JPH0442875A - Production of lightweight inorganic product - Google Patents

Abstract

PURPOSE:To achieve lightweight while maintaining the strength by replacing part of an inorganic lightweight expanded aggregate with fly ash having <=0.5 bulk specific gravity in cement blend of a lightweight inorganic product. CONSTITUTION:Equal amounts of cement and quartz sand are blended with required reinforcing fiber, a filler and an inorganic lightweight expanded aggregate (perlite, silas balloon, etc.). In the blend of the aforementioned inorganic product, the above-mentioned inorganic lightweight expanded aggregate in an amount of (1/4) to (1/2) based on the total amount thereof is replaced with fly ash having <=0.5 bulk specific gravity. The aforementioned fly ash is sufficiently made to reacted with cement grains to form a firm matrix in a state surrounding the expanded aggregate and contribute to the reduction of weight.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 この発明は軽量無機質製品の製造方法に関し、詳しくは
、無機質軽量発泡骨材を添加した常法配合における軽量
無機質製品の製造方法の改良に関する。DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method for producing lightweight inorganic products, and more particularly, to an improvement in the method for producing lightweight inorganic products in a conventional blending process in which inorganic lightweight foamed aggregate is added.

〔従来の技術〕[Conventional technology]

従来、無機質建材の軽量化をはかるため、セメント、珪
砂よりなるセメント配合物にパーライト、プラスバルー
ン等の無機質軽量発泡骨材を添加し、この添加物により
軽量化を達成することが種々行われている。Conventionally, in order to reduce the weight of inorganic building materials, various attempts have been made to add inorganic lightweight foamed aggregates such as perlite and plus balloons to cement mixtures consisting of cement and silica sand, and to achieve weight reduction with these additives. There is.

〔従来技術の問題点〕[Problems with conventional technology]

ところで、上記無機質軽量発泡骨材は添加すればするほ
ど軽量化は促進されるがこれと共に強度の低下も生し、
やがては建材として実用出来ない程度にまで強度が低下
する欠点があった。By the way, the more the above-mentioned inorganic lightweight foamed aggregate is added, the more weight reduction is promoted, but along with this, the strength also decreases.
The drawback was that the strength eventually decreased to the point where it could no longer be used as a building material.

従って、無機質建材における強度と軽量化は相反する関
係となり、建材の用途に応し何れかを犠牲としなければ
ならない問題があった。Therefore, strength and weight reduction in inorganic building materials have a contradictory relationship, and there has been a problem that one or the other must be sacrificed depending on the use of the building material.

（発明が解決しようとする課題〕 この発明は上記問題に鑑み、軽量化が達成できると同時
に強度の低下も防止し得る軽量無機質製品の製造方法を
提供することを目的としてなされたものである。(Problems to be Solved by the Invention) In view of the above problems, the present invention has been made for the purpose of providing a method for manufacturing a lightweight inorganic product that can achieve weight reduction and at the same time prevent a decrease in strength.

〔課題を解決するに至った技術〕[Technology that led to solving the problem]

即ち、この発明の軽量無機質製品の製造方法はセメント
と珪砂との配合比が略１：１とされ、これに対し必要な
補強繊維、充填材を添加しさらに無機質軽量発泡骨材を
添加してなる常法による軽量無機質製品のセメント配合
において、無機質軽量発泡骨材の添加量の内そのｌ／４
〜１／２量をかさ比重０．５以下のフライアッシュに置
換することを特徴とするものである。That is, in the method for producing a lightweight inorganic product of the present invention, the blending ratio of cement and silica sand is approximately 1:1, and the necessary reinforcing fibers and fillers are added to this, as well as an inorganic lightweight foamed aggregate. In the cement formulation of lightweight inorganic products using the conventional method, 1/4 of the amount of inorganic lightweight foamed aggregate added.
It is characterized in that ~1/2 of the amount is replaced with fly ash having a bulk specific gravity of 0.5 or less.

〔作用〕[Effect]

この発明において前提とするセメント配合そのものは従
来常法により実施されているものでこの点に特徴は無い
。The cement mixture itself, which is the premise of this invention, has been conventionally carried out by conventional methods and is not unique in this respect.

この発明において、軽量化に使用する無機質軽量発泡骨
材としてはパーライト、シラスバルーン等の天然発泡軽
量骨材の他、人工軽量発泡骨材がある。In this invention, inorganic lightweight foamed aggregates used for weight reduction include natural foamed lightweight aggregates such as perlite and shirasu balloons, as well as artificial lightweight foamed aggregates.

この発明において、軽量発泡骨材の添加量において、そ
の添加量の１／４〜１／２をかさ比重０．５以下のフラ
イアッシュに置換する。In this invention, 1/4 to 1/2 of the amount of lightweight foamed aggregate added is replaced with fly ash having a bulk specific gravity of 0.5 or less.

このフライアッシュは５ｉ（ｈの他ＣａＯも多量に含む
ため反応性が高く、従ってパーライト等の粒径の大きい
発泡骨材の間隙においてセメント粒子と良く反応し発泡
骨材を取り囲む状態で強固なマトリックスを形成する。This fly ash has high reactivity because it contains a large amount of CaO in addition to 5i (h), so it reacts well with cement particles in the gaps between foamed aggregates with large particle sizes such as perlite, and forms a strong matrix surrounding the foamed aggregates. form.

一方、このフライアッシュとしてかさ比″１０．５以下
のものを用いれば、製品全体の軽量化にも寄与する。On the other hand, if a fly ash with a bulk ratio of 10.5 or less is used, it also contributes to reducing the weight of the entire product.

この発明においてフライアッシュを軽量発泡骨材の添加
量の１／４〜１／２Ｍ換するのは、１／４より少ない置
換量の場合は十分な建材強度が得られないからであり、
また１／２より多い置換量の場合はフライアッシュの水
和反応で生しる水和物質により返ってセメントマトリッ
クスの強度が損なわれるからである。In this invention, the reason why fly ash is replaced by 1/4 to 1/2 M of the added amount of lightweight foamed aggregate is because if the replacement amount is less than 1/4, sufficient strength of the building material cannot be obtained.
Moreover, if the amount of substitution is more than 1/2, the strength of the cement matrix will be impaired due to hydrated substances produced by the hydration reaction of fly ash.

〔実施例〕〔Example〕

次にこの発明の詳細な説明する。 Next, this invention will be explained in detail.

軽量発泡骨材としてかさ比重０．２１のパーライトを、
またシリカ源としてかさ比重０．３７のフライアッシュ
を用意し、表１の配合として厚さ５Ｎ縦横３００１の試
験片を賦形し、オートクレーブにて養生した。Perlite with a bulk specific gravity of 0.21 is used as a lightweight foam aggregate.
In addition, fly ash with a bulk specific gravity of 0.37 was prepared as a silica source, and a test piece with a thickness of 5N and 3001 mm in length and width was shaped using the formulation shown in Table 1, and was cured in an autoclave.

試験片について比重及び強度試験を行ったところ表１下
欄に示す結果となった。When specific gravity and strength tests were conducted on the test pieces, the results were shown in the lower column of Table 1.

表　　１ 骨材を使用して軽量無機質製品を製造する場合において
、フライアッシュの反応特性を利用しパーライトの軽量
化を損なうことなく製品の強度を量配合表中の数字は重
量％を示す。Table 1: When manufacturing lightweight inorganic products using aggregate, the reaction characteristics of fly ash can be used to increase the strength of the product without sacrificing the weight reduction of pearlite.The numbers in the formulation table indicate weight percent.

曲げ強度の単位はｋｇ／ｃｊ 表１より明らかなように、本願発明による場合、比重が
１．０２であるのに係わらずこれと時開等の比重である
比較例１に比べ強度が向上しているのが確認された。The unit of bending strength is kg/cj. As is clear from Table 1, in the case of the present invention, even though the specific gravity is 1.02, the strength is improved compared to Comparative Example 1, which has a specific gravity of 1.02. It was confirmed that

また比較例２．３より明らかなように比重に比し本願発
明は強度が優れることが判明した。Furthermore, as is clear from Comparative Example 2.3, it was found that the strength of the present invention is superior compared to the specific gravity.

〔効果〕〔effect〕

以上説明しように、この発明は無機質軽量発泡手続補正
書は劃 平成２年　９月 １゜ ２゜ ３゜ 事件の表示 平成２年特許願第１４９６５８号 発明の名称 軽量無機質製品の製造方法 補正をする者 事件との間係　　特許出願人 住所　大阪市浪速区敷津東−丁目２番４７号４、代理人
　〒６６５ 住所　兵庫県宝塚市千種１丁目１２番３号６、補正の対
象 （１）　　明細書の発明の詳細な説明の欄７、補正の内
容As explained above, this invention is based on an amendment to the inorganic lightweight foaming procedure filed in September 1990, September 1, 2, 3, 1990 Patent Application No. 149658. Patent applicant address: 2-47-4 Shikitsu Higashi-chome, Naniwa-ku, Osaka, Japan; Agent: 665 Address: 1-12-3-6 Chikusa, Takarazuka-shi, Hyogo; Subject of amendment (1) Details Column 7 of detailed explanation of the invention in the document, contents of amendment

Claims (1)

【特許請求の範囲】[Claims] （１）セメントと珪砂との配合比が略１：１とされ、こ
れに対し必要な補強繊維、充填材を添加しさらに無機質
軽量発泡骨材を添加してなる常法による軽量無機質製品
のセメント配合において、無機質軽量発泡骨材の添加量
の内その１／４〜１／２量をかさ比重０．５以下のフラ
イアッシュに置換することを特徴とする軽量無機質製品
の製造方法。(1) Cement is a lightweight inorganic product produced by a conventional method in which the blending ratio of cement and silica sand is approximately 1:1, and the necessary reinforcing fibers and fillers are added, as well as inorganic lightweight foamed aggregate. A method for producing a lightweight inorganic product, which comprises replacing 1/4 to 1/2 of the added amount of inorganic lightweight foamed aggregate with fly ash having a bulk specific gravity of 0.5 or less in the blending process.