (en) * | 2009-02-20 | 2009-09-16 | 深圳市建设(集团)有限公司 | Light slat anti-crack construction method |
CN102505842A (en) * | 2011-09-26 | 2012-06-20 | 广东松本绿色板业股份有限公司 | Anti-cracking wall body and construction method for same |
CN202913569U (en) * | 2012-08-17 | 2013-05-01 | 沈阳瑞福工业住宅有限公司 | Light composite wall board for building enclosure |
WO2014162253A1 (en) * | 2013-04-05 | 2014-10-09 | Spano Nv | Manufacturing of sheet material and biological glue suitable for this purpose. |
CN103266689A (en) * | 2013-05-24 | 2013-08-28 | 东莞市彩丽建筑维护技术有限公司 | Construction method and elastic binders for bonding lightweight concrete board wall, and wallboards |
US20150218424A1 (en) * | 2014-02-05 | 2015-08-06 | Nitto Denko Corporation | Surface protective sheet substrate and surface protective sheet |
US20180354236A1 (en) * | 2014-02-24 | 2018-12-13 | Havco Woods Products, LLC | Composite hybrid-wood floor with wood strips arranged in a pattern for vehicular trailers |
EP3201410A1 (en) * | 2014-10-03 | 2017-08-09 | Norcros Group (Holdings) Ltd. | Improvements in building coverings |
US20160159032A1 (en) * | 2014-12-09 | 2016-06-09 | Chu & Son Inc. | Composite board |
CN107406567A (en) * | 2015-03-12 | 2017-11-28 | 诺瓦蒙特股份公司 | Adhesive composition and its purposes in the method for wood-fiber board is prepared |
CN105354390A (en) * | 2015-12-01 | 2016-02-24 | 北京航空航天大学 | New method for predicting two-way tensile modulus and strength of planar oblique woven composite material |
CN108507872A (en) * | 2018-01-25 | 2018-09-07 | 深圳市沃特玛电池有限公司 | A kind of test method of binder elongation percentage, tensile strength and elasticity modulus |
Non-Patent Citations (4)
Title |
---|
李政兴: "瓷砖背胶的研究及应用", 《广东建材》 * |
王冬霞: "石材墙面干挂胶粘法施工技术", 《山西建筑》 * |
袁泽辉: "外墙瓷砖安全粘结新工艺应用分析", 《2012第五届中国国际建筑干混砂浆生产应用技术研讨会论文集》 * |
黄瑛鹏: "室内大尺寸瓷砖薄法胶贴施工技术研究与应用", 《广东土木与建筑》 * |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111255191A (en) * | 2020-03-16 | 2020-06-09 | 广州万构建筑工程设计有限公司 | Semi-pre-pasted ceramic tile and paving method thereof |
Also Published As
Publication number | Publication date |
---|---|
CN109932502B (en) | 2021-06-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102677898A (en) | Sequence construction method for large area reinforced concrete floors | |
CN103572931B (en) | Construction method of building ceramic thin plate hanging and cementing structure | |
CN102587527A (en) | Steel column-coated fire-protection construction method | |
CN109932502A (en) | The measuring method of structure glue dosage, ceramic tile construction method | |
CN111608280A (en) | External wall heat insulation construction method | |
CN106318076B (en) | A kind of patch block companion and its construction method | |
CN104675092A (en) | Method for adhering face brick of building | |
CN107574936A (en) | A kind of heat preserving exterior wall construction technology | |
CN108558305A (en) | The inorganic tile gap filler and preparation method thereof of squeezing and coating construction | |
CN110195474A (en) | The quick paving technology of cement penetrant crystalline combination TPZ series wet-laying coiled material | |
CN106759979A (en) | A kind of external wall exterior heat preserving construction technique | |
CN107190987B (en) | A kind of pore reinforced construction method suitable for inorganic anchoring material | |
CN104655562A (en) | Method for testing pull-breaking value of bonding strength of autoclaved aerated concrete interface material | |
CN104655867A (en) | Quick mounting method of velocity/acceleration sensor | |
CN101475344A (en) | Building heat preserving exterior wall decorating tile | |
CN107938907A (en) | A kind of inclined roof exempts from formwork construction method | |
CN106517943A (en) | Wallboard binder and preparation method thereof | |
CN106351411B (en) | The construction method and mortar of the mortar protection structure of steel plate shear force wall protect structure | |
CN207647092U (en) | A kind of metope tapestry brick mounting structure | |
CN210263722U (en) | Ceramic tile bonding reinforcing structure | |
CN202248387U (en) | Lightgage steel joist gypsum plate vetrified tile decorative wall body | |
CN106277919A (en) | A kind of one-component paste elasticity ceramic tile interface treatment agent preparation and construction technology thereof | |
CN205224514U (en) | Structure is pasted by shop of floor tile | |
CN109516740A (en) | The dedicated clay of the levelling integrated construction of floor tile paving and its construction method | |
CN109779192A (en) | A kind of the elastic adhesive structure and its method of attaching of building decoration surface layer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |