Shredded tires as an urban local road drainage layer material

2014 September 1900

Roads in many northern climates like Saskatchewan can undergo structural failure caused by frost action and substructure moisture problems. Frost action can be efficiently controlled by eliminating at least one of the following conditions: moisture; freezing temperatures; and frost susceptible soils. However, effective use of shredded tire material could provide an environmentally sustainable solution for waste tires and could relieve pressure on limited quality aggregate resources. The City of Saskatoon has successfully incorporated crushed rock and crushed recycled concrete as a subsurface road drainage layer to mitigate substructure drainage and frost issues. However, the price of crushed high value aggregates can be cost prohibitive and at times these materials are not available in quantities required. Previous research has documented that shredded tires are efficient in controlling frost action by providing thermal insulation and free drainage, but shredded tires performed poorly as a structural support layer with low mechanical stiffness and high compressibility properties. The goal of this research was to provide improved pavement performance with respect to road substructure moisture drainage and frost mitigation. The specific objectives of this research were to: • Quantify the mechanical properties of shredded tires and investigate the mechanical behavior of mixes of shredded tires with and without sand blended into the tire matrix as compared to conventional subbase and base coarse materials; • Determine the permeability of shredded tires and investigate the effect of sand on the permeability of shredded tire/sand mixes as compared to conventional granular base and subbase materials, and; • Compare the structural primary response behavior and capital cost of alternate road structures constructed with shredded tires and mixes of shredded tire and sand as a free draining subbase material compared to conventional drainage layers and road structures. The hypothesis of this research was that the mechanical behavior of shredded tire material, used as a road substructure layer, can be improved by blending it with free draining sand. It was also hypothesized that blending shredded tire with free draining sand will have improved drainage compared to conventional granular subbase and base course materials. Volumetric and mechanistic material properties and structural performance behavior of shredded tires and shredded tire/sand mixes in the mix ratios (by volume) of 1Tire:1Sand, 1Tire:2Sand and 1Tire:3Sand were evaluated and compared to City of Saskatoon subbase materials: crushed rock and granular base; as well as Saskatchewan Ministry of Highways and Infrastructure (SMHI) Type 6 subbase. Laboratory characterization showed that 100% shredded tire materials were uniformly graded indicating high amounts of voids. The addition of sand resulted in a reduction of interparticle air voids. Results from strength and stiffness characterization tests indicated that 100% shredded tires exhibited low structural stiffness, but this behavior was improved as the quantity of sand in the shredded tire was increased. The 100% shredded tire material was determined to have a dynamic modulus value of 5MPa, whereas shredded tires/sand blends at the ratios of 1Tire:1Sand, 1Tire:2Sand and 1Tire:3Sand gave dynamic moduli values of 30MPa, 110 MPa and 158MPa, respectively. For comparison, SMHI Type 6 subbase, City of Saskatoon crushed rock and granular base exhibited dynamic moduli values of 94MPa, 174MPa and 471MPa, respectively. Permeability characterization indicated that the 100% shredded tire materials were free draining at 1.42cm/s. Permeability decreased from 1.42cm/s with 100% shredded tire to 0.0026cm/s with 1Tire:3Sand. However, the shredded tire/sand mixes maintained permeability values higher than sand (0.0013cm/s). SMHI Type 6 subbase and granular materials were found to have a permeability of 0.0018cm/s and 0.000025cm/s, respectively, while crushed rock was free draining with a permeability of 1.12cm/s. Structural behavior of 100% shredded tire, shredded tire/sand mixes and City of Saskatoon subbase materials were studied in road models using a 3-D numerical road modeling software that encoded triaxial material constitutive relationships determined in this research. A typical City of Saskatoon road structure was assumed for all road structures considered in this study with varying subbase material so as to directly compare the structural effect of the shredded tire with conventional road materials under primary load limits. Modeled results of the 100% shredded tire and crushed rock roads showed peak surface deflections of 2.19mm and 0.73mm, respectively. Peak surface deflection under primary load limits was found to decrease with an increase in sand quantity within the shredded tire layer. Based on the modeling results, 1Tire:2Sand and 1Tire:3Sand yielded peak surface deflections of 1.01mm and 0.96mm, respectively. For comparative purposes, road structures with SMHI Type 6 subbase deflected at 1.14mm. Field test sections were constructed at Adolph Way in Saskatoon to compare the structural performance of shredded tire to crushed rock (currently specified by City of Saskatoon for drainage layers) in a typical residential road in Saskatoon. Unfortunately, both crushed rock (control) and shredded tire sections were found to deflect above acceptable limits due to high moisture conditions within the deep subgrade. Therefore, deeper excavation was required and the test sections were not constructed. The Adolph Way field experimentation of shredded tire showed that shredded tire road systems can be effectively constructed in the field, but showed the same sensitivity to poor subgrade conditions as crushed rock. Capital cost analysis showed the 100% shredded tire and shredded tire/sand subbase layers to be less expensive than City of Saskatoon specified crushed rock drainage layers. The 100% shredded tire layer was estimated at a total cost of $2.93/m2 while 1Tire:1Sand, 1Tire:2Sand and 1Tire:3Sand were estimated at $4.39/m2, $4.88/m2 and $5.12/m2, respectively. SMHI Type 6 subbase, crushed rock and granular base layers were estimated at a total cost of $5.85/m2, $13.95/m2 and $9.00/m2, respectively for equivalent thickness. From the structural, permeability and economic perspective of this research, the 1Tire:2Sand and 1Tire:3Sand materials proved to be cost efficient as well as technically viable options for mitigating frost action as compared with City of Saskatoon crushed rock materials evaluated. The use of shredded tire/sand mixes of 1Tire:2Sand and 1Tire:3Sand in urban local road structures with low traffic volumes are therefore recommended as a cost effective subbase drainage layer material.

Shredded tire

frost action

mechanical stiffness

Estudo geotécnico visando o aumento da plataforma na ERS/122 através de aterro com materiais leves : resíduos de pneus

Tomazini, Darlan

January 2015

O crescimento econômico acarreta na necessidade de aumento de capacidade de rodovias existentes. Quando localizadas em meia-encostas, muitas vezes estão vinculadas a ocorrências de instabilidade de modo que obras de aumento da capacidade geram grande impacto. O objetivo desta pesquisa é avaliar o aumento de capacidade de um trecho da Rodovia ERS/122, minimizando os impactos através da definição da seção-tipo com dimensões mínimas, segurança para o usuário, e utilização de um material leve como aterro a ser construído na meia encosta. O principal material avaliado para utilização como aterro são restos de pneus triturados, já encontrados no mercado atual. A avaliação desta solução de aterro em meia encosta decorre principalmente do fato de evitar desmontes de rocha que ocasionariam a interrupção do tráfego em uma importante rodovia do estado. Aliado a isso, é baixa a ocorrência de solos de boa qualidade no trecho, de modo que o aterro é geralmente realizado com materiais rochosos de ocorrência local ou materiais importados. A possibilidade de diminuir a utilização de um material nobre a ser explorado na natureza, juntamente com a utilização de materiais que ainda não possuem 100% de destinação adequada, aliada ao baixo peso específico e adequada resistência ao cisalhamento, incentivaram a realização dos estudos. Ensaios de resistência ao cisalhamento e comportamento de compressão foram realizados para avaliar os parâmetros geotécnicos, a fim de obter um modelo geomecânico. Devido aos resultados de teste satisfatórios, tem sido considerado possível o uso de tais materiais. Os parâmetros obtidos em condições de confinamento foram aceitáveis para aterros de rodovias especialmente quando as aparas de pneus foram misturadas com agregados rochosos. Seu uso como um material de aterro pode ser incentivado, a fim de reduzir o uso de rochas naturais, para obter uma utilização adequada de restos de pneus e para gerar uma maior estabilidade dos aterros com a substituição de solos com comportamento geotécnico pobre. Isto é conseguido principalmente pela diminuição do peso do aterro, pela melhoraria das condições de drenagem e pela definição de uma seção transversal geometricamente segura. / Economic growth leads to the need to increase the capacity of existing highways. When crossing natural slopes often are linked to occurrences of instability so that increased work capacity generate big impact. The objective of this research is to evaluate the increase in capacity of a highway stretch ERS / 122, minimizing impacts by setting the standard section with minimum dimensions, but safe for the user, using a lightweight material as fill. The main material evaluated for use as embankment is shredded tire debris, already found on the market. The evaluation of this embankment solution on natural slopes is mainly to avoid rock blasting which would interrupt the traffic on this important State highway. As there is few occurrences of good quality soil near the construction sites, the fills are usually built with local or imported rock materials. The ability to reduce the use of rock to be exploited from nature by the use of recycled materials combined with its low specific weight and adequate shear strength encouraged this study. Tests of shear strength and compression behavior were carried out to evaluate geotechnical parameters in order to obtain a geomechanical model. Due to satisfactory test results the use of such materials has been considered possible. The parameters obtained on confined conditions were acceptable for road fills especially when scrab tires were mixed with rock aggregates. Its use as an embankment material can be incentivatedf in order to reduce the use natural rocks, to obtain an adequate use for tire scraps and to generate a greater stability for embankments as replacement of soils with poor geotechnical behavior. This is achieved mainly by decreasing landfill weight, improving the drainage conditions and definition of geometrically safe embankment cross-section.

Rodovias

Estabilidade de taludes

Pneus

Geotecnica

Slope stability

Shredded tires

Lightweight materials

Lightweight embankment

Highway middle slope

Estudo geotécnico visando o aumento da plataforma na ERS/122 através de aterro com materiais leves : resíduos de pneus

Tomazini, Darlan

January 2015

O crescimento econômico acarreta na necessidade de aumento de capacidade de rodovias existentes. Quando localizadas em meia-encostas, muitas vezes estão vinculadas a ocorrências de instabilidade de modo que obras de aumento da capacidade geram grande impacto. O objetivo desta pesquisa é avaliar o aumento de capacidade de um trecho da Rodovia ERS/122, minimizando os impactos através da definição da seção-tipo com dimensões mínimas, segurança para o usuário, e utilização de um material leve como aterro a ser construído na meia encosta. O principal material avaliado para utilização como aterro são restos de pneus triturados, já encontrados no mercado atual. A avaliação desta solução de aterro em meia encosta decorre principalmente do fato de evitar desmontes de rocha que ocasionariam a interrupção do tráfego em uma importante rodovia do estado. Aliado a isso, é baixa a ocorrência de solos de boa qualidade no trecho, de modo que o aterro é geralmente realizado com materiais rochosos de ocorrência local ou materiais importados. A possibilidade de diminuir a utilização de um material nobre a ser explorado na natureza, juntamente com a utilização de materiais que ainda não possuem 100% de destinação adequada, aliada ao baixo peso específico e adequada resistência ao cisalhamento, incentivaram a realização dos estudos. Ensaios de resistência ao cisalhamento e comportamento de compressão foram realizados para avaliar os parâmetros geotécnicos, a fim de obter um modelo geomecânico. Devido aos resultados de teste satisfatórios, tem sido considerado possível o uso de tais materiais. Os parâmetros obtidos em condições de confinamento foram aceitáveis para aterros de rodovias especialmente quando as aparas de pneus foram misturadas com agregados rochosos. Seu uso como um material de aterro pode ser incentivado, a fim de reduzir o uso de rochas naturais, para obter uma utilização adequada de restos de pneus e para gerar uma maior estabilidade dos aterros com a substituição de solos com comportamento geotécnico pobre. Isto é conseguido principalmente pela diminuição do peso do aterro, pela melhoraria das condições de drenagem e pela definição de uma seção transversal geometricamente segura. / Economic growth leads to the need to increase the capacity of existing highways. When crossing natural slopes often are linked to occurrences of instability so that increased work capacity generate big impact. The objective of this research is to evaluate the increase in capacity of a highway stretch ERS / 122, minimizing impacts by setting the standard section with minimum dimensions, but safe for the user, using a lightweight material as fill. The main material evaluated for use as embankment is shredded tire debris, already found on the market. The evaluation of this embankment solution on natural slopes is mainly to avoid rock blasting which would interrupt the traffic on this important State highway. As there is few occurrences of good quality soil near the construction sites, the fills are usually built with local or imported rock materials. The ability to reduce the use of rock to be exploited from nature by the use of recycled materials combined with its low specific weight and adequate shear strength encouraged this study. Tests of shear strength and compression behavior were carried out to evaluate geotechnical parameters in order to obtain a geomechanical model. Due to satisfactory test results the use of such materials has been considered possible. The parameters obtained on confined conditions were acceptable for road fills especially when scrab tires were mixed with rock aggregates. Its use as an embankment material can be incentivatedf in order to reduce the use natural rocks, to obtain an adequate use for tire scraps and to generate a greater stability for embankments as replacement of soils with poor geotechnical behavior. This is achieved mainly by decreasing landfill weight, improving the drainage conditions and definition of geometrically safe embankment cross-section.

Rodovias

Estabilidade de taludes

Pneus

Geotecnica

Slope stability

Shredded tires

Lightweight materials

Lightweight embankment

Highway middle slope

Estudo geotécnico visando o aumento da plataforma na ERS/122 através de aterro com materiais leves : resíduos de pneus

Tomazini, Darlan

January 2015

O crescimento econômico acarreta na necessidade de aumento de capacidade de rodovias existentes. Quando localizadas em meia-encostas, muitas vezes estão vinculadas a ocorrências de instabilidade de modo que obras de aumento da capacidade geram grande impacto. O objetivo desta pesquisa é avaliar o aumento de capacidade de um trecho da Rodovia ERS/122, minimizando os impactos através da definição da seção-tipo com dimensões mínimas, segurança para o usuário, e utilização de um material leve como aterro a ser construído na meia encosta. O principal material avaliado para utilização como aterro são restos de pneus triturados, já encontrados no mercado atual. A avaliação desta solução de aterro em meia encosta decorre principalmente do fato de evitar desmontes de rocha que ocasionariam a interrupção do tráfego em uma importante rodovia do estado. Aliado a isso, é baixa a ocorrência de solos de boa qualidade no trecho, de modo que o aterro é geralmente realizado com materiais rochosos de ocorrência local ou materiais importados. A possibilidade de diminuir a utilização de um material nobre a ser explorado na natureza, juntamente com a utilização de materiais que ainda não possuem 100% de destinação adequada, aliada ao baixo peso específico e adequada resistência ao cisalhamento, incentivaram a realização dos estudos. Ensaios de resistência ao cisalhamento e comportamento de compressão foram realizados para avaliar os parâmetros geotécnicos, a fim de obter um modelo geomecânico. Devido aos resultados de teste satisfatórios, tem sido considerado possível o uso de tais materiais. Os parâmetros obtidos em condições de confinamento foram aceitáveis para aterros de rodovias especialmente quando as aparas de pneus foram misturadas com agregados rochosos. Seu uso como um material de aterro pode ser incentivado, a fim de reduzir o uso de rochas naturais, para obter uma utilização adequada de restos de pneus e para gerar uma maior estabilidade dos aterros com a substituição de solos com comportamento geotécnico pobre. Isto é conseguido principalmente pela diminuição do peso do aterro, pela melhoraria das condições de drenagem e pela definição de uma seção transversal geometricamente segura. / Economic growth leads to the need to increase the capacity of existing highways. When crossing natural slopes often are linked to occurrences of instability so that increased work capacity generate big impact. The objective of this research is to evaluate the increase in capacity of a highway stretch ERS / 122, minimizing impacts by setting the standard section with minimum dimensions, but safe for the user, using a lightweight material as fill. The main material evaluated for use as embankment is shredded tire debris, already found on the market. The evaluation of this embankment solution on natural slopes is mainly to avoid rock blasting which would interrupt the traffic on this important State highway. As there is few occurrences of good quality soil near the construction sites, the fills are usually built with local or imported rock materials. The ability to reduce the use of rock to be exploited from nature by the use of recycled materials combined with its low specific weight and adequate shear strength encouraged this study. Tests of shear strength and compression behavior were carried out to evaluate geotechnical parameters in order to obtain a geomechanical model. Due to satisfactory test results the use of such materials has been considered possible. The parameters obtained on confined conditions were acceptable for road fills especially when scrab tires were mixed with rock aggregates. Its use as an embankment material can be incentivatedf in order to reduce the use natural rocks, to obtain an adequate use for tire scraps and to generate a greater stability for embankments as replacement of soils with poor geotechnical behavior. This is achieved mainly by decreasing landfill weight, improving the drainage conditions and definition of geometrically safe embankment cross-section.

Rodovias

Estabilidade de taludes

Pneus

Geotecnica

Slope stability

Shredded tires

Lightweight materials

Lightweight embankment

Highway middle slope

Effect of shredded colophospermum mopane wood inclusion as roughage on performance of fattening nguni heifers

Kgasago, Nkgaugelo

January 2016

Thesis (MSc. (Animal Production)) -- University of Limpopo, 2016 / A study was conducted to determine the effect of shredded Colophospermum (C.) mopane wood inclusion as roughage on performance of fattening Nguni heifers weighing 200 ± 5kg. The four diets used were isocaloric and isonitrogenous but with different shredded C. mopane wood inclusion levels of 5 (F95M5), 8.5 (F91.5M8.5), 10 (F90M10) and 15 (F85M15) %. The heifers were randomly allocated to the treatments in a completely randomized design. A quadratic equation was used to determine the shredded C. mopane inclusion levels for optimal productivity of the heifers. Shredded C. mopane wood inclusion level had effect (P<0.05) on intake and feed conversion ratio (FCR). Diet DM, OM, CP, NDF and ADF intakes per metabolic weight and FCR of Nguni heifers were optimized at different shredded C. mopane wood inclusion levels of 11.0, 13.7, 8.0, 15.0, 14.0, 14.0 and 15%, respectively. However, shredded C. mopane wood inclusion level did not affect (P>0.05) diet in vitro digestibility, carcass weight, dressing percentage, meat pH, meat shear force values and meat colour intensities except for red colour intensity of rump steak. It was, thus, concluded that shredded C. mopane wood can be used as roughage without adversely affecting diet intake, FCR, and live weight of Nguni heifers. However, diet intake and FCR were optimized at different C. mopane wood inclusion levels.

Shredded Colophospermum

Nguni heifers

Roughage

Colophospermum

Mopane tree

Beef cattle -- Feeding and feeds

Fiber in animal nutrition

Use of Antimycotics, Modified Atmospheres, and Packaging to Affect Mold Spoilage in Dairy Products

Grove, Tina Moler

04 April 2000

The effects of natamycin, oxygen scavengers and a 25% CO₂:75% N₂ modified atmosphere on the growth of <I>Penicillium roqueforti</I> in shredded cheddar and mozzarella cheese stored at 10°C for 0, 60, 120, or 180 day was studied. Microbiological and sensory testing was assessed on 0, 7, 14 and 21 days after opening. Carbon dioxide decreased (P<0.05) as O₂ (P>0.05) and N₂ (P>0.05) increased throughout storage. Cheddar and mozzarella cheeses were stored for 180 and 60 days, respectively without significant (P> 0.05) increases in yeast and mold populations. Fungal populations increased significantly (P< 0.05) after packages were opened. Differences in yeast and mold (YM) counts during storage and once the packages were opened were independent of natamycin application and presence, O₂ scavengers and inoculated <I>Penicillium roqueforti</I> for both types of cheeses. Growth of <I>Penicillium roqueforti, Aspergillus niger, Geotrichum candidum</I> and <I>Neosartorya fischeri</I> were evaluated in atmospheres of 0:30:70, 0.5:29.5:70, 1:29:70, 2:28:70, and 5:25:70, O₂:CO₂:N₂ over a 5-day period. Spores were cultured on antibiotic-supplemented potato dextrose agar (pH 5.6, a_w 0.95) and incubated at 25°C. All four molds germinated and grew at 0.5:29.5:70. Extent of mycelia growth diameter (mm) increased significantly (P<0.05) as oxygen concentration increased from 0.5% to 5%. All growth was inhibited at 0:30:70, but germination and growth occurred once cultures were exposed to 20.9% atmospheric O₂, indicating that a modified atmosphere containing no residual O₂ is fungistatic. Yeast and mold growth was seen in ultra-pasteurized (UP) extended shelf-life fluid milk stored at (7.2°C). Ten half-pint, pint, quart and half gallon filled cartons were randomly selected from all UP products available. Samples, pulled at random on day 0, 15, 30, 45, and 60, were plated on Yeast and Mold Petrifilm™. Forty-seven percent of the UP products stored for 45 days tested positive for mold. Fungal growth was apparent down the side and along the bottom of the 5th panel. Contamination was traced to the presence of yeast and mold spores in paperboard cartons. Pinholes were present in the polyethylene coating and wicking occurred at the unskived 5th panel. Fungi of similar origin and fatty acid profile were isolated from UP milk products and the paperboard cartons. / Ph. D.

Natamycin

Modified Atmosphere Packaging

oxygen scavenger

UP Milk

Shredded Cheese

Fungi

Mulch Effects on Squash (<i>Cucurbita pepo</i> L.) and Pollinator (<i>Peponapis pruinosa</i> Say.) Performance

Splawski, Caitlin Elizabeth

20 December 2012

No description available.

Agriculture

Ecology

Horticulture

shredded paper

mulch

weed control

squash

pumpkin

pollinator

Enhancing Geotechnical Properties of High-Water Content Clay Using Finely Shredded Paper / 古紙微細粉体を用いた高含水粘土の地盤工学的諸特性の改良

Kebede, Teshome Birhanu

25 March 2024

京都大学 / 新制・課程博士 / 博士(工学) / 甲第25251号 / 工博第5210号 / 京都大学大学院工学研究科社会基盤工学専攻 / (主査)教授 安原 英明, 准教授 橋本 涼太, 准教授 澤村 康生 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Finely shredded paper

water absorption

hydraulic conductivity

unconfined compressive strength

soil stabilization

cone penetration index

vertical deformations

500

UPSCALING OF A THERMAL EVOLUTION EXPERIMENT ON SHREDDED-TIRE MONOFILLS

Gelaye, Ababu A.

January 2017

No description available.

Environmental Geology

Environmental Engineering