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Heterogeneous construction and demolition waste can be used as raw material to produce lightweight aggregates (LWA) similar to expanded clays. In the joint research project “REALight”, LWA were produced from masonry rubble in a thermal expanding process using a pilot production plant with a rotary kiln. Our research focuses on the characterisation of the novel LWA and their use in different hydraulically bound applications.
Infra-lightweight concrete (ILC) was produced with the novel LWA, which accounts for two thirds of total aggregate volume, and Celitement, which is a hydraulic binder with a low carbon footprint. Its dry bulk density is ≤ 800 kg/m³. Strength and durability properties are comparable to ILC data from the literature.
Lime-based repair mortars (LRM) containing LWA are beneficial for sandstone conservation due to their similar properties regarding porosity, water absorption and strength. A two-layer repair mortar system, which consists of a filling mortar to fill large voids and a covering mortar to modulate the surface texture to the historic sandstone, was developed.
In our contribution, we present results of the LWA characterisation according to the European standard EN 13055:2016. Requirements and challenges of the use of the novel LWA in ILC and LRM are discussed.
Heterogeneous construction and demolition waste can be used as raw material to produce lightweight aggregates (LWA) similar to expanded clays. In the joint research project “REALight”, LWA were produced from masonry rubble in a thermal expanding process using a pilot production plant with a rotary kiln. Our research focuses on the characterisation of the novel LWA and their use in different hydraulically bound applications.
Infra-lightweight concrete (ILC) was produced with the novel LWA, which accounts for two thirds of total aggregate volume, and Celitement, which is a hydraulic binder with a low carbon footprint. Its dry bulk density is ≤ 800 kg/m³. Strength and durability properties are comparable to ILC data from the literature.
Lime-based repair mortars (LRM) containing LWA are beneficial for sandstone conservation due to their similar properties regarding porosity, water absorption and strength. A two-layer repair mortar system, which consists of a filling mortar to fill large voids and a covering mortar to modulate the surface texture to the historic sandstone, was developed.
In our contribution, we present results of the LWA characterisation according to the European standard EN 13055:2016. Requirements and challenges of the use of the novel LWA in ILC and LRM are discussed.
Lightweight concrete with recycling aggregates made from masonry rubble and rubble-clay mixtures
(2018)
Structural lightweight concrete is a construction material composed primarily of lightweight aggregates (LWA), cement and water. Most LWA are produced by thermal treatment of natural raw materials such as clay and shale today. In addition to the high energy costs thereby incurred, the availability of suitable raw materials is limited. An alternative is the use of recycling LWA made from mineral construction and demolition waste. Recycling LWA made from masonry rubble and rubble-clay mixtures were studied in two different research projects. The technology pursues the idea of feedstock recycling, which means the recycling is based on the chemical and mineralogical composition of the masonry rubble and clay. The recycling LWA are produced in a multistage manufacturing process by thermal hardening in laboratory and pilot scale. Their particle bulk densities and particle strengths vary between 600 and 2000 kg/m³ and 1.5 and 13 MPa, respectively. Their equivalence to traditional LWA was proven in comprehensive tests of the aggregates themselves as well as the mortars and concretes made therefrom. Our contribution reports on the results of the characterization of the recycling aggregates compared to expanded clays and the studies on LWA concretes.
Lightweigt concrete with recycling aggregates made from masonry rubble and rubble-clay mixtures
(2018)
Structural lightweight concrete is a construction material composed primarily of lightweight aggregates (LWA), cement and water. Most LWA are produced by thermal treatment of natural raw materials such as clay and shale today. In addition to the high energy costs thereby incurred, the availability of suitable raw materials is limited. An alternative is the use of recycling LWA made from Mineral construction and demolition waste. Recycling LWA made from masonry rubble and rubble-clay mixtures were studied in two different research projects. The technology pursues the idea of feedstock recycling, which means the recycling is based on the chemical and mineralogical composition of the masonry rubble and clay. The recycling LWA are produced in a multistage manufacturing process by thermal hardening in laboratory and pilot scale. Their particle bulk densities and particle strengths vary between 600 and 2000 kg/m³ and 1.5 and 13 MPa, respectively. Their equivalence to traditional LWA was proven in comprehensive tests of the aggregates themselves as well as the mortars and concretes made therefrom. Our contribution reports on the results of the characterization of the recycling aggregates compared to expanded clays and the studies on LWA concretes.
At present, heterogeneous and fine-grained masonry rubble can only be recycled at very low level. To overcome this limitation, the material was employed as feedstock for the production of lightweight aggregates in a thermal process similar to that used in the manufacture of expanded clay and expanded slate. To that end, the fundamental suitability of masonry rubble as a raw material was evaluated. Experiments were carried out which indicated that lightweight granules with defined, adjustable properties similar to those of natural-material-based aggregates could be manufactured from masonry rubble. Structural lightweight concretes produced with these secondary aggregates achieved comparable performance to lightweight concretes produced with conventional expanded clay. Lightweight recycled building material aggregates represent a product that hardly requires any primary resources in its manufacture. In principle, the technique also seems to be well suited for high-quality recycling of other mineral waste materials.
Heterogene und feinkörnige Bauabflle aus Mauerwerkbruch lassen sich heute nur auf einem sehr geringen Qualittsniveau verwerten. Um diese Situation zu überwinden, wird deren Verwendung als Ausgangsstoff für die Herstellung von leichten Gesteinskörnungen vorgeschlagen, die hnlich wie Blhtone und Blhschiefer in einem thermischen Prozess erzeugt werden. Dafür wurde zunchst die grundstzliche Eignung von Mauerwerkbruch bewertet. Es folgten experimentelle Untersuchungen, in welchen nachgewiesen werden konnte, dass Leichtgranulate mit definierten, einstellbaren Eigenschaften aus Mauerwerkbruch herstellbar sind. Sie sind in ihren Eigenschaften den leichten Gesteinskörnungen aus natürlichen Rohstoffen mindestens ebenbürtig. Die daraus hergestellten, gefügedichten Leichtbetone erzielen durchweg vergleichbare Werte wie die Leichtbetone mit herkömmlichem Blhton. Leichtgranulate aus Mauerwerkbruch stellen ein Produkt dar, dessen Herstellung nahezu ohne Primrrohstoffe auskommt. Das Verfahrensprinzip scheint außerdem prdestiniert für die hochwertige Verwertung auch anderer mineralischer Reststoffe zu sein.---------------------------------------------------------------------------------------------------------------------------------------------------
Production of lightweight aggregate from masonry rubble. At present, heterogeneous and fine-grained masonry rubble can only be recycled at very low quality. To overcome this limitation, the material was employed as feedstock for the production of lightweight aggregates in a thermal process similar to that used in the manufacture of expanded clay and expanded slate. To that end, the fundamental suitability of masonry rubble as a raw material was evaluated. Experiments were carried out which indicated that lightweight granules with defined, modifiable proper-ties on a par with to those of natural-material- based aggregates could be manufactured from masonry rubble. Structural lightweight concretes produced with these secondary aggregates achieved comparable performance to lightweight concretes produced with conventional expanded clay. Lightweight recycled building material aggregates represent a product that hardly requires any primary resources in its manufacture. In principle, the technique also seems to be well suited for high-quality recycling of other mineral waste materials.
Most lightweight aggregates (LWA) are produced by thermal Treatment of natural raw materials such as clay and shale. In addition to the high energy costs thereby incurred, the availability of suitable raw materials is limited. Other LWA manufactured from industrial by-products and wastes do not always meet the quality criteria for use in high-Quality lightweight concrete. A real alternative is the use of novel lightweight aggregates (referred to as LWA, aggregates and granules) made from mineral construction and demolition waste. An appropriate manufacturing technology has recently been developed in the framework of a German research project /1, 2/. Masonry rubble of variable grain size containing different amounts of brick material (25 to 70 %) serves as raw material. The LWA are obtained in a multistage manufacturing process by a thermal or hydrothermal treatment, which causes the expansion and the hardening of the material. The novel LWA meet the acceptance criteria for conventional lightweight aggregates. They are suitable for the production of lightweight concrete /2-6/. However to create tailor-made LWA from masonry rubble, the novel expanded materials and the influence of manufacturing conditions have to be understood in more detail. This paper reports on ongoing investigations of the chemico-mineralogical composition and microstructure of the novel LWA and focuses on the results of Chemical analyses, XRD, ESEM, TG/DTA and fusibility tests.
Neue leichte Gesteinskörnungen werden durch rohstoffliches Recycling aus heterogenem und feinkörnigem Mauerwerkbruch hergestellt. Die Erprobung dieser Aufbaukörnungen im Leichtbeton liefert Aussagen zu ihrer Qualität und Eignung. Nach einer kurzen Charakterisierung der für die Betonherstellung ausgewählten Aufbaukörnungen werden die entworfene Betonrezeptur vorgestellt und einige Ergebnisse der Festbetonuntersuchungen diskutiert.----------------------------------------------------------------------------------------------------------
New lightweight aggregates are produced by feedstock recycling from heterogeneous and fine-grained masonry rubble. Testing of these tailor-made expanded aggregates in lightweight concrete provides information about their quality and performance. Following a brief characterization of the tailor-made expanded aggregates used in concrete production, the concrete mix design is presented and some results of the tests of hardened concrete are discussed.
Heterogene und feinkörnige Bauabfälle aus Mauerwerkbruch lassen sich heute nur auf einem sehr geringen Qualitätsniveau verwerten. Um diese Situation zu überwinden, wurde das Material als Rohstoff für die Herstellung von leichten Gesteinskörnungen verwendet, die ähnlich wie Blähtone und Blähschiefer in einem thermischen Prozess erzeugt werden. Auf der Grundlage einer Literaturübersicht wurde zunächst die grundsätzliche Eignung von Mauerwerkbruch bewertet. Es folgten experimentelle Untersuchungen, in welchen nachgewiesen werden konnte, dass Leichtgranulate mit definierten, einstellbaren Eigenschaften aus Mauerwerkbruch herstellbar sind. Sie sind in ihren Eigenschaften den leichten Gesteinskörnungen aus natürlichen Rohstoffen mindestens ebenbürtig. -----------------------------------------------------
At present heterogeneous and fine-grained masonry rubble is recycled at a very low level. To overcome this situation the material is used as feedstock for the generation of lightweight aggregates, produced by a thermal process similar to the manufacturing of expanded clays and shales. On the basis of a literature review the suitability of masonry rubble as raw material is evaluated generally. Then materials from different recycling plants were experimentally tested. The results show, that expanded granules with defined, adjustable properties can be produced from masonry rubble. The properties of these secondary lightweight aggregates are at least equivalent to the properties of the known expanded clay aggregates.