Preparation Techniques and Property Evaluations of Highly Air Permeable Needle-Punched Geotextiles

Geotextiles are made of polymers, and their conjunction with different processes and materials can provide geotextiles with desirable characteristics and functions, such as filtration, separation, and drainage, and thereby meets the environmental requirements. Chemical resistant and mechanical strong polymers, including polyester (PET) and polypropylene (PP), are thus used to prolong the service life of the products made by such materials. This study proposes highly air permeable geotextiles that are made with different thicknesses and various needle punching speeds, and the influences of these two variables over the pore structure and mechanical properties are then examined. PET fibers, PP fibers, and recycled Kevlar fibers are blended, followed by being needle punched with differing spaces and speeds to form geotextiles with various thicknesses and porosities. The textiles are then evaluated for their mechanical strength and porosity. The test results show that a thickness of 4.5 cm and 1.5 cm demonstrate an influence on the tensile strength of the geotextiles, which is ascribed to the webs that are incompletely needle punched. However, the excessive needle punching speed corresponding to a thickness of 0.2 cm results in a decrease in tensile strength, but there is also an increase in the porosity of the geotextiles.

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Optically Transparent Polymethyl Methacrylate Composites made with Glass Fibers of Varying Refractive Index

Journal of Materials Research ◽

10.1557/jmr.1997.0152 ◽

1997 ◽

Vol 12 (4) ◽

pp. 1091-1101 ◽

Cited By ~ 12

Author(s):

Seunggu Kang ◽

Hongy Lin ◽

Delbert E. Day ◽

James O. Stoffer

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Refractive Index ◽

Mechanical Strength ◽

Glass Fiber ◽

Polymethyl Methacrylate ◽

Optical Transmission ◽

Annealing Temperature ◽

Glass Fibers ◽

Optically Transparent

The dependence of the optical and mechanical properties of optically transparent polymethyl methacrylate (PMMA) composites on the annealing temperature of BK10 glass fibers was investigated. Annealing was used to modify the refractive index (R.I.) of the glass fiber so that it would more closely match that of PMMA. Annealing increased the refractive index of the fibers and narrowed the distribution of refractive index of the fibers, but lowered their mechanical strength so the mechanical properties of composites reinforced with annealed fibers were not as good as for composites containing as-pulled (chilled) glass fibers. The refractive index of as-pulled 17.1 μm diameter fibers (R.I. = 1.4907) increased to 1.4918 and 1.4948 after annealing at 350 °C to 500 °C for 1 h or 0.5 h, respectively. The refractive index of glass fibers annealed at 400 °C/1 h best matched that of PMMA at 589.3 nm and 25 °C, so the composite reinforced with those fibers had the highest optical transmission. Because annealed glass fibers had a more uniform refractive index than unannealed fibers, the composites made with annealed fibers had a higher optical transmission. The mechanical strength of annealed fiber/PMMA composites decreased as the fiber annealing temperature increased. A composite containing fibers annealed at 450 °C/1 h had a tensile strength 26% lower than that of a composite made with as-pulled fibers, but 73% higher than that for unreinforced PMMA. This decrease was avoided by treating annealed fibers with HF. Composites made with annealed and HF (10 vol. %)-treated (for 30 s) glass fibers had a tensile strength (∼200 MPa) equivalent to that of the composites made with as-pulled fibers. However, as the treatment time in HF increased, the tensile strength of the composites decreased because of a significant reduction in diameter of the glass fiber which reduced the volume percent fiber in the composite.

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The Influence of the Asymmetric Arb Process on the Properties of Al-Mg-Al Multi-Layer Sheets / Wpływ Asymetrii W Procesie Arb Na Właściwości Wielowarstwowych Blach Al-Mg-Al

Archives of Metallurgy and Materials ◽

10.1515/amm-2015-0450 ◽

2015 ◽

Vol 60 (4) ◽

pp. 2821-2826 ◽

Cited By ~ 14

Author(s):

A. Wierzba ◽

S. Mróz ◽

P. Szota ◽

A. Stefanik ◽

R. Mola

Keyword(s):

Mechanical Properties ◽

Experimental Study ◽

Tensile Strength ◽

Rolling Process ◽

Asymmetry Factor ◽

Relative Reduction ◽

Test Results ◽

Initial Thickness ◽

Asymmetric Rolling ◽

Aluminium Layer

The paper presents the results of the experimental study of the three-layer Al-Mg-Al sheets rolling process by the ARB method. The tests carried out were limited to single-pass symmetric and asymmetric rolling processes. An Al-Mg-Al package with an initial thickness of 4 mm (1-2-1 mm) was subjected to the process of rolling with a relative reduction of 50%. To activate the shear band in the strip being deformed, an asymmetry factor of av=2 was applied. From the test results, an increase in the tensile strength of the multi-layer Al-Mg-Al sheets obtained from the asymmetric process was observed. Microhardness tests did not show any significant differences in aluminium layer between respective layers of sheets obtained from the symmetric and the asymmetric process. By contrast, for the magnesium layer, an increase in microhardness from 72 HV to 79 HV could be observed for the asymmetric rolling. The analysis of the produced Al-Mg-Al sheets shows that the good bond between individual layers and grain refinement in the magnesium layer contributed to the obtaining of higher mechanical properties in the multi-layer sheets produced in the asymmetric process compared to the sheets obtained from the symmetric process.

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Size Effect on Mechanical Properties of LVL

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.887-888.824 ◽

2014 ◽

Vol 887-888 ◽

pp. 824-829

Author(s):

Qing Fang Lv ◽

Ji Hong Qin ◽

Ran Zhu

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Compressive Strength ◽

Size Effect ◽

Tensile Test ◽

Compression Test ◽

Test Results ◽

Laminated Veneer Lumber ◽

Object Of Study ◽

The Relationship

Laminated veneer lumber is taken as an object of study, and use LVL specimens of different sizes for compression test and tensile test. The goal of the experiment is to investigate the size effect on compressive strength and tensile strength as well as the influence of the secondary glued laminated face, which appears in the secondary molding processes. The results show that both compressive strength and tensile strength have the size effect apparently and the existence of the secondary glued laminated face lower the compressive strength of LVL specimens. Afterwards, the relationship between compressive strength and volume along with tensile strength and area are obtained by the test results.

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Synthesis of Polyvinyl Formal Sponge for Wound Care Dressing Application

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.152-153.1650 ◽

2010 ◽

Vol 152-153 ◽

pp. 1650-1659

Author(s):

Qing Hao Yang ◽

Guang Xu Cheng ◽

Zhi Cheng Zhang

Keyword(s):

Mechanical Properties ◽

Mechanical Strength ◽

Porous Structure ◽

Pore Structure ◽

Water Absorption ◽

Wound Dressing ◽

Wound Care ◽

Acid Catalyst ◽

The Other ◽

Polyvinyl Formal

In an effort to seek poly(vinyl formal) (PVFM) foams based wound dressing pad material, a series of foamed PVFM materials have been synthesized under varied conditions. The influence of conditions on the properties of PVFM foam, such as mechanical properties, water absorption, pore structure and bulk density, is well discussed individually. It has been shown that both the reactant and acid catalyst affect the degree and speed of acetalization, therefore the mechanical properties, pores continuity and water absorption of the resultant sample. The addition of Na2CO3, surfactant and CMCNa are mainly influencing the porous structure as well as the mechanical properties and water absorption. One best sample with balanced properties is obtained. It possesses higher mechanical strength and water absorption while the other properties are similar, comparing with a commercial surgical PVFM sponge (YJ-1) currently used.

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Influence of Stirring Time and Holding Time on Microstructure and Properties of the A356 Alloy Modified by Sc

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.750-752.687 ◽

2013 ◽

Vol 750-752 ◽

pp. 687-690 ◽

Cited By ~ 1

Author(s):

Su Zhang ◽

Gang Yang ◽

Jian Hong Yi ◽

Hong Yan

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Grain Boundary ◽

Eutectic Silicon ◽

A356 Alloy ◽

Holding Time ◽

Test Results ◽

Modification Effect ◽

Microstructure And Mechanical Properties ◽

Stirring Time

Effects of the holding time and the stirring time on the microstructure and mechanical properties of A356 alloy modified by Sc are researched. According to the test results, most of the eutectic silicon phases have changed to the shape of creeping point, dispersed in the grain boundary of α (Al) phase while stirring 1 minute, in which case both the tensile strength and elongation reach the highest, resulting in the best modification effect. The results also indicate that microstructure and mechanical properties of the alloy reach are the best modification effect when the melt is held 15 minute. It can be known that the optimal stirring time is 1 minute and the optimal holding time is 15 minute in the experiment condition of the work.

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The Effect of Polypropylene Fiber on the Mechanical Properties of Self-Compacting Concrete

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.168-170.1325 ◽

2010 ◽

Vol 168-170 ◽

pp. 1325-1329

Author(s):

Ye Ran Zhu ◽

Jun Cai ◽

Dong Wang ◽

Guo Hong Huang

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Compressive Strength ◽

Polypropylene Fiber ◽

Flexural Properties ◽

Test Results ◽

Self Compacting Concrete ◽

Bending Tests ◽

Flexural Toughness ◽

Four Point Bending

This paper investigates the mechanical properties (compressive strength, splitting tensile strength and flexural toughness) of polypropylene fiber reinforced self-compacting concrete (PFRSCC). The effect of the incorporation of polypropylene fiber on the mechanical properties of PFRSCC is determined. Four point bending tests on beam specimens were performed to evaluate the flexural properties of PFRSCC. Test results indicate that flexural toughness and ductility are remarkably improved by the addition of polypropylene fiber.

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Fracture Mechanical Properties of Rocks and Mortar/Rock Interfaces

MRS Proceedings ◽

10.1557/proc-370-377 ◽

1994 ◽

Vol 370 ◽

Cited By ~ 4

Author(s):

Manouchehr Hassanzadeh

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Compressive Strength ◽

Fracture Energy ◽

Modulus Of Elasticity ◽

Splitting Tensile Strength ◽

Coarse Grained ◽

Interfacial Zone ◽

Test Results

AbstractThis study has determined the fracture mechanical properties of 9 types of rock, namely fine-, medium- and coarse-grained granites, gneiss, quartzite, diabase, gabbro, and fine- and coarse-grained limestones. Test results show among other things that quartzite has the highest compressive strength and fracture energy, while diabase has the highest splitting tensile strength and modulus of elasticity. Furthermore, the strength and fracture energy of the interfacial zone between the rocks and 6 different mortars have been determined. The results showed that, in this investigation, the mortar/rock interfaces are in most cases weaker than both mortars and rocks.

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Effect of Environmental Degradation on Mechanical Properties of Kenaf/Polyethylene Terephthalate Fiber Reinforced Polyoxymethylene Hybrid Composite

Advances in Materials Science and Engineering ◽

10.1155/2013/671481 ◽

2013 ◽

Vol 2013 ◽

pp. 1-8 ◽

Cited By ~ 13

Author(s):

Mohamad Zaki Abdullah ◽

Yakubu Dan-mallam ◽

Puteri Sri Melor Megat Yusoff

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Environmental Degradation ◽

Hybrid Composite ◽

Fiber Composite ◽

Accelerated Weathering ◽

Fiber Reinforced ◽

Kenaf Fiber ◽

Pet Fibers ◽

Outdoor Application

The main objective of this research is to investigate the effect of environmental degradation on the mechanical properties of kenaf/PET fiber reinforced POM hybrid composite. Kenaf and PET fibers were selected as reinforcements because of their good mechanical properties and resistance to photodegradation. The test samples were produced by compression molding. The samples were exposed to moisture, water spray, and ultraviolet penetration in an accelerated weathering chamber for 672 hours. The tensile strength of the long fiber POM/kenaf (80/20) composite dropped by 50% from 127.8 to 64.8 MPa while that of the hybrid composite dropped by only 2% from 73.8 to 72.5 MPa. This suggests that the hybrid composite had higher resistance to tensile strength than the POM/kenaf composite. Similarly, the results of flexural and impact strengths also revealed that the hybrid composite showed less degradation compared to the kenaf fiber composite. The results of the investigation revealed that the hybrid composite had better retention of mechanical properties than that of the kenaf fiber composites and may be suitable for outdoor application in the automotive industry.

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Statistical Evaluation Tensile Properties of High-Density Polyethylenes

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.445.213 ◽

2012 ◽

Vol 445 ◽

pp. 213-218 ◽

Cited By ~ 1

Author(s):

Ahmet Koyun ◽

Baris Koksal ◽

Esma Ahlatcioglu ◽

A. Binnaz Hazar Yoruc

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Yield Strength ◽

Tensile Test ◽

Statistical Evaluation ◽

Test Results ◽

Plastic Materials ◽

Service Conditions ◽

End Use ◽

Chain Lengths

The mechanical properties, among all the properties of plastic materials, are often the most important properties because virtually all service conditions and the majority of end-use applications involve some degree of mechanical loading [1]. In the present work three different commercial polyethylene materials are tensile tested at four or five different tensile rates and two or three temperatures. Tensile test results against tensile rate include stress at 0.5 % elongation, tensile strength, yield strength, modulus of elasticity, elongation at yield and % elongation are determined. It is concluded that the structure, chain lengths and branching rates of polymer matrix significantly effected tensile test curve characteristic.

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IMPACT OF USING STONE POWDER AND MINERAL ADMIXTURES IN HIGH STRENGTH CONCRETE

International Journal of Engineering Technology and Management Sciences ◽

10.46647/ijetms.2020.v04i05.015 ◽

2020 ◽

Vol 4 (5) ◽

pp. 82-87

Author(s):

Afzal Basha Syed ◽

Jayarami Reddy B ◽

Sashidhar C

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

High Strength Concrete ◽

High Strength ◽

Mineral Admixtures ◽

Test Results ◽

Concrete Technology ◽

Split Tensile Strength ◽

Conventional Concrete ◽

Strength Concrete

In present era, high-strength concrete is progressively utilized in modern concrete technology and particularly in the construction of elevated structures. This examination has been directed to explore the properties of high-strength concrete that was delivered by using stone powder (SP) as an option of extent on sand after being processed. The aim of the research is to study the effect of replacement of sand with stone powder and substitution of cement with mineral admixtures (GGBS & Zeolite) on the mechanical properties of high strength concrete. The test results showed clear improvement in compression and split tensile nature of concrete by using stone powder and mineral admixtures together in concrete. The increment in the magnitude of compressive strength and split tensile strength are comparable with conventional concrete.

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