JP2010229705A - Thin-layer pavement structure, thin-layer paving method, primer composition for impregnation, epoxy resin binder composition, and epoxy resin mortar composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a thin-layer pavement structure having toughness and durability that can withstand the traveling of a vehicle loaded with heavy objects and a construction method for the structure. <P>SOLUTION: The surface of a concrete floor 1 coated with a primer composition for impregnation 11 using, as a base, a polysulfide modified epoxy resin which is excellent in flexibility. An epoxy resin mortar composition 12 which is mixed with aggregate, porous with cavities, and highly strong is put on the epoxy resin. The cavities present between the bottom and intermediate part of the resin mortar composition 12 are impregnated with the polysulfide modified epoxy resin by rolling the mortar composition with a mechanical trowel. Consequently, a thin-layer pavement material composition which has both soft and hard properties, toughness, impact resistance and wear resistance, and durability can be provided. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a thin pavement structure, a thin pavement construction method, an undercoating composition for impregnation, an epoxy resin binder composition, and an epoxy resin mortar composition.
According to the present invention, a thin pavement structure having tough physical properties and durability that can withstand the impact even when a vehicle loaded with heavy objects travels is realized.

  Conventionally, concrete floors and asphalt floors (hereinafter referred to as “concrete floors” as representatives of both) have been used as floor surfaces of warehouses, parking lots, roads, truck terminals, and the like.

Among such concrete floors, rough floor surfaces and aging are severe in concrete floors with severe use conditions in which a large impact force is applied, such as when a vehicle (truck or the like) loaded with heavy objects travels.
For this reason, in concrete floors where usage conditions are particularly severe, the surface is paved with epoxy resin mortar having good wear resistance and durability. Epoxy resin mortar and the like have wear resistance and durability, so that it is possible to prevent roughening of the concrete floor and the like, and since the surface properties are beautiful, the effect of beautification is also exhibited.

However, epoxy resin mortar has high performance in terms of wear resistance and durability compared to materials such as concrete and asphalt, but it is expensive (about 50 times), so it is a thin layer from the viewpoint of cost balance. It is necessary to pave with (3mm ~ 15mm).
That is, the pavement in which the surface is made of epoxy resin mortar or the like for the purpose of preventing the roughening of the concrete floor is a so-called “thin layer pavement”.

JP-A-7-292616 JP-A-6-294104

Thin layer pavement materials such as epoxy resin mortar used for thin layer pavement constructed on the surface of a concrete floor are required to satisfy necessary physical properties such as wear resistance, weight resistance and impact resistance. For this reason, although a hard and high intensity | strength raw material is used as a thin layer pavement material, on the other hand, it lacks in a softness | flexibility.
Thus, the thin pavement material is hard and has high strength, but lacks flexibility, and the thickness of the thin pavement is thin, so that the following problems have conventionally occurred.

  Stretching force accompanying expansion and contraction of the concrete floor that is the base acts on the lower surface side of the thin pavement, and an impact load by a vehicle or the like acts on the upper surface side (front surface side) of the thin pavement. In this way, the thin pavement receives force from both the lower surface side and the upper surface side, so that it easily breaks due to cracks and damage in a short period of time. If the thin pavement is damaged in this way, the underlying concrete floor will be destroyed in a short period of time.

  If a crack occurs in the underlying concrete floor, it may not be able to withstand the expansion and contraction associated with the crack, and the crack may also develop in the thin pavement. In other words, cracks may extend and develop in thin-layer pavements in a state that is continuous with cracks that have occurred in the concrete floor.

  If the adhesive strength between the thin pavement and the concrete floor that is the base is insufficient, or if the strength of the thin pavement itself is insufficient, peeling may occur between the thin pavement and the concrete floor. When such peeling occurs, the thin pavement and the concrete floor are easily damaged.

  As described above, the conventional thin layer pavement is likely to be damaged, cracked or peeled off, and therefore, it has been necessary to frequently perform repair work to maintain the function of the thin layer pavement.

  The present invention was obtained as a result of examining the above problems, and has excellent adhesion to the underlying concrete floor, can cope with expansion and contraction due to cracks in the underlying, and impact from the surface of the thin pavement. Thin-layer pavement structure and thin-layer pavement method and impregnating primer composition, epoxy resin binder composition, and epoxy resin mortar composition that have tough physical properties and durability that can withstand loads and heavy vehicles It provides things.

The thin pavement structure of the present invention that solves the above problems is
A base material composed of a polysulfide-modified epoxy resin having a polysulfide skeleton and a bisphenol skeleton, and a primer composition for impregnation in which a curing agent composed of a modified aliphatic polyamine is mixed and stirred are applied to the surface of a concrete floor or an asphalt floor,
An epoxy resin mortar composition obtained by mixing and stirring an epoxy resin binder composition in which a curing agent composed of a bisphenol type epoxy resin and a modified aliphatic polyamine is mixed with an aggregate is placed on the above-mentioned impregnating primer composition before curing. Laminated to
The epoxy resin mortar composition is impregnated with the epoxy resin mortar composition by rolling the surface of the epoxy resin mortar composition with a mechanical punch to impregnate the epoxy resin mortar composition.

The thin pavement structure of the present invention is
A base material composed of a polysulfide-modified epoxy resin having an organic group containing a polysulfide skeleton and an organic group containing a bisphenol skeleton and a curing agent composed of a modified aliphatic polyamine mixed and stirred into a concrete floor or asphalt An undercoat layer applied to the floor surface;
An epoxy resin mortar composition obtained by mixing and stirring an epoxy resin binder composition in which a curing agent composed of a bisphenol type epoxy resin and a modified aliphatic polyamine is mixed with an aggregate is laminated on the above-mentioned impregnation primer composition. A resin mortar layer,
The resin mortar layer is impregnated with the undercoat composition for impregnation of the undercoat layer from the bottom part in contact with the undercoat layer to the middle part in the thickness direction not reaching the surface of the resin mortar layer. The impregnation concentration of the impregnating primer composition gradually changes from a high concentration to a low concentration as it progresses from the bottom in contact with the undercoat layer to an intermediate portion in the thickness direction that does not reach the surface of the resin mortar layer. It is characterized by.

In addition, the impregnating primer composition used for constituting the thin pavement structure of the present invention has an application amount of 0.3 to 0.8 kg per 1 m ² , and the polysulfide that is the base material. Of the modified epoxy resin, the proportion of the organic group having a polysulfide skeleton is 5 to 25% by weight.

  Further, the impregnating primer composition used for constituting the thin pavement structure of the present invention has a mixing viscosity of 1000 to 2500 mPa · s (25 ° C.).

  Further, the epoxy resin mortar composition used for constituting the thin pavement structure of the present invention has a blending ratio of the aggregate to the epoxy resin binder composition of 4 to 12 times, and the bone The particle size of the material is 0.2 to 1.5 mm.

  The epoxy resin mortar composition used for constituting the thin pavement structure of the present invention has a porosity of 5 to 18%, preferably 10 to 15%.

  The epoxy resin binder composition of the epoxy resin mortar composition used for constituting the thin pavement structure of the present invention has a mixed viscosity of 300 to 2500 mPa · s (25 ° C.). And

The thin pavement construction method of the present invention is
An undercoating composition for impregnation prepared by mixing and stirring a base material made of a polysulfide-modified epoxy resin having an organic group containing a polysulfide skeleton and an organic group containing a bisphenol skeleton and a curing agent made of a modified aliphatic polyamine was applied in an amount of 1 m. ^It is applied to the surface of concrete floor or asphalt floor so that 0.3 to 0.8 kg per ²
The impregnating primer composition cures an epoxy resin mortar composition with a mixture of a bisphenol-type epoxy resin and a curing agent composed of a modified aliphatic polyamine mixed with an aggregate and an agglomerated epoxy resin mortar composition. Layered on this impregnating primer composition before
By rolling the surface of the epoxy resin mortar composition with a mechanical punch having a weight of 40 to 120 kg, the primer composition for impregnation is transferred from the bottom of the epoxy resin mortar composition to the epoxy resin mortar composition. It is impregnated.

  In the present invention, the surface of a concrete floor or asphalt floor is coated with a primer composition for impregnation based on a polysulfide-modified epoxy resin having excellent performance in flexibility, and a void containing an aggregate thereon. A layer of high-strength and hard epoxy resin mortar composition that forms a “lightning effect” and rolls the surface of the epoxy resin mortar composition with a mechanical punch to create a polysulfide-modified epoxy in the voids of the epoxy resin mortar composition. Impregnated with resin.

As a result, a thin pavement structure comprising an undercoat layer coated with an impregnating undercoat composition and a resin mortar layer obtained by laminating an epoxy resin mortar composition on the undercoat layer is constituted.
In addition, the resin mortar layer is impregnated with the primer composition for impregnation of the undercoat layer from the bottom in contact with the undercoat layer to the middle portion in the thickness direction that does not reach the surface of the resin mortar layer. In this case, the impregnation concentration of the primer composition for impregnation gradually changes from a high concentration to a low concentration as it progresses from the bottom in contact with the undercoat layer to the middle portion in the thickness direction that does not reach the surface of the resin mortar layer. Yes.
Such a thin pavement structure is a tough thin pavement structure that can obtain both soft and hard properties.

A feature of the present invention is that an impregnating primer composition composed of a polysulfide-modified epoxy resin and a modified aliphatic polyamine and a thin film laminated on the impregnating primer composition to impart rubbery elasticity after curing. It consists of an epoxy resin mortar composition for layer pavement, and an undercoat composition for impregnation applied to a concrete floor surface with a load of mechanical dredging and rotational torque force in the gap of the laminated epoxy resin mortar composition at the laminated part. It is impregnating from the bottom to the top of a certain epoxy resin mortar composition.
Thus, by impregnating the primer composition for impregnation from the bottom of the epoxy resin mortar composition, a thin pavement structure that gradually increases toughness and resists impact is formed. This thin pavement structure has tough physical properties and durability that can withstand the running of a vehicle loaded with heavy objects.

The impregnating primer composition was formed by mixing and stirring a polysulfide-modified epoxy resin (base material) having an organic group containing a polysulfide skeleton and an organic group containing a bisphenol skeleton, and a modified aliphatic polyamine (curing agent). Is.
Among polysulfide-modified epoxy resins, the greater the blending ratio of polysulfide resin (organic group containing polysulfide skeleton), the better the flexibility, and the more flexible and flexible physical properties can be obtained, but the adhesive strength with the underlying concrete floor is Since the ratio is lowered, the blending ratio needs to be optimally considered.

In addition, when the primer composition for impregnation is applied to the underlying concrete floor, the relationship between the coating amount and the viscosity is also a necessary issue.
In the case of low viscosity, the primer composition for impregnation is absorbed by the underlying concrete and at the same time does not penetrate into the voids of the laminated epoxy resin mortar composition. This prevents the material from penetrating into the voids of the epoxy resin mortar composition.
In addition, when the coating amount of the impregnating primer composition is large, the impregnating primer composition impregnated from the bottom of the epoxy resin mortar composition oozes out to the surface of the epoxy resin mortar composition, In order to reduce the surface strength, it is important to appropriately set the viscosity and the coating amount of the impregnating primer composition in consideration of the thickness of the epoxy resin mortar composition.

The epoxy resin binder composition of the epoxy resin mortar composition for thin layer paving is formed from a bisphenol type epoxy resin as a main agent and a modified aliphatic polyamine as a curing agent. The epoxy resin binder composition is mixed and stirred with a granular aggregate to form a “lightning-like” porous and high-strength epoxy resin mortar composition.
Since this epoxy resin mortar composition has an appropriate gap that allows the impregnating primer composition to permeate, attention should be paid to the shape of aggregate particles and the mixing viscosity and addition amount of the epoxy resin binder composition as a binder. The blend is desirable.

In addition, the present invention is characterized in that an undercoat composition for impregnation that imparts rubber-like elasticity after curing by rolling the epoxy resin mortar composition using a mechanical punch, commonly known as Trowell, is an epoxy resin. It is a construction method in which a thin layer pavement structure that withstands impacts is formed by gradually increasing the toughness from the bottom to the top of the laminated part by penetrating into the voids of the mortar composition.
In ordinary manual work by plasterers, the rolling pressure is insufficient, and the impregnating primer composition cannot be sufficiently penetrated into the voids of the epoxy resin mortar composition. It is necessary to impregnate.

  In addition, the primer composition for impregnation that cannot penetrate into the epoxy resin mortar composition and remains on the underlying concrete floor has a tough elastic layer (undercoat layer) between the concrete floor and the epoxy resin mortar composition. The formed elastic layer can relieve stress due to cracks in the underlying concrete floor and absorb impact from the surface of the thin pavement structure.

That is, in the thin pavement structure according to the present invention, the primer composition for impregnation based on the polysulfide-modified epoxy resin applied to the surface of the concrete floor is a hard epoxy resin mortar composition laminated thereon. It penetrates the gap with the load and torque force of the machine rod.
For this reason, a thin pavement structure formed on a concrete floor is composed of an undercoat layer (elastic layer) made of an impregnating primer composition based on a polysulfide-modified epoxy resin and a resin mortar made of an epoxy resin mortar composition. Composed of layers.

  In this case, the resin mortar layer is impregnated with the primer composition for impregnation, and is impregnated from the bottom part in contact with the primer layer to the middle part in the thickness direction not reaching the surface of the resin mortar layer. For this reason, the impregnation concentration of the undercoat composition for impregnation (polysulfide-modified epoxy resin) gradually changes from a high concentration to a low concentration as it proceeds from the bottom contacting the undercoat layer to the middle portion in the thickness direction.

As a result, the thin pavement structure formed on the concrete floor is substantially composed of the following three physical property layers.
(1) An elastic layer (hereinafter referred to as “A layer”), which is a primer layer obtained by curing a primer composition for impregnation (polysulfide-modified epoxy resin) applied on a concrete floor surface.
(2) Of the resin mortar layer, an intermediate layer (hereinafter referred to as “B layer”) impregnated with an impregnating primer composition (polysulfide-modified epoxy resin).
(3) Of the resin mortar layer, an upper layer (hereinafter referred to as “C layer”) that is not impregnated with an undercoating composition for impregnation (polysulfide-modified epoxy resin).

Since layer A has elasticity, flexibility and adhesiveness, it responds to slab cracks occurring in the underlying concrete floor, and at the same time, reduces the impact load on the thin pavement surface, cracking the pavement surface, Peeling can be prevented.
B layer has the effect | action which reinforces toughness and corrects the fault which is hard and brittle to an impact of C layer. That is, as the B layer progresses from the bottom side to the intermediate layer, the impregnation concentration of the impregnating primer composition (polysulfide-modified epoxy resin) that imparts elasticity gradually changes from a high concentration to a low concentration. By optimally mitigating and absorbing the impact that has acted on the C layer, the C layer is effective in correcting the defects that are hard and brittle to impact.
Since the C layer is composed of a hard and high-strength epoxy resin mortar composition, it has excellent wear resistance and retains the characteristics of improving durability.
As described above, it is possible to provide a thin pavement structure that is tough and has excellent durability by the combined effect of the three ABC layers having different physical properties.

The polysulfide-modified epoxy resin that is the base material of the undercoating composition for impregnation according to the present invention is represented by the following general formula (1).
R1 and R3 are organic groups having a bisphenol skeleton, and R2 is an organic group having a polysulfide skeleton.
An undercoating composition for impregnation is constituted by mixing and stirring the polysulfide-modified epoxy resin and a modified aliphatic polyamine as a curing agent.

  Examples of the resin having an organic group containing a bisphenol skeleton represented by R1 and R3 in the general formula (1) include bisphenol A type epoxy resin, bisphenol F type epoxy resin, halogenated bisphenol F type epoxy resin, Mention may be made of those containing similar molecular structures.

R2 in the general formula (1) is a polysulfide skeleton represented by the following general formula (2).
In the above general formula (2), the range of the average content m of S is 1 to 3, and preferably 1.5 to 2.5.

  The range of the average content n of the polysulfide skeleton is 1 to 50, preferably 3 to 15. If the average content n of the polysulfide skeleton is less than 1, the physical properties of the conventional bisphenol-type epoxy resin are not changed, and if it exceeds 50, the viscosity becomes high and the epoxy resin mortar layer hardly penetrates.

  The primer composition for impregnation based on the polysulfide-modified epoxy resin of the present invention preferably has a mixed viscosity at 25 ° C. of 1000 mPa · s or more and less than 2500 mPa · s.

  In the present invention, the polysulfide-modified epoxy resin as described above may be used by mixing with a bisphenol type epoxy resin, if necessary.

  In addition, a small amount of reactive diluents such as aliphatic benzylic ethers and alkylphenols are added to adjust the viscosity of the primer composition for impregnation, and organosilane compounds such as alkoxysilanes are added to further increase the penetration and adhesion performance. Can also be used.

  Many modified aliphatic polyamines used as a curing agent for the impregnating primer composition are commercially available depending on the presence or absence of various modifying components.

  The modified aliphatic polyamine preferably has an amine value of 100 to 800, particularly preferably 250 to 600.

The viscosity of the modified aliphatic polyamine is preferably 1000 mPa · s or more and less than 2500 mPa · s.

  Such modified aliphatic polyamines include, for example, [Fucure # 5420] manufactured by Fuji Kasei Kogyo Co., Ltd. [Adeka Heartner EH-220] manufactured by Asahi Denka Kogyo Co., Ltd. -055] and the like.

In the present invention, the blending amount of the modified aliphatic polyamine varies depending on the type of the modified aliphatic polyamine used. In general, a modified aliphatic polyamine has a complicated molecular structure, and therefore it is not practical to define it by the chemical equivalent calculated from the amine value of the modified aliphatic polyamine and the epoxy equivalent of the polysulfide-modified epoxy resin.
Accordingly, the modified aliphatic polyamine has a ratio of 10 to 45 parts by weight based on 100 parts by weight of the polysulfide-modified epoxy resin.

  The epoxy resin mortar composition for laminating according to the present invention is obtained by adding a particulate and hard aggregate to an epoxy resin binder composition in which a bisphenol type epoxy resin base material and a curing agent made of a modified aliphatic polyamine are mixed. The one made by mixing and stirring is used.

  The bisphenol type epoxy resin used in the epoxy resin mortar composition for laminating used in the present invention is commercially available in many numbers, such as bisphenol A type epoxy resin and bisphenol F type epoxy resin. 220 is preferred. The modified aliphatic polyamine is the same as the curing agent of the undercoat base composition for impregnation.

  The blending ratio of the aggregate to the epoxy resin binder composition is preferably 4 to 12 times, and particularly preferably 6 to 10 times. Further, the mixed viscosity at 25 ° C. of the epoxy resin binder composition of the epoxy resin mortar composition for lamination is preferably 300 mPa · s or more and less than 2500 mPa · s, and particularly preferably 500 mPa · s or more and less than 1500 mPa · s.

  The particle size of the aggregate used in the epoxy resin mortar composition is preferably 0.2 mm or more and 1.5 mm or less.

  In the thin pavement method according to the present invention, after applying the primer composition for impregnation with the polysulfide-modified epoxy resin, the epoxy resin mortar composition for laminating is immediately uniformed using a construction tool such as a rake or a dragonfly. By finishing with a machine trowel, the epoxy resin mortar composition is impregnated with an impregnating primer with a rolling load and a rotational torque force due to the weight of the machine heel, and a tough, impact-resistant thin pavement structure. It is the construction method which forms.

In the conventional manpower finish by plastering, the rolling pressure is insufficient, so that the primer composition for impregnation does not sufficiently penetrate into the voids of the laminated epoxy resin mortar composition.
Therefore, in the present invention, the rolling is finished with a machine rod (trowel) having its own weight of 40 to 120 kg, a rotation speed of 60 to 130 rpm, a blade rotation diameter of 500 to 1200 mm, and a blade number of 3 to 6. Has developed a thin pavement method for impregnating from the bottom of an epoxy resin mortar composition in which an undercoating composition for impregnation is laminated.

  According to the thin pavement structure and the thin pavement construction method according to the present invention, it has excellent adhesiveness with the underlying concrete floor, can cope with expansion and contraction due to cracks in the underlying layer, can withstand impact loads, and can carry heavy objects loaded vehicles. It is possible to provide a thin pavement structure having tough physical properties and durability.

Sectional drawing which shows the thin-layer pavement structure concerning the Example of this invention. Sectional drawing which expands and shows the detail of the thin-layer pavement structure concerning the Example of this invention.

  Below, the construction method and structure are demonstrated with reference to an attached figure for the form for implementing this invention.

FIG. 1 shows a cross-sectional structure of the thin pavement structure 10, and FIG. 2 shows an enlarged detail of the cross section of the thin pavement structure 10.
As shown in both figures, an impregnating primer composition 11 mainly composed of polysulfide-modified epoxy resin is applied to the surface of the underlying concrete floor 1 so that the coating amount is 0.3 kg to 0.8 kg per 1 m ² . Apply with a roller brush.
Thereafter, the bisphenol type epoxy resin mortar composition 12 for lamination is immediately laminated on the uncured primer composition 11 for impregnation so that the lamination amount is ⁶ kg to 30 kg per 1 m ² . At this time, the laminated epoxy resin mortar composition 12 is uniformly leveled using construction tools such as Reiki and a dragonfly.

Next, the surface of the laminated epoxy resin mortar composition 12 is smoothed by rolling with a mechanical punch.
When the rolling finish is performed with a mechanical punch, the primer composition 11 for impregnation is impregnated from the bottom portion to the middle portion of the epoxy resin mortar composition 12 by the action of the load and the rotational torque force.
Part of the impregnation primer composition 11 for impregnation also impregnates the concrete floor 1.

  By curing and curing after the construction in this way, an undercoat layer 11a in which the impregnating primer composition 11 is cured, and an epoxy resin mortar composition in which the impregnating primer composition 11 is impregnated from the bottom to the middle part. The thin layer pavement structure 10 having a thickness of 3 to 15 mm is constituted by the resin mortar layer 12a made of the object 12.

The impregnating primer composition 11 used in the construction method is obtained by mixing and stirring a polysulfide-modified epoxy resin (base material) and a modified aliphatic polyamine (curing agent), and has a mixed viscosity of 1000 to 2500 mPa · s. A necessary condition is (25 ° C).
When the mixed viscosity is 1000 Pas (25 ° C.) or less, the slab surface of the underlying concrete floor 1 is permeated and absorbed and does not impregnate the epoxy resin mortar composition 12 for lamination, while 2500 mPa · s (25 ° C) Above, since impregnation into the epoxy resin mortar composition 12 is hindered due to high viscosity, 1000 to 2500 mPa · s, more preferably 1500 to 2000 mPa · s is preferable.

With respect to the coating amount of the impregnating primer composition 11, the amount of impregnation into the epoxy resin mortar composition 12 is insufficient when the amount is 0.3 kg or less per 1 m ² , while the amount of the epoxy resin when laminated is 0.8 kg or more. It exudes to the surface of the mortar composition 12 and not only inhibits the rolling pressure in the machine wrinkle, but also affects the surface hardness and reduces the wear resistance.
Therefore, the coating amount of the impregnating primer composition 11 is preferably 0.3 kg to 0.8 kg per 1 m ² .

The bisphenol type epoxy resin mortar composition 12 for laminating is a hard bone having an aggregate particle size of 0.3 to 1.2 mm to an epoxy resin binder composition prepared by mixing a curing agent composed of a bisphenol type epoxy resin and a modified aliphatic polyamine. It is a “lightning-like” high-strength resin mortar with voids made by mixing and agitating the material 4 to 12 times the amount of resin.
When the blending ratio of the aggregate is less than 4 times, the epoxy resin mortar composition 12 has few voids and impregnation with the undercoat primer composition (polysulfide-modified epoxy resin) 11 for undercoating. In particular, the aggregate ratio of the aggregate is preferably 6 to 10 times, because the material is not sufficiently bonded and becomes a thin layer pavement that is brittle and lacks durability.

Further, when the mixed viscosity of the epoxy resin binder composition is 300 mPa · s or less, the adhesion amount attached to the aggregate is small and the strength is insufficient, and at the same time, it flows out to the lower part of the laminate and the primer composition 11 for impregnation becomes the epoxy resin mortar. On the other hand, impregnation of the composition 12 is inhibited. On the other hand, when the mixed viscosity of the epoxy resin binder composition is 2500 mPa · s or more, the porosity of the epoxy resin mortar composition 12 is lowered, the impregnation amount is insufficient, and the toughness cannot be exhibited. .
For this reason, 300-2500 mPa * s (25 degreeC) is suitable for the mixing viscosity of an epoxy resin binder composition.

When the particle size of the aggregate used for the epoxy resin mortar composition 12 is 0.2 mm or less, viscosity is generated in the epoxy resin mortar composition 12 and it is difficult to finish with a mechanical punch, while the particle size of the aggregate is 1.5 m. In the above, the surface strength of the thin pavement structure 10 is insufficient, and the impregnation primer composition 11 is not sufficiently impregnated.
For this reason, the particle size of the bone agent is preferably 0.2 to 1.5 mm.

  As the hard aggregate used for the epoxy resin mortar composition 12, many things such as emery, ferroalloy slag, dredged sand, Kashima sand, garnet, alundum, etc. are commercially available. Those with uniform particles are preferred.

  When rolling is carried out with a mechanical punch, commonly known as Trowell, the impregnating primer composition 11 is impregnated from the lower part into the laminating epoxy resin mortar composition 12 by the action of the load of the mechanical punch and the rotational torque force. it can. Therefore, the impregnating primer composition 11 penetrates into the voids of the epoxy resin mortar composition 12, thereby imparting toughness to the hard and high-strength epoxy resin mortar composition 12, improving impact resistance, and improving endurance. A certain hard and soft structure can be obtained.

Examples of such machine rods, commonly called Trowells, include Whiteman Power Trowel M-4-R, Edger Trowel B-424, Power Trowel KU-75G, and Hand Trowel NSM-100.
In the construction method of the present invention, a self-weight is 40 to 120 kg, a rotation speed is 60 to 130 rpm, a blade rotation diameter is 500 to 1200 mm, and the number of blades is 3 to 6, and the engine output is 3 to 6 Kw for versatility. Machine dredging is desirable.

Based on FIG. 2, the structure of the thin pavement structure 10 will be further described.
The A layer is an undercoat layer (elastic layer) made of an impregnating undercoat composition (polysulfide-modified epoxy resin) 11 having excellent adhesion to the surface of the underlying concrete floor 1 and good stretchability.
The B layer is an intermediate layer (impregnated layer) in which a bisphenol-type epoxy resin mortar composition 12 for lamination is impregnated with an undercoating agent composition (polysulfide-modified epoxy resin) 11 for impregnation.
The C layer is an upper layer (resin mortar layer) made of a bisphenol type epoxy resin mortar composition for lamination.

Even if cracks and shrinkage occur on the surface of the underlying concrete floor 1, the flexible and stretchable A layer absorbs strain and does not affect the thin pavement structure 10. If the strain cannot be absorbed and absorbed by the A layer alone, a two-layer structure capable of absorbing the strain in the B layer is formed.
The C layer is a high strength and hard bisphenol type epoxy resin mortar composition 12 having excellent wear resistance. In addition, although the C layer alone was hard, there was a weakness to shock (however, the impact resistance was more than twice that of ordinary concrete), but the impact load was diffused and absorbed by the A layer and B layer, so the impact was The underlying concrete 1 is not affected, and damage to the C layer is prevented, and it is possible to remove the cause of the thin pavement structure 10 peeling off from the concrete floor 1 (effect of impact).

  The thickness at which the impregnating primer composition 11 penetrates into the laminating epoxy resin mortar composition 12 by rolling with a mechanical punch is equal to the coating amount of the impregnating primer composition 11 to be subbed and the epoxy Although it varies depending on the porosity of the resin mortar composition 12, it is usually about 1.5 to 3.0 mm from the adhesive surface.

  In the following, embodiments of the present invention will be described in more detail with reference to Examples and Comparative Examples, but the present invention is not limited to these Examples and Comparative Examples.

A thin-layer pavement structure is paved by the thin-layer pavement construction method of the present invention on the cracked concrete floor slab surface of the distribution warehouse entrance and the structure and performance of the composition are confirmed.
First, remove latencies, dirt, deteriorated parts, etc. adhering to the ground concrete with a polishing machine, shot blasting machine, etc., remove substances that may interfere with adhesion, and mix and stir into the following formulation The primer composition is applied uniformly with a specified amount of roller brush.
After that, immediately mix the epoxy resin mortar composition for lamination described below with a mixer with a tool such as quantitative reiki. Immediately after that, the surface of the laminated epoxy resin mortar composition is rolled with a mechanical punch. After curing for about 12 hours and confirming hardening, Example 1 was obtained.

Construction sequence, process and material consumption (per 1 m ² ) 5.0 mm thickness (1) Pretreatment (polishing and cleaning)
(2) Applying a primer composition for impregnation to the concrete floor slab surface (amount used is 0.5 kg)
(3) Laminate epoxy resin mortar composition for lamination (use amount is 10Kg)
(4) Machine finishing

  Typical formulation used for thin pavement structure of the present invention

Primer composition for impregnation Polysulfide-modified epoxy resin 100 parts by weight Bisphenol type epoxy resin 50 parts by weight Modified aliphatic polyamine 47 parts by weight Adhesive aid Slight viscosity modifier Small amount

Epoxy resin mortar composition for lamination Bisphenol-type epoxy resin 100 parts by weight Modified aliphatic polyamine 40 parts by weight No. 4 cinnabar No. 4 560 parts by weight No. 5 cinnabar sand 560 parts by weight Viscosity modifier Small amount Polysulfide-modified epoxy resin (Toray Fine Chemical Co., Ltd. LP-3 containing), bisphenol epoxy resin (EP-828 manufactured by Japan Epoxy Resin Co., Ltd.), modified aliphatic polyamine (EH-220 manufactured by Asahi Denka Kogyo Co., Ltd.), and sand (Ube Kosan Co., Ltd. (Ube Kosuna)) used.

In order to confirm the physical property performance of the present invention, sampling with the above composition was performed, and after curing for 90 days at room temperature, the hardness and elongation of the primer composition for impregnation alone (this is referred to as “Example 2-1”) were measured according to JIS. Measured based on the test method.
In addition, an epoxy resin mortar composition for laminating was filled in a 50φ mold, and after curing, an impregnating primer composition was impregnated to saturation (hereinafter referred to as “Example 2-2”). After normal temperature curing for a day, compression and bending strength were measured based on the JIS test method and compared with the epoxy resin mortar composition for thin layer of Comparative Example 1 later.

[Comparative Example 1]
A normal thin layer pavement composition is paved by a plastering method on the cracked concrete floor slab surface of the same distribution warehouse entrance as in Example 1, and the structure and performance of the composition are confirmed.
First, remove latencies, dirt, deteriorated parts, etc. adhering to the base concrete with a polishing machine, shot blasting machine, etc., remove substances that may interfere with adhesion, and mix and stir to the following composition Apply the agent evenly with a specified amount of roller brush. Immediately after application, the following epoxy resin mortar for laminating mixed with a mixer was applied smoothly with a specified amount of slag. After curing for about 12 hours, curing was confirmed and Comparative Example 1 was obtained.

Construction sequence, process and material consumption (per 1 m ² ) 5 mm thickness (1) Pretreatment (polishing and cleaning)
(2) Applying primer to concrete floor slab surface 0.3kg
(3) Laminate epoxy resin mortar 10kg
(4) Finishing by plasterer

  Normal thin pavement composition

Subbing agent Bisphenol type epoxy resin 100 parts by weight Modified aliphatic polyamine 40 parts by weight Adhesive aid Slight viscosity modifier Small amount

Epoxy resin mortar composition for thin layer 100 parts by weight modified aliphatic polyamine 40 parts by weight Modified aliphatic polyamine No. 4 560 parts by weight No. 5 560 parts by weight Adhesive aid Slight viscosity modifier Small amount

In order to confirm the physical property performance of the comparative example, sampling with the above composition was performed, and the hardness and elongation of the primer composition alone (hereinafter referred to as “Comparative Example 2-1”) were measured based on the JIS test.
Moreover, the epoxy resin mortar composition for lamination of Comparative Example 2 was filled in a 50φ mold (this is referred to as “Comparative Example 2-2”), and after curing at room temperature for 90 days, the compression and bending strength were measured based on the JIS measurement method. did.

[Confirmation of evaluation]
Table 1 shows the pavement surface state, impact test, and adhesion test results for Example 1 and Comparative Example 1 after 6 months of construction.
For Example 1 and Comparative Example 1, in order to confirm the penetration state of the primer material into the laminated epoxy resin mortar thin pavement, the core was removed and the penetration state from the base adhesive surface was measured.
Impact resistance: Drop a 1,8Kg steel ball from the height of 80cm to the same location and check the abnormal condition of the floor.
Adhesion test: JIS-A-5536
Construction on crack: Construction on existing crack

Table 2 shows the results of various physical property tests of Example 2 and Comparative Example 2.
Compression test: JIS-R-5201
Bending test: JIS-R-5201
Hardness test: Shore D penetration meter Elongation test: JIS-K-6251

  From this result, the thin pavement structure of the present invention has the impact resistance, absorbs the distortion of the underlying concrete, has good adhesion and does not peel off as compared with the conventional thin pavement structure. Indicates performance.

DESCRIPTION OF SYMBOLS 1 Concrete floor 10 Thin-layer pavement structure 11 Undercoat composition for impregnation 11a Undercoat layer 12 Epoxy resin mortar composition 12a Resin mortar layer

Claims (8)

A base material composed of a polysulfide-modified epoxy resin having a polysulfide skeleton and a bisphenol skeleton, and a primer composition for impregnation in which a curing agent composed of a modified aliphatic polyamine is mixed and stirred are applied to the surface of a concrete floor or an asphalt floor,
An epoxy resin mortar composition obtained by mixing and stirring an epoxy resin binder composition in which a curing agent composed of a bisphenol type epoxy resin and a modified aliphatic polyamine is mixed with an aggregate is placed on the above-mentioned impregnating primer composition before curing. Laminated to
A thin-layer pavement characterized in that the epoxy resin mortar composition is impregnated with the epoxy resin mortar composition by rolling the surface of the epoxy resin mortar composition with a mechanical punch. Structure. A base material composed of a polysulfide-modified epoxy resin having an organic group containing a polysulfide skeleton and an organic group containing a bisphenol skeleton and a curing agent composed of a modified aliphatic polyamine mixed and stirred into a concrete floor or asphalt An undercoat layer applied to the floor surface;
An epoxy resin mortar composition obtained by mixing and stirring an epoxy resin binder composition in which a curing agent composed of a bisphenol type epoxy resin and a modified aliphatic polyamine is mixed with an aggregate is laminated on the above-mentioned impregnation primer composition. A resin mortar layer,
The resin mortar layer is impregnated with the undercoat composition for impregnation of the undercoat layer from the bottom part in contact with the undercoat layer to the middle part in the thickness direction not reaching the surface of the resin mortar layer. The impregnation concentration of the impregnating primer composition gradually changes from a high concentration to a low concentration as it progresses from the bottom in contact with the undercoat layer to an intermediate portion in the thickness direction that does not reach the surface of the resin mortar layer. A thin pavement structure characterized by that. The base coating composition for impregnation used for constituting the thin pavement structure according to claim 1 or 2 has an application amount of 0.3 to 0.8 kg per 1 m ² , and its base material In the polysulfide-modified epoxy resin, the ratio of the organic group having a polysulfide skeleton is 5 to 25% by weight.   The said primer composition for an impregnation used in order to comprise the thin-layer pavement structure of Claim 1 or Claim 2 is that mixed viscosity is 1000-2500 mPa * s (25 degreeC), It is characterized by the above-mentioned. A primer composition for impregnation.   The said epoxy resin mortar composition used in order to comprise the thin-layer pavement structure of Claim 1 or Claim 2, The compounding ratio of the said aggregate with respect to the said epoxy resin binder composition is 4 to 12 times, And the particle size of the said aggregate is 0.2-1.5 mm, The epoxy resin mortar composition characterized by the above-mentioned.   The epoxy resin mortar composition used for constituting the thin pavement structure according to claim 1 or 2 has a porosity of 5 to 18%.   The said epoxy resin binder composition of the said epoxy resin mortar composition used in order to comprise the thin-layer pavement structure of Claim 1 or Claim 2 has the mixed viscosity of 300-2500 mPa * s (25 degreeC). An epoxy resin binder composition characterized by being. An undercoating composition for impregnation prepared by mixing and stirring a base material made of a polysulfide-modified epoxy resin having an organic group containing a polysulfide skeleton and an organic group containing a bisphenol skeleton and a curing agent made of a modified aliphatic polyamine was applied in an amount of 1 m. ^It is applied to the surface of concrete floor or asphalt floor so that 0.3 to 0.8 kg per ²
The impregnating primer composition cures an epoxy resin mortar composition with a mixture of a bisphenol-type epoxy resin and a curing agent composed of a modified aliphatic polyamine mixed with an aggregate and an agglomerated epoxy resin mortar composition. Layered on this impregnating primer composition before
By rolling the surface of the epoxy resin mortar composition with a mechanical punch having a weight of 40 to 120 kg, the primer composition for impregnation is transferred from the bottom of the epoxy resin mortar composition to the epoxy resin mortar composition. A thin pavement method characterized by impregnation.