JP2014110811A - Method for constructing weed-proof material using steel slag - Google Patents

Method for constructing weed-proof material using steel slag Download PDF

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JP2014110811A
JP2014110811A JP2014050551A JP2014050551A JP2014110811A JP 2014110811 A JP2014110811 A JP 2014110811A JP 2014050551 A JP2014050551 A JP 2014050551A JP 2014050551 A JP2014050551 A JP 2014050551A JP 2014110811 A JP2014110811 A JP 2014110811A
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Akie Ichihara
明恵 市原
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Sanyo Special Steel Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a method using a weed-proof material having a weed-proof effect that lasts for a long time, easy to construct and easy to procure, hard to be deteriorated by passing of pedestrians or vehicles after construction, and using steel slag having a low environmental effect.SOLUTION: A method for constructing a weed-proof material, as first means, includes: using the weed-proof material composed of steel slag formed by adjusting a grain size to a continuous grading having a maximum grading of 40 mm, especially, to a grading corresponding to a roadbed material, for being laid for weed-proofing of a soil surface; cutting weeds grown in a section for weed-proofing; and then laying the weed-proof material composed of the steel slag subjected to the grading adjustment on the section for weed-proofing at a thickness of 100 mm or more so as not to expose soil having a grain size of the maximum grading or more forming the soil surface in the section for weed-proofing.

Description

この発明は、遊休地、線路や道路の路肩、あるいは工場内の建屋の周辺の空き地など、景観に対する要求は低いが、長期にわたり雑草の繁茂を抑制することが望まれる場所に対し、雑草の生育を長期的に抑制することを可能とする製鋼スラグを用いた防草材料の施工方法に関する。   The present invention has low demands on the landscape, such as idle land, shoulders of tracks and roads, or vacant land around buildings in factories, but weed growth for places where it is desired to suppress the growth of weeds over a long period of time. It is related with the construction method of the herbicidal material using the steelmaking slag which enables it to suppress long-term.

一般に、雑草の防草技術としては、除草剤や植物生育抑制剤などの化学合成物質の散布や、雑草の刈り取り、あるいは防草シートの敷設による生育抑制が主流である。しかし、除草剤や植物生育抑制剤などの薬剤散布は環境に影響を及ぼす恐れがある上に、効果期間が短く、刈り取りによる防除とともに毎年の防草対策が必要で、継続的には多大の防草費用が必要となる。また防草の対象区画に防草シートを敷設することで雑草の繁茂を防止する、防草シートによる雑草防除は効果の継続期間が長いものの、敷設のための工事費用が高く、また防草シートの劣化や破損により効果が低減する。   In general, as a weed prevention technique, the mainstream is the suppression of growth by spraying chemically synthesized substances such as herbicides or plant growth inhibitors, cutting weeds, or laying a weed prevention sheet. However, the application of chemicals such as herbicides and plant growth inhibitors can affect the environment and has a short effect period. Grass costs are required. In addition, weeds are prevented from growing by laying a weed control sheet in the target area of the weed protection. Although weed control with a weed control sheet has a long duration, the construction cost for laying is high, and the weed control sheet The effect is reduced due to deterioration and breakage.

その他の防草対策として、自然土や真砂土にセメントなどの無機固化物を添加し、対象路面に透水性を有する固化層を形成し、雑草の発芽を防ぐ方法(例えば、特許文献1、2参照。)や、貝殻粉流体のセメント固化層の形成(例えば、特許文献3参照。)や、火山灰と塩の混合物層の敷設により雑草の繁茂を除去する方法(例えば、特許文献4参照。)など、景観及び環境に配慮した防草方法も多数考え出されている。   As other herbicidal measures, a method for preventing weed germination by adding an inorganic solidified material such as cement to natural soil or pure sandy soil to form a solidified layer having water permeability on the target road surface (for example, Patent Documents 1 and 2). And a method of removing weeds by forming a cement solidified layer of shellfish powder fluid (see, for example, Patent Document 3) and laying a mixture layer of volcanic ash and salt (see, for example, Patent Document 4). Numerous grass protection methods that take into consideration the landscape and the environment have been devised.

しかし、透水性を担保した状態でのセメント固化層は強度に不安があり、歩行あるいは車両の運行によりその固化層が破損する可能性があるほか、火山灰や貝殻粉流体などの固化層は、原料の産地が局所的であるため、施工可能な地域が限定され、広範囲にわたる使用が困難である。   However, the solidified layer of cement with guaranteed water permeability is uneasy about strength, and the solidified layer may be damaged by walking or driving the vehicle, and solidified layers such as volcanic ash and shell powder fluid are used as raw materials. Since the production area is local, the area where construction is possible is limited, and it is difficult to use in a wide area.

遊休地のように、将来の用途及びその適用期日が不明であるが、一次的に防草対策が必要な用地であったり、線路や道路の路肩、工場内の建屋周辺の空き地など、日常業務において管理業務に携わる特定の人、あるいは車両の通行が想定される場所での防草対策としては、景観に配慮する必要は低く、安価で防草効果が長期間継続し、環境影響の低い防草材料望ましく、かつ、人あるいは車両の通行によって防草効果が損なわれない強度を有すること、施工の簡便性、材料調達の容易さが必要である。   As in idle land, the future use and its application date are unknown, but it is a site that needs primary herbicidal measures, such as a land that is temporarily required for herbicidal measures, railroads, shoulders of roads, vacant land around buildings in factories, etc. As a herbicidal measure in a place where specific people engaged in management work or where vehicles are expected to pass, it is not necessary to consider the landscape, it is inexpensive, has a long herbicidal effect, and has a low environmental impact. The grass material is desirable and has a strength that does not impair the herbicidal effect due to passage of a person or a vehicle, simple construction, and easy material procurement.

特開2002−186401号公報JP 2002-186401 A 特開2002−194709号公報JP 2002-194709 A 特許第3338016号公報Japanese Patent No. 33338016

財団法人先端建設技術センター発行「建設汚泥リサイクル指針」、p.59“Construction Sludge Recycling Guidelines” issued by Advanced Construction Technology Center, p. 59

本発明が解決しようとする課題は、防草効果が長期間継続し、施工が簡便でかつ材料の調達が容易であり、施工後に人や車両の通行によって防草効果が損なわれることなく、環境影響の低い製鋼スラグを用いた防草材料を用いた施工方法を提供することである。   The problem to be solved by the present invention is that the herbicidal effect continues for a long period of time, the construction is simple and the procurement of materials is easy, and the environmental protection is not impaired by the passage of people or vehicles after construction. It is to provide a construction method using a herbicidal material using steelmaking slag with low influence.

上記の課題を解決するための、本発明の第1の手段は、最大粒度が40mmの連続粒度となるように粒度を調整して形成した製鋼スラグからなる防草材料を土壌面の防草の必要な区画に敷設するための、施工方法である。この施工方法は、防草対象となる区画に植生する雑草を刈り取った後に、最大粒度が40mmの連続粒度となるように、粒度調整した製鋼スラグからなる防草材料を、防草対象の区画の土壌面を形成する防草材料の最大粒度以上の粒度の土壌が露出しない厚さすなわち100mm以上、望ましくは150mm以上の厚さとして防草対象の区画の土壌面に敷設する施工方法である。ここで、雑草を刈り取るとは、雑草を根より除去するか、雑草の地上部を短く刈り取る、一般的な除草作業を指す。   In order to solve the above problems, the first means of the present invention is to use a herbicidal material made of steelmaking slag formed by adjusting the particle size so that the maximum particle size becomes a continuous particle size of 40 mm. It is a construction method for laying in the necessary sections. In this construction method, after weeding vegetation in a section to be protected against grass, a weedproof material made of steelmaking slag whose particle size is adjusted so that the maximum particle size becomes a continuous particle size of 40 mm is used. This is a construction method of laying on the soil surface of the section to be weeded with a thickness that does not expose soil having a particle size equal to or greater than the maximum particle size of the herbicidal material forming the soil surface, that is, a thickness of 100 mm or more, preferably 150 mm or more. Here, mowing weeds refers to a general weeding operation in which weeds are removed from the roots or the above-ground parts of the weeds are cut short.

ところで、道路用の単粒度砕石例えば6号の5〜13mmの粒度のような単粒度は本発明に適さず、この場合は骨材の隙間を埋める細粒分を必要とする。さらに0mm超〜2.5mmの粒度の砕砂などの細粒度のスラグ粒子場合は、スラグ粒子に弱い水硬性があるが、スラグ粒子が凝結する場合は防草効果を示す。また、スラグ粒子の粒度が細かいとこのスラグ粒子を施工した場所を車両や人が通行することで、スラグ粒子が移動あるいは流動し、スラグ粒子の凝結を妨げたり、施工層の厚さが変化する。このために十分な防草効果が得られない。この細かいスラグ粒子の施工場所は交通のない場所に限定して用いる必要がある。   By the way, a single particle size crushed stone for roads, for example, a single particle size such as a particle size of 5 to 13 mm of No. 6, is not suitable for the present invention, and in this case, a fine particle to fill the gaps in the aggregate is required. Furthermore, in the case of fine slag particles such as crushed sand having a particle size of more than 0 mm to 2.5 mm, the slag particles have weak hydraulic properties, but when the slag particles are condensed, a herbicidal effect is exhibited. Also, if the particle size of the slag particles is fine, vehicles and people will pass through the place where the slag particles are constructed, so that the slag particles move or flow, preventing the slag particles from condensing or changing the thickness of the construction layer. . For this reason, a sufficient herbicidal effect cannot be obtained. It is necessary to use this fine slag particle construction place only in places where there is no traffic.

本発明の手段の施工方法に用いる防草材料は、製鋼スラグからなるので極めて難溶性である。このため、製鋼スラグからのカルシウムイオンの溶出は、極めて緩やかに進行し、アルカリ性が長期間持続するため、製鋼スラグからなる防草材料の防草効果は長期間継続する。しかも、製鋼スラグからなる防草材料は環境に及ぼす影響の少ないリサイクル資材である。さらに本発明の手段の防草材料の施工方法では、繁茂している雑草を刈り取った後に、40mm以下の連続粒度、望ましくは路盤材相当粒度に破砕して調整した製鋼スラグを、必要とする土壌面に均一に、かつ、その土壌面を100mm以上、望ましくは150mm以上の厚さで敷設する施工方法は極めて簡易である。しかも、施工後は、仮設道路や、駐車場や、広場や、資材置場などとして使用可能な支持力を得ることができるなど、本発明の手段は優れた効果を奏する。   Since the herbicidal material used in the construction method of the means of the present invention is made of steelmaking slag, it is extremely insoluble. For this reason, the elution of calcium ions from the steelmaking slag proceeds very slowly and the alkalinity lasts for a long time. Therefore, the herbicidal effect of the herbicidal material made of steelmaking slag continues for a long time. Moreover, the herbicidal material made of steelmaking slag is a recycled material with little influence on the environment. Further, in the construction method of the herbicidal material according to the means of the present invention, after cutting overgrown weeds, the steelmaking slag adjusted by crushing to a continuous particle size of 40 mm or less, preferably a particle size equivalent to the roadbed material, is required. The construction method for laying the soil surface uniformly with a thickness of 100 mm or more, preferably 150 mm or more, is extremely simple. In addition, after the construction, the means of the present invention has an excellent effect such that a supporting force that can be used as a temporary road, a parking lot, a plaza, a material storage, and the like can be obtained.

ここで、製鋼スラグが防草効果を発揮するメカニズムについて概説する。製鋼スラグは、酸化カルシウムであるCaOを主成分としているため、雨水などと接触した場合に、表流水及び浸出水がpH10〜11のアルカリ性を示す。一般にアルカリ性土壌は植物の根系の水分吸収や、養分吸収に多大の影響を与え、植物の生長を阻害することが知られており、雑草の種子やスラグを敷設した区画面上に飛来した場合でも、発芽後の生育を阻害し、雑草の定着を阻害する。一方、製鋼スラグ中のカルシウムは、2CaO・SiO2や3CaO・SiO2などのカルシウムシリケートや、3CaO・Al23や12CaO・7Al23などの鉱物層の形態で存在する。製鋼スラグの表流水及び浸出水はアルカリ性を示すが、製鋼スラグは古くより路盤材や土木用材料として天然砕石の代替品として利用されてきた物質であり、極めて難溶性である。このため製鋼スラグからのカルシウムイオンの溶出は、石灰単体などに比べて極めて緩やかに進行し、アルカリ性が長期間継続するために、製鋼スラグの防草効果は長期間継続する。 Here, the mechanism by which steelmaking slag exerts the herbicidal effect will be outlined. Since steelmaking slag has CaO which is calcium oxide as a main component, when it contacts with rainwater etc., surface water and leachate show the alkalinity of pH 10-11. In general, alkaline soil is known to have a significant effect on the water absorption and nutrient absorption of plant roots and inhibit plant growth. Even when it comes to the area where weed seeds and slag are laid, Inhibits growth after germination and inhibits weed colonization. On the other hand, calcium in steelmaking slag, and calcium silicates, such as 2CaO · SiO 2 or 3CaO · SiO 2, in the form of the mineral layer, such as 3CaO · Al 2 O 3 and 12CaO · 7Al 2 O 3. Although surface water and leachate of steelmaking slag are alkaline, steelmaking slag is a substance that has long been used as a substitute for natural crushed stone as a roadbed material and civil engineering material, and is extremely insoluble. For this reason, the elution of calcium ions from the steelmaking slag proceeds very slowly as compared to lime alone and the alkalinity continues for a long period of time, so that the herbicidal effect of the steelmaking slag continues for a long period of time.

本発明に用いる製鋼スラグについて説明すると、鉄鋼の生産の際に、同時に生成される金属酸化物など溶融固化物を、総じて「鉄鋼スラグ」という。この鉄鋼スラグは高炉で銑鉄を製造する際に副生成する「高炉スラグ」と、溶銑やスクラップなどを精錬して鋼を製造する際に同時に生成する「製鋼スラグ」とに分類される。この後者の製鋼スラグは精錬炉の種類によって、さらに転炉系スラグあるいは電気炉系スラグに分類される。さらに、この製鋼スラグの成分について説明すると、製鋼スラグは、製鋼工程で鋼を精錬するため、石灰石やシリカや、酸化アルミ系の造滓材と呼ばれる副原料が、この製鋼工程で投入され、これらの非金属成分と溶鋼が酸化して生成された、酸化鉄などの金属酸化物が製鋼スラグの主成分となっている。すなわち、製鋼スラグの成分は、CaOや、Al23や、SiO2及び金属酸化物であるが、その比率は製造する鋼種の特性に応じた精錬方法によって様々である。このようにして得られた製鋼スラグは金属酸化物を含有するので高比重で高強度である。この製鋼スラグは、緩冷凝固によって鉱物状に凝固させた後、破砕及び粒度調整を行って、路盤材やアスファルト骨材などの道路用材料や、埋め戻し材や、基礎工事用の土木用材料などのリサイクル材料として古くより有効利用されている、環境に及ぼす影響の少ないリサイクル資材である。 The steelmaking slag used in the present invention will be described. A molten solidified product such as a metal oxide that is simultaneously generated during the production of steel is generally referred to as “steel slag”. This steel slag is classified into “blast furnace slag” that is by-produced when producing pig iron in a blast furnace and “steel slag” that is produced simultaneously when producing steel by refining hot metal and scrap. This latter steelmaking slag is further classified into converter slag or electric furnace slag depending on the type of refining furnace. Furthermore, the components of this steelmaking slag will be explained. Since steelmaking slag refines steel in the steelmaking process, limestone, silica, and auxiliary materials called aluminum oxide-based steelmaking materials are introduced in this steelmaking process. A metal oxide such as iron oxide produced by oxidizing non-metallic components and molten steel is the main component of steelmaking slag. That is, the components of the steelmaking slag are CaO, Al 2 O 3 , SiO 2 and metal oxide, but the ratio varies depending on the refining method according to the characteristics of the steel type to be produced. The steelmaking slag thus obtained contains a metal oxide and thus has a high specific gravity and high strength. This steelmaking slag is solidified into a mineral state by slow solidification, then crushed and adjusted in grain size, road materials such as roadbed materials and asphalt aggregates, backfill materials, and civil engineering materials for foundation work It is a recycled material that has been used effectively as a recycled material for a long time and has little impact on the environment.

さらに、環境への影響に関しても、道路の路盤材用途に供される「鉄鋼スラグ混入路盤材」は平成13年4月施行のグリーン購入法の「特定調達品目」として指定されている他に、従来より陸域の使用に際しては土壌環境基準で、海域及び埋立地での利用に際しては環境汚染防止法による水底土砂基準で、それぞれ環境に対する安全性が評価されている物質である。   In addition, regarding the impact on the environment, “steel slag-mixed roadbed material” used for roadbed materials is designated as a “specified procurement item” of the Green Purchasing Law in effect in April 2001. These are substances that have been evaluated for environmental safety according to the soil environmental standards for use in land areas and underwater sediment standards according to the Environmental Pollution Control Law for use in sea areas and landfills.

また、製鋼スラグは高比重かつ保水力の低い物質であるため、路盤材などとして敷設した敷設上面は晴天時には乾燥状態にあり、植物の生育に必要な水分を保水しない。特に、425μm以下の微粉分の少ない、下層路盤材相当の粒度に調整することで、粒子間の目詰まりを防止し、水はけの良い防草層を形成することができる。一方で、土壌にはアルカリ性の原因であるカルシウムイオンの吸着能があるため、有機質土や火山灰質粘性土や粘性土などの土壌で30cm、シルトで50cm以上の厚さの土壌を介することで、アルカリの影響は除去される(例えば、非特許文献1参照。)。このため路盤材としての敷設面下に植樹した植物への影響は少ない。さらに施工の容易さ及び施工後の支持力に関しては、従来の用途が道路用あるいは土木用を主としているのに比して、本発明の手段では、繁茂している雑草を刈り取った後に、最大粒度が40mm以下の連続粒度で、望ましくは上記した路盤材相当の粒度に破砕して調整した製鋼スラグを、土壌面上に均一に散布するだけでよく、施工は簡易である。しかも、施工後は、仮設道路、駐車場、広場、資材置場などとして使用可能な支持力が得られる。また、製鋼スラグは、全国に広く分布する鉄鋼会社より産出されるため、調達も容易で安定した供給が可能である。   Moreover, since steelmaking slag is a substance with high specific gravity and low water retention, the laying upper surface laid as a roadbed material is dry in fine weather, and does not retain moisture necessary for plant growth. In particular, by adjusting the particle size to be equivalent to the lower layer roadbed material with a small amount of fine powder of 425 μm or less, clogging between particles can be prevented, and a well-drained grass prevention layer can be formed. On the other hand, because the soil has the ability to adsorb calcium ions, which are the cause of alkalinity, by passing through soil with a thickness of 30 cm or more in soil such as organic soil, volcanic ash and clay soil, and 50 cm or more in silt, The influence of alkali is removed (for example, refer nonpatent literature 1). For this reason, there is little influence on the plant planted under the laying surface as roadbed material. Furthermore, with regard to the ease of construction and the supporting force after construction, the means of the present invention, after cutting off overgrown weeds, has the maximum grain size compared to the conventional use mainly for roads or civil engineering. However, the steelmaking slag having a continuous particle size of 40 mm or less, desirably crushed and adjusted to a particle size equivalent to the above-mentioned roadbed material, may be simply sprayed on the soil surface, and the construction is simple. Moreover, after the construction, a supporting force that can be used as a temporary road, a parking lot, a plaza, a material storage, etc. is obtained. Steelmaking slag is produced by steel companies that are widely distributed throughout the country, so procurement is easy and stable.

ここで発明を実施するための形態について、表を参照しながら以下に説明する。
1.製鋼スラグの施工厚みに関する試験
粒度40mm以下の連続粒度の路盤材相当粒度に破砕して粒度調整した製鋼スラグを用いて製鋼スラグの施工厚みの試験を、表1に示すように、実施した。この場合、試験場所として、水の供給があり、土壌が常時湿潤状態にあることで、季節を問わず雑草が繁茂している場所を選定した。試験方法は、雑草の地上部を除去した後、木製の型枠を設置し、型枠内に連続粒度で0〜40mmの製鋼スラグを敷設した。施工開始時期は9月とした。なお、施工後の3〜6月は冬期であり植生の発育は遅い。製鋼スラグの施工厚みは0mm(施工なし)、50mm、100mm、150mmとした。
Here, modes for carrying out the invention will be described below with reference to a table.
1. Test Regarding Construction Thickness of Steelmaking Slag As shown in Table 1, the construction thickness test of steelmaking slag was performed using steelmaking slag that was crushed to a grain size equivalent to a roadbed material having a grain size of 40 mm or less and adjusted in particle size. In this case, a place where weeds were prosperous regardless of the season was selected as the test place because water was supplied and the soil was always moist. In the test method, after removing the above-ground part of weeds, a wooden formwork was installed, and steelmaking slag having a continuous particle size of 0 to 40 mm was laid in the formwork. The construction start time was September. In addition, from March to June after the construction is the winter season, vegetation growth is slow. The construction thickness of the steelmaking slag was 0 mm (no construction), 50 mm, 100 mm, and 150 mm.

Figure 2014110811
Figure 2014110811

試験の結果、施工厚み0mm(施工なし)で施工後の3ヶ月で多数の雑草の植生が見られ、また、施工後6ヶ月で多数の雑草の植生が見られた。施工厚み50mmで、施工後3ヶ月及び6ヶ月後でともに型枠の境界付近に単位平方メートル当たり40個の雑草の植生を確認した。これらは発芽ではなく、試験開始前に雑草の地上部を除去した際に、残存した雑草の根から成長した植生であった。型枠の内部からも植生があり、施工厚み50mmでは残存した根からの植生が成長し、製鋼スラグの粒子間を縫って雑草が現れたものと考えられる。一方、施工厚み100mm、150mmでは植生は見られなかった。従って、防草用途に施工する場合は、施工厚み50mm超で100mm以上の厚みで製鋼スラグを敷設する必要があると考えられる。   As a result of the test, a large number of weed vegetation was observed 3 months after the construction at a construction thickness of 0 mm (no construction), and a large number of weed vegetation was seen 6 months after the construction. At a construction thickness of 50 mm, vegetation of 40 weeds per unit square meter was confirmed near the boundary of the formwork at both 3 and 6 months after construction. These were not germination, but vegetation that grew from the roots of the remaining weeds when the aerial parts of the weeds were removed before the start of the test. There is also vegetation from the inside of the mold, and it is considered that vegetation from the remaining roots grew at a construction thickness of 50 mm, and weeds appeared by sewing between the steelmaking slag particles. On the other hand, no vegetation was observed at construction thicknesses of 100 mm and 150 mm. Therefore, when constructing for herbicidal use, it is considered necessary to lay steelmaking slag with a construction thickness of more than 50 mm and a thickness of 100 mm or more.

2.製鋼スラグの材質に関する試験
上記の1.製鋼スラグの施工厚みに関する試験と同様に、雑草の地上部を除去した後、木製の型枠を設置し、型枠内に連続粒度で0〜40mmの製鋼スラグを100mmの厚みで敷設すると共に、型枠内に連続粒度で0〜40mmの天然砕石を100mmの厚みで敷設し、製鋼スラグの材質に関する試験を、表2に示すように、実施した。施工開始時期は9月とした。
2. Test on material of steelmaking slag Similarly to the test on the construction thickness of steelmaking slag, after removing the above-ground part of weeds, a wooden formwork is installed, and a steelmaking slag of 0 to 40 mm in continuous grain size is laid in the formwork with a thickness of 100 mm, A natural crushed stone having a continuous particle size of 0 to 40 mm was laid in the mold with a thickness of 100 mm, and a test on the material of the steelmaking slag was conducted as shown in Table 2. The construction start time was September.

Figure 2014110811
Figure 2014110811

製鋼スラグでは、雑草の植生は3ヶ月後、6ヶ月後ともに確認されておらず、製鋼スラグのアルカリ能により、雑草の成長が抑制されたと考えられる。これに反し、天然砕石では型枠の境界付近を中心に雑草の植生が3ヶ月後、6ヶ月後ともに、単位平方メートル当たり10個の雑草の植生が確認された。しかし、これは発芽ではなく、残存した雑草の根から植生が成長したもので、天然砕石の粒子間を縫って雑草が成長したと考えられる。   In steelmaking slag, vegetation of weeds was not confirmed after 3 months and 6 months, and it is considered that weed growth was suppressed by the alkaline ability of steelmaking slag. On the other hand, weed vegetation was confirmed to be 10 vegetation per unit square meter in both natural crushed stones, mainly in the vicinity of the formwork boundary, after 3 and 6 months. However, this is not germination, but vegetation grew from the roots of the remaining weeds. It is thought that weeds grew by stitching between particles of natural crushed stone.

3.製鋼スラグの粒度に関する試験
上製鋼スラグの粒度に関する試験を連続粒度の0〜40mmと、砂状粒度の0〜2.5mmと、単粒度の5〜13mmとで、製鋼スラグの粒度に関する試験を型枠を使用して表3に示すように実施し、施工開始後の3ヶ月及び6ヶ月後の植生数をそれぞれ確認した。
3. Test on the particle size of steelmaking slag The test on the particle size of steelmaking slag is a test on the particle size of steelmaking slag with continuous particle size of 0-40mm, sandy particle size of 0-2.5mm, and single particle size of 5-13mm. It implemented as shown in Table 3 using a frame, and confirmed the number of vegetation 3 months and 6 months after the start of construction.

Figure 2014110811
Figure 2014110811

施工厚みが連続粒度0〜40mmでは、雑草の植生数は、3ヶ月後及び6ヶ月後のともに単位平方メートル当たり0個であった。砂状粒度0〜2.5mmでは、施工3ヶ月後の時点で型枠境界付近で残存した雑草の根から植生されて雑草の成長したものが単位平方メートル当たり30個確認され、中央部に数ミリ程度の発芽が確認された。しかし、発生した雑草の植生は施工6ヶ月後には単位平方メートル当たり10個に消滅しており、製鋼スラグのアルカリ能が雑草の植生の生育を阻害していることが確認できた。一方、単粒度5〜13mmでは、施工3ヶ月後の時点で型枠境界付近で残存した雑草の根から植生されて雑草の成長したものが単位平方メートル当たり10個確認された。しかし、粒径5mm〜13mmの単粒度砕石は粒子間の隙間が大きく、施工6ヶ月後の生育は十分でなく単位平方メートル当たり10個確認されたのみであった。   When the construction thickness was a continuous particle size of 0 to 40 mm, the number of vegetation of weeds was 0 per square meter after both 3 months and 6 months. When the sandy grain size is 0 to 2.5 mm, 30 weeds grown from the roots of the weeds remaining near the formwork boundary 3 months after the construction were confirmed per unit square meter. Germination was confirmed. However, the weed vegetation generated disappeared to 10 pieces per unit square meter 6 months after the construction, and it was confirmed that the alkaline ability of the steelmaking slag inhibited the growth of the vegetation of weeds. On the other hand, with a single particle size of 5 to 13 mm, 10 weeds per unit square meter were confirmed that were vegetated from the roots of the weeds that remained in the vicinity of the formwork boundary at the time 3 months after the construction, and the weeds grew. However, single-grain crushed stones with a particle size of 5 to 13 mm have large gaps between particles, and the growth after 6 months of construction was not sufficient, and only 10 pieces were confirmed per unit square meter.

本発明の施工方法において雑草を除去した後、なお、雑草の根が残っている場合は、本発明における連続粒度の製鋼スラグを敷設した後に、その上からローラーにより転圧を行うものとすることで、施工後の雑草の植生を抑えるものとすることもできる。   After weeds are removed in the construction method of the present invention, if weed roots remain, after laying the continuous-grade steelmaking slag in the present invention, rolling is performed by a roller from above. It is also possible to suppress weed vegetation after construction.

この発明は、遊休地、線路や道路の路肩、あるいは工場内の建屋の周辺の空き地など、景観に対する要求は低いが、長期にわたり雑草の繁茂を抑制することが望まれる場所に対し、雑草の生育を長期的に抑制することを可能とする製鋼スラグを用いた防草材料の施工方法に関する。   The present invention has low demands on the landscape, such as idle land, shoulders of tracks and roads, or vacant land around buildings in factories, but weed growth for places where it is desired to suppress the growth of weeds over a long period of time. It is related with the construction method of the herbicidal material using the steelmaking slag which enables it to suppress long-term.

一般に、雑草の防草技術としては、除草剤や植物生育抑制剤などの化学合成物質の散布や、雑草の刈り取り、あるいは防草シートの敷設による生育抑制が主流である。しかし、除草剤や植物生育抑制剤などの薬剤散布は環境に影響を及ぼす恐れがある上に、効果期間が短く、刈り取りによる防除とともに毎年の防草対策が必要で、継続的には多大の防草費用が必要となる。また防草の対象区画に防草シートを敷設することで雑草の繁茂を防止する、防草シートによる雑草防除は効果の継続期間が長いものの、敷設のための工事費用が高く、また防草シートの劣化や破損により効果が低減する。   In general, as a weed prevention technique, the mainstream is the suppression of growth by spraying chemically synthesized substances such as herbicides or plant growth inhibitors, cutting weeds, or laying a weed prevention sheet. However, the application of chemicals such as herbicides and plant growth inhibitors can affect the environment and has a short effect period. Grass costs are required. In addition, weeds are prevented from growing by laying a weed control sheet in the target area of the weed protection. Although weed control with a weed control sheet has a long duration, the construction cost for laying is high, and the weed control sheet The effect is reduced due to deterioration and breakage.

その他の防草対策として、自然土や真砂土にセメントなどの無機固化物を添加し、対象路面に透水性を有する固化層を形成し、雑草の発芽を防ぐ方法(例えば、特許文献1、2参照。)や、貝殻粉流体のセメント固化層の形成(例えば、特許文献3参照。)や、火山灰と塩の混合物層の敷設により雑草の繁茂を除去する方法(例えば、特許文献4参照。)など、景観及び環境に配慮した防草方法も多数考え出されている。   As other herbicidal measures, a method for preventing weed germination by adding an inorganic solidified material such as cement to natural soil or pure sandy soil to form a solidified layer having water permeability on the target road surface (for example, Patent Documents 1 and 2). And a method of removing weeds by forming a cement solidified layer of shellfish powder fluid (see, for example, Patent Document 3) and laying a mixture layer of volcanic ash and salt (see, for example, Patent Document 4). Numerous grass protection methods that take into consideration the landscape and the environment have been devised.

しかし、透水性を担保した状態でのセメント固化層は強度に不安があり、歩行あるいは車両の運行によりその固化層が破損する可能性があるほか、火山灰や貝殻粉流体などの固化層は、原料の産地が局所的であるため、施工可能な地域が限定され、広範囲にわたる使用が困難である。   However, the solidified layer of cement with guaranteed water permeability is uneasy about strength, and the solidified layer may be damaged by walking or driving the vehicle, and solidified layers such as volcanic ash and shell powder fluid are used as raw materials. Since the production area is local, the area where construction is possible is limited, and it is difficult to use in a wide area.

遊休地のように、将来の用途及びその適用期日が不明であるが、一次的に防草対策が必要な用地であったり、線路や道路の路肩、工場内の建屋周辺の空き地など、日常業務において管理業務に携わる特定の人、あるいは車両の通行が想定される場所での防草対策としては、景観に配慮する必要は低く、安価で防草効果が長期間継続し、環境影響の低い防草材料望ましく、かつ、人あるいは車両の通行によって防草効果が損なわれない強度を有すること、施工の簡便性、材料調達の容易さが必要である。   As in idle land, the future use and its application date are unknown, but it is a site that needs primary herbicidal measures, such as a land that is temporarily required for herbicidal measures, railroads, shoulders of roads, vacant land around buildings in factories, etc. As a herbicidal measure in a place where specific people engaged in management work or where vehicles are expected to pass, it is not necessary to consider the landscape, it is inexpensive, has a long herbicidal effect, and has a low environmental impact. The grass material is desirable and has a strength that does not impair the herbicidal effect due to passage of a person or a vehicle, simple construction, and easy material procurement.

特開2002−186401号公報JP 2002-186401 A 特開2002−194709号公報JP 2002-194709 A 特許第3338016号公報Japanese Patent No. 33338016

財団法人先端建設技術センター発行「建設汚泥リサイクル指針」、p.59“Construction Sludge Recycling Guidelines” issued by Advanced Construction Technology Center, p. 59

本発明が解決しようとする課題は、防草効果が長期間継続し、施工が簡便でかつ材料の調達が容易であり、施工後に人や車両の通行によって防草効果が損なわれることなく、環境影響の低い製鋼スラグを用いた防草材料を用いた施工方法を提供することである。   The problem to be solved by the present invention is that the herbicidal effect continues for a long period of time, the construction is simple and the procurement of materials is easy, and the environmental protection is not impaired by the passage of people or vehicles after construction. It is to provide a construction method using a herbicidal material using steelmaking slag with low influence.

上記の課題を解決するための、本発明の第1の手段は、最大粒度が40mmの連続粒度となるように粒度を調整して形成した製鋼スラグからなる防草材料を土壌面の防草の必要な区画に敷設するための、施工方法である。この施工方法は、防草対象となる区画に植生する雑草を刈り取った後に、最大粒度が40mmの連続粒度となるように、粒度調整した製鋼スラグからなる防草材料を、防草対象の区画の土壌面を形成する防草材料の最大粒度以上の粒度の土壌が露出しない厚さすなわち100mm以上、望ましくは150mm以上の厚さとして防草対象の区画の土壌面に敷設する施工方法である。ここで、雑草を刈り取るとは、雑草を根より除去するか、雑草の地上部を短く刈り取る、一般的な除草作業を指す。   In order to solve the above problems, the first means of the present invention is to use a herbicidal material made of steelmaking slag formed by adjusting the particle size so that the maximum particle size becomes a continuous particle size of 40 mm. It is a construction method for laying in the necessary sections. In this construction method, after weeding vegetation in a section to be protected against grass, a weedproof material made of steelmaking slag whose particle size is adjusted so that the maximum particle size becomes a continuous particle size of 40 mm is used. This is a construction method of laying on the soil surface of the section to be weeded with a thickness that does not expose soil having a particle size equal to or greater than the maximum particle size of the herbicidal material forming the soil surface, that is, a thickness of 100 mm or more, preferably 150 mm or more. Here, mowing weeds refers to a general weeding operation in which weeds are removed from the roots or the above-ground parts of the weeds are cut short.

ところで、道路用の単粒度砕石例えば6号の5〜13mmの粒度のような単粒度は本発明に適さず、この場合は骨材の隙間を埋める細粒分を必要とする。さらに0mm超〜2.5mmの粒度の砕砂などの細粒度のスラグ粒子場合は、スラグ粒子に弱い水硬性があるが、スラグ粒子が凝結する場合は防草効果を示す。また、スラグ粒子の粒度が細かいとこのスラグ粒子を施工した場所を車両や人が通行することで、スラグ粒子が移動あるいは流動し、スラグ粒子の凝結を妨げたり、施工層の厚さが変化する。このために十分な防草効果が得られない。この細かいスラグ粒子の施工場所は交通のない場所に限定して用いる必要がある。   By the way, a single particle size crushed stone for roads, for example, a single particle size such as a particle size of 5 to 13 mm of No. 6, is not suitable for the present invention, and in this case, a fine particle to fill the gaps in the aggregate is required. Furthermore, in the case of fine slag particles such as crushed sand having a particle size of more than 0 mm to 2.5 mm, the slag particles have weak hydraulic properties, but when the slag particles are condensed, a herbicidal effect is exhibited. Also, if the particle size of the slag particles is fine, vehicles and people will pass through the place where the slag particles are constructed, so that the slag particles move or flow, preventing the slag particles from condensing or changing the thickness of the construction layer. . For this reason, a sufficient herbicidal effect cannot be obtained. It is necessary to use this fine slag particle construction place only in places where there is no traffic.

本発明の手段の施工方法に用いる防草材料は、製鋼スラグからなるので極めて難溶性である。このため、製鋼スラグからのカルシウムイオンの溶出は、極めて緩やかに進行し、アルカリ性が長期間持続するため、製鋼スラグからなる防草材料の防草効果は長期間継続する。しかも、製鋼スラグからなる防草材料は環境に及ぼす影響の少ないリサイクル資材である。さらに本発明の手段の防草材料の施工方法では、繁茂している雑草を刈り取った後に、40mm以下の連続粒度、望ましくは路盤材相当粒度に破砕して調整した製鋼スラグを、必要とする土壌面に均一に、かつ、その土壌面を100mm以上、望ましくは150mm以上の厚さで敷設する施工方法は極めて簡易である。しかも、施工後は、仮設道路や、駐車場や、広場や、資材置場などとして使用可能な支持力を得ることができるなど、本発明の手段は優れた効果を奏する。   Since the herbicidal material used in the construction method of the means of the present invention is made of steelmaking slag, it is extremely insoluble. For this reason, the elution of calcium ions from the steelmaking slag proceeds very slowly and the alkalinity lasts for a long time. Therefore, the herbicidal effect of the herbicidal material made of steelmaking slag continues for a long time. Moreover, the herbicidal material made of steelmaking slag is a recycled material with little influence on the environment. Further, in the construction method of the herbicidal material according to the means of the present invention, after cutting overgrown weeds, the steelmaking slag adjusted by crushing to a continuous particle size of 40 mm or less, preferably a particle size equivalent to the roadbed material, is required. The construction method for laying the soil surface uniformly with a thickness of 100 mm or more, preferably 150 mm or more, is extremely simple. In addition, after the construction, the means of the present invention has an excellent effect such that a supporting force that can be used as a temporary road, a parking lot, a plaza, a material storage, and the like can be obtained.

ここで、製鋼スラグが防草効果を発揮するメカニズムについて概説する。製鋼スラグは、酸化カルシウムであるCaOを主成分としているため、雨水などと接触した場合に、表流水及び浸出水がpH10〜11のアルカリ性を示す。一般にアルカリ性土壌は植物の根系の水分吸収や、養分吸収に多大の影響を与え、植物の生長を阻害することが知られており、雑草の種子やスラグを敷設した区画面上に飛来した場合でも、発芽後の生育を阻害し、雑草の定着を阻害する。一方、製鋼スラグ中のカルシウムは、2CaO・SiO2や3CaO・SiO2などのカルシウムシリケートや、3CaO・Al23や12CaO・7Al23などの鉱物層の形態で存在する。製鋼スラグの表流水及び浸出水はアルカリ性を示すが、製鋼スラグは古くより路盤材や土木用材料として天然砕石の代替品として利用されてきた物質であり、極めて難溶性である。このため製鋼スラグからのカルシウムイオンの溶出は、石灰単体などに比べて極めて緩やかに進行し、アルカリ性が長期間継続するために、製鋼スラグの防草効果は長期間継続する。 Here, the mechanism by which steelmaking slag exerts the herbicidal effect will be outlined. Since steelmaking slag has CaO which is calcium oxide as a main component, when it contacts with rainwater etc., surface water and leachate show the alkalinity of pH 10-11. In general, alkaline soil is known to have a significant effect on the water absorption and nutrient absorption of plant roots and inhibit plant growth. Even when it comes to the area where weed seeds and slag are laid, Inhibits growth after germination and inhibits weed colonization. On the other hand, calcium in steelmaking slag, and calcium silicates, such as 2CaO · SiO 2 or 3CaO · SiO 2, in the form of the mineral layer, such as 3CaO · Al 2 O 3 and 12CaO · 7Al 2 O 3. Although surface water and leachate of steelmaking slag are alkaline, steelmaking slag is a substance that has long been used as a substitute for natural crushed stone as a roadbed material and civil engineering material, and is extremely insoluble. For this reason, the elution of calcium ions from the steelmaking slag proceeds very slowly as compared to lime alone and the alkalinity continues for a long period of time, so that the herbicidal effect of the steelmaking slag continues for a long period of time.

本発明に用いる製鋼スラグについて説明すると、鉄鋼の生産の際に、同時に生成される金属酸化物など溶融固化物を、総じて「鉄鋼スラグ」という。この鉄鋼スラグは高炉で銑鉄を製造する際に副生成する「高炉スラグ」と、溶銑やスクラップなどを精錬して鋼を製造する際に同時に生成する「製鋼スラグ」とに分類される。この後者の製鋼スラグは精錬炉の種類によって、さらに転炉系スラグあるいは電気炉系スラグに分類される。さらに、この製鋼スラグの成分について説明すると、製鋼スラグは、製鋼工程で鋼を精錬するため、石灰石やシリカや、酸化アルミ系の造滓材と呼ばれる副原料が、この製鋼工程で投入され、これらの非金属成分と溶鋼が酸化して生成された、酸化鉄などの金属酸化物が製鋼スラグの主成分となっている。すなわち、製鋼スラグの成分は、CaOや、Al23や、SiO2及び金属酸化物であるが、その比率は製造する鋼種の特性に応じた精錬方法によって様々である。このようにして得られた製鋼スラグは金属酸化物を含有するので高比重で高強度である。この製鋼スラグは、緩冷凝固によって鉱物状に凝固させた後、破砕及び粒度調整を行って、路盤材やアスファルト骨材などの道路用材料や、埋め戻し材や、基礎工事用の土木用材料などのリサイクル材料として古くより有効利用されている、環境に及ぼす影響の少ないリサイクル資材である。 The steelmaking slag used in the present invention will be described. A molten solidified product such as a metal oxide that is simultaneously generated during the production of steel is generally referred to as “steel slag”. This steel slag is classified into “blast furnace slag” that is by-produced when producing pig iron in a blast furnace and “steel slag” that is produced simultaneously when producing steel by refining hot metal and scrap. This latter steelmaking slag is further classified into converter slag or electric furnace slag depending on the type of refining furnace. Furthermore, the components of this steelmaking slag will be explained. Since steelmaking slag refines steel in the steelmaking process, limestone, silica, and auxiliary materials called aluminum oxide-based steelmaking materials are introduced in this steelmaking process. A metal oxide such as iron oxide produced by oxidizing non-metallic components and molten steel is the main component of steelmaking slag. That is, the components of the steelmaking slag are CaO, Al 2 O 3 , SiO 2 and metal oxide, but the ratio varies depending on the refining method according to the characteristics of the steel type to be produced. The steelmaking slag thus obtained contains a metal oxide and thus has a high specific gravity and high strength. This steelmaking slag is solidified into a mineral state by slow solidification, then crushed and adjusted in grain size, road materials such as roadbed materials and asphalt aggregates, backfill materials, and civil engineering materials for foundation work It is a recycled material that has been used effectively as a recycled material for a long time and has little impact on the environment.

さらに、環境への影響に関しても、道路の路盤材用途に供される「鉄鋼スラグ混入路盤材」は平成13年4月施行のグリーン購入法の「特定調達品目」として指定されている他に、従来より陸域の使用に際しては土壌環境基準で、海域及び埋立地での利用に際しては環境汚染防止法による水底土砂基準で、それぞれ環境に対する安全性が評価されている物質である。   In addition, regarding the impact on the environment, “steel slag-mixed roadbed material” used for roadbed materials is designated as a “specified procurement item” of the Green Purchasing Law in effect in April 2001. These are substances that have been evaluated for environmental safety according to the soil environmental standards for use in land areas and underwater sediment standards according to the Environmental Pollution Control Law for use in sea areas and landfills.

また、製鋼スラグは高比重かつ保水力の低い物質であるため、路盤材などとして敷設した敷設上面は晴天時には乾燥状態にあり、植物の生育に必要な水分を保水しない。特に、425μm以下の微粉分の少ない、下層路盤材相当の粒度に調整することで、粒子間の目詰まりを防止し、水はけの良い防草層を形成することができる。一方で、土壌にはアルカリ性の原因であるカルシウムイオンの吸着能があるため、有機質土や火山灰質粘性土や粘性土などの土壌で30cm、シルトで50cm以上の厚さの土壌を介することで、アルカリの影響は除去される(例えば、非特許文献1参照。)。このため路盤材としての敷設面下に植樹した植物への影響は少ない。さらに施工の容易さ及び施工後の支持力に関しては、従来の用途が道路用あるいは土木用を主としているのに比して、本発明の手段では、繁茂している雑草を刈り取った後に、最大粒度が40mm以下の連続粒度で、望ましくは上記した路盤材相当の粒度に破砕して調整した製鋼スラグを、土壌面上に均一に散布するだけでよく、施工は簡易である。しかも、施工後は、仮設道路、駐車場、広場、資材置場などとして使用可能な支持力が得られる。また、製鋼スラグは、全国に広く分布する鉄鋼会社より産出されるため、調達も容易で安定した供給が可能である。   Moreover, since steelmaking slag is a substance with high specific gravity and low water retention, the laying upper surface laid as a roadbed material is dry in fine weather, and does not retain moisture necessary for plant growth. In particular, by adjusting the particle size to be equivalent to the lower layer roadbed material with a small amount of fine powder of 425 μm or less, clogging between particles can be prevented, and a well-drained grass prevention layer can be formed. On the other hand, because the soil has the ability to adsorb calcium ions, which are the cause of alkalinity, by passing through soil with a thickness of 30 cm or more in soil such as organic soil, volcanic ash and clay soil, and 50 cm or more in silt, The influence of alkali is removed (for example, refer nonpatent literature 1). For this reason, there is little influence on the plant planted under the laying surface as roadbed material. Furthermore, with regard to the ease of construction and the supporting force after construction, the means of the present invention, after cutting off overgrown weeds, has the maximum grain size compared to the conventional use mainly for roads or civil engineering. However, the steelmaking slag having a continuous particle size of 40 mm or less, desirably crushed and adjusted to a particle size equivalent to the above-mentioned roadbed material, may be simply sprayed on the soil surface, and the construction is simple. Moreover, after the construction, a supporting force that can be used as a temporary road, a parking lot, a plaza, a material storage, etc. is obtained. Steelmaking slag is produced by steel companies that are widely distributed throughout the country, so procurement is easy and stable.

ここで発明を実施するための形態について、表を参照しながら以下に説明する。
1.製鋼スラグの施工厚みに関する試験
粒度40mm以下の連続粒度の路盤材相当粒度に破砕して粒度調整した製鋼スラグを用いて製鋼スラグの施工厚みの試験を、表1に示すように、実施した。この場合、試験場所として、水の供給があり、土壌が常時湿潤状態にあることで、季節を問わず雑草が繁茂している場所を選定した。試験方法は、雑草の地上部を除去した後、木製の型枠を設置し、型枠内に連続粒度で0〜40mmの製鋼スラグを敷設した。施工開始時期は9月とした。なお、施工後の3〜6月は冬期であり植生の発育は遅い。製鋼スラグの施工厚みは0mm(施工なし)、50mm、100mm、150mmとした。
Here, modes for carrying out the invention will be described below with reference to a table.
1. Test Regarding Construction Thickness of Steelmaking Slag As shown in Table 1, the construction thickness test of steelmaking slag was performed using steelmaking slag that was crushed to a grain size equivalent to a roadbed material having a grain size of 40 mm or less and adjusted in particle size. In this case, a place where weeds were prosperous regardless of the season was selected as the test place because water was supplied and the soil was always moist. In the test method, after removing the above-ground part of weeds, a wooden formwork was installed, and steelmaking slag having a continuous particle size of 0 to 40 mm was laid in the formwork. The construction start time was September. In addition, from March to June after the construction is the winter season, vegetation growth is slow. The construction thickness of the steelmaking slag was 0 mm (no construction), 50 mm, 100 mm, and 150 mm.

Figure 2014110811
Figure 2014110811

試験の結果、施工厚み0mm(施工なし)で施工後の3ヶ月で多数の雑草の植生が見られ、また、施工後6ヶ月で多数の雑草の植生が見られた。施工厚み50mmで、施工後3ヶ月及び6ヶ月後でともに型枠の境界付近に単位平方メートル当たり40個の雑草の植生を確認した。これらは発芽ではなく、試験開始前に雑草の地上部を除去した際に、残存した雑草の根から成長した植生であった。型枠の内部からも植生があり、施工厚み50mmでは残存した根からの植生が成長し、製鋼スラグの粒子間を縫って雑草が現れたものと考えられる。一方、施工厚み100mm、150mmでは植生は見られなかった。従って、防草用途に施工する場合は、施工厚み50mm超で100mm以上の厚みで製鋼スラグを敷設する必要があると考えられる。   As a result of the test, a large number of weed vegetation was observed 3 months after the construction at a construction thickness of 0 mm (no construction), and a large number of weed vegetation was seen 6 months after the construction. At a construction thickness of 50 mm, vegetation of 40 weeds per unit square meter was confirmed near the boundary of the formwork at both 3 and 6 months after construction. These were not germination, but vegetation that grew from the roots of the remaining weeds when the aerial parts of the weeds were removed before the start of the test. There is also vegetation from the inside of the mold, and it is considered that vegetation from the remaining roots grew at a construction thickness of 50 mm, and weeds appeared by sewing between the steelmaking slag particles. On the other hand, no vegetation was observed at construction thicknesses of 100 mm and 150 mm. Therefore, when constructing for herbicidal use, it is considered necessary to lay steelmaking slag with a construction thickness of more than 50 mm and a thickness of 100 mm or more.

2.製鋼スラグの材質に関する試験
上記の1.製鋼スラグの施工厚みに関する試験と同様に、雑草の地上部を除去した後、木製の型枠を設置し、型枠内に連続粒度で0〜40mmの製鋼スラグを100mmの厚みで敷設すると共に、型枠内に連続粒度で0〜40mmの天然砕石を100mmの厚みで敷設し、製鋼スラグの材質に関する試験を、表2に示すように、実施した。施工開始時期は9月とした。
2. Test on material of steelmaking slag Similarly to the test on the construction thickness of steelmaking slag, after removing the above-ground part of weeds, a wooden formwork is installed, and a steelmaking slag of 0 to 40 mm in continuous grain size is laid in the formwork with a thickness of 100 mm, A natural crushed stone having a continuous particle size of 0 to 40 mm was laid in the mold with a thickness of 100 mm, and a test on the material of the steelmaking slag was conducted as shown in Table 2. The construction start time was September.

Figure 2014110811
Figure 2014110811

製鋼スラグでは、雑草の植生は3ヶ月後、6ヶ月後ともに確認されておらず、製鋼スラグのアルカリ能により、雑草の成長が抑制されたと考えられる。これに反し、天然砕石では型枠の境界付近を中心に雑草の植生が3ヶ月後、6ヶ月後ともに、単位平方メートル当たり10個の雑草の植生が確認された。しかし、これは発芽ではなく、残存した雑草の根から植生が成長したもので、天然砕石の粒子間を縫って雑草が成長したと考えられる。   In steelmaking slag, vegetation of weeds was not confirmed after 3 months and 6 months, and it is considered that weed growth was suppressed by the alkaline ability of steelmaking slag. On the other hand, weed vegetation was confirmed to be 10 vegetation per unit square meter in both natural crushed stones, mainly in the vicinity of the formwork boundary, after 3 and 6 months. However, this is not germination, but vegetation grew from the roots of the remaining weeds. It is thought that weeds grew by stitching between particles of natural crushed stone.

3.製鋼スラグの粒度に関する試験
上製鋼スラグの粒度に関する試験を連続粒度の0〜40mmと、砂状粒度の0〜2.5mmと、単粒度の5〜13mmとで、製鋼スラグの粒度に関する試験を型枠を使用して表3に示すように実施し、施工開始後の3ヶ月及び6ヶ月後の植生数をそれぞれ確認した。
3. Test on the particle size of steelmaking slag The test on the particle size of steelmaking slag is a test on the particle size of steelmaking slag with continuous particle size of 0-40mm, sandy particle size of 0-2.5mm, and single particle size of 5-13mm. It implemented as shown in Table 3 using a frame, and confirmed the number of vegetation 3 months and 6 months after the start of construction.

Figure 2014110811
Figure 2014110811

施工厚みが連続粒度0〜40mmでは、雑草の植生数は、3ヶ月後及び6ヶ月後のともに単位平方メートル当たり0個であった。砂状粒度0〜2.5mmでは、施工3ヶ月後の時点で型枠境界付近で残存した雑草の根から植生されて雑草の成長したものが単位平方メートル当たり30個確認され、中央部に数ミリ程度の発芽が確認された。しかし、発生した雑草の植生は施工6ヶ月後には単位平方メートル当たり10個に消滅しており、製鋼スラグのアルカリ能が雑草の植生の生育を阻害していることが確認できた。一方、単粒度5〜13mmでは、施工3ヶ月後の時点で型枠境界付近で残存した雑草の根から植生されて雑草の成長したものが単位平方メートル当たり10個確認された。しかし、粒径5mm〜13mmの単粒度砕石は粒子間の隙間が大きく、施工6ヶ月後の生育は十分でなく単位平方メートル当たり10個確認されたのみであった。   When the construction thickness was a continuous particle size of 0 to 40 mm, the number of vegetation of weeds was 0 per square meter after both 3 months and 6 months. When the sandy grain size is 0 to 2.5 mm, 30 weeds grown from the roots of the weeds remaining near the formwork boundary 3 months after the construction were confirmed per unit square meter. Germination was confirmed. However, the weed vegetation generated disappeared to 10 pieces per unit square meter 6 months after the construction, and it was confirmed that the alkaline ability of the steelmaking slag inhibited the growth of the vegetation of weeds. On the other hand, with a single particle size of 5 to 13 mm, 10 weeds per unit square meter were confirmed that were vegetated from the roots of the weeds that remained in the vicinity of the formwork boundary at the time 3 months after the construction, and the weeds grew. However, single-grain crushed stones with a particle size of 5 to 13 mm have large gaps between particles, and the growth after 6 months of construction was not sufficient, and only 10 pieces were confirmed per unit square meter.

本発明の施工方法において雑草を除去した後、なお、雑草の根が残っている場合は、本発明における連続粒度の製鋼スラグを敷設した後に、その上からローラーにより転圧を行うものとすることで、施工後の雑草の植生を抑えるものとすることもできる。   After weeds are removed in the construction method of the present invention, if weed roots remain, after laying the continuous-grade steelmaking slag in the present invention, rolling is performed by a roller from above. It is also possible to suppress weed vegetation after construction.

Claims (1)

防草対象となる区画に植生する雑草を根より除去した後に、最大粒度が40mmの連続粒度となるように粒度調整した大きさの製鋼スラグからなる防草材料を、40mm超の粒度の土壌が露出しない100mm以上の厚さとして敷設することを特徴とする製鋼スラグからなる防草材料の施工方法。   After removing weeds vegetated in the sections to be protected against grass from the roots, weeds are made of steelmaking slag with a particle size adjusted so that the maximum particle size becomes a continuous particle size of 40 mm. The construction method of the weed prevention material which consists of steelmaking slag characterized by laying as thickness of 100 mm or more which is not exposed.
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JP2017205046A (en) * 2016-05-18 2017-11-24 デンカ株式会社 Weed control material and method of using the same
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