JPS58199965A - Construction of prestressed concrete - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a hub rest concrete construction method.

Conventionally, when constructing prestressed concrete, a method of applying prestress to the concrete using a pretensioning method or a post tensioning method has been widely adopted.

Among these, in the boss tensioning method, as shown in Fig. 1, a PC steel material covered with a force (a) is placed in a formwork (
Concrete C is poured and after the concrete C hardens, tension is applied to the prestressed steel material to give prestress.

This method requires the troublesome work of passing the PC steel material through the sheath a, and in order to ensure the adhesion of the concrete C to the PC steel material, work such as pouring cement paste etc. into the sheath a is required. It becomes necessary.

The purpose of this invention is to improve the above-mentioned drawbacks, and it uses a prestressing steel material coated with an anti-friction agent containing a setting retardant and an elution modifier as main components, thereby reducing the amount of concrete surrounding the prestressing steel material. Delaying hardening and applying tension to PC steel is easier and more reliable! ! An object of the present invention is to provide a prestressed concrete construction method that can introduce prestress into 4ζ concrete and can bring concrete and PC steel into close contact after the introduction of prestress.

Next, the invention will be explained in detail based on the embodiment shown in FIG.

In the prestressed concrete construction method according to the present invention, a PC steel bar 2 coated with an anti-friction agent 1 is used.

As the lubricant 1, one whose main components are a setting retarder and an elution modifier is used.

Examples of setting retarders include AE agents, water reducing agents, A11f water reducing agents, etc., which have a curing retarding effect.

Examples include oxycarboxylic acid derivatives, polyol complexes, alkylbenzene sulfonic acid salts, Kuninsul heptaonic acid salts, oxycarboxylic acid salts, alkylaryl sulfonic acid polymers, and the like. In addition, as an elution modifier, it becomes highly viscous and can adhere to solid surfaces, and a hardening retarder is dissolved or dispersed in it, and it is applied to the concrete layer poured in contact with it. A substance that has the property of eluting or migrating one by one, such as carboquine methyl cellulose (CMO).
, polyvinyl alcohol (PTA), polyacrylic acid, polymethacrylic acid, and other water-soluble synthetic polymers, starch paste and other natural glues, and grease.

The anti-friction agent is prepared by blending the set retardant and elution modifier as described above.
It is used to delay the hardening of concrete around steel materials, and it is necessary to adjust the hardening time of concrete depending on the time when prestressing is introduced. In such cases, it is possible to adjust the hardening time of concrete by changing the composition of the setting retarder and elution control agent.

Next, the construction order will be explained.

A PC steel rod 2 is used as the PC steel material, and a threaded portion 21 is formed at the end of the PC steel rod 2. The above-mentioned anti-friction agent 1 is applied to the entire outer circumference of the PC steel rod 2.

This PC steel rod 2 is placed in a formwork (not shown).

Place concrete 3.

Even if the concrete 3 hardens, the hardening of only the concrete 3 around the PC steel rod 2 is delayed due to the eluted setting retarder. Therefore, when applying tension to the PC steel bar 2 and introducing prestress, it is easy to introduce prestress because the concrete is not in close contact with the PC steel bar 2. A bearing plate 22° nut 23 is fitted into the screw s21 of the PC steel bar 2.

After the introduction of the breath stress, the concrete 3 around the PC steel rod 2 hardens and the PC steel rod 2 and concrete 3 are brought into close contact.

Since the prestressed concrete construction method to which this invention is based has the above-mentioned configuration, the following effects can be obtained.

■ Because we used PC steel coated with an anti-friction agent whose main ingredients are a setting retarder and an elution modifier, the hardening of the concrete around the PC steel is delayed, making it easier to introduce prestress.

■ After introducing prestress, the concrete around the PC steel material hardens, and it is possible to achieve close contact between the PC steel material and concrete without injecting cement milk or the like.

■ The timing of introducing prestress can also be freely controlled by changing the composition of the setting retarder and elution modifier.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view of a conventional prestressed concrete construction state, and FIG. 2 is a longitudinal sectional view of an embodiment of the prestressed concrete construction state according to the present invention. 1. Anti-friction agent 2. PC steel 6. Concrete -
to

Claims (1)

[Claims] PC steel material coated with an anti-friction agent mainly consisting of a setting retarder and an elution modifier is placed in the formwork and concrete is poured.
A prestressed concrete construction method characterized by applying prestress by tensioning the PC steel material after the concrete has hardened.