Glass Fibers: Quo Vadis?

Mäder, Edith

doi:10.3390/fib5010010

Cited by 4 publications

(4 citation statements)

References 12 publications

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“…It is possible to obtain a huge variety of different applications and products nowadays. These composite materials represent around 98% of European composites [ 9 ]. Nonetheless, these composites show poor or negligible recyclability and the use of GF as reinforcement for biopolymer materials has limited interest [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Impact Strength and Water Uptake Behavior of Bleached Kraft Softwood-Reinforced PLA Composites as Alternative to PP-Based Materials

et al. 2020

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The research toward environmentally friendly materials has devoted a great effort on composites based on natural fiber-reinforced biopolymers. These materials have shown noticeable mechanical properties, mainly tensile and flexural strengths, as a consequence of increasingly strong interfaces. Previous studies have shown a good interface between natural fibers and poly (lactic acid) (PLA) when these fibers present a low lignin content in their surface chemical composition (bleached fibers). Nonetheless, one of the main drawbacks of these materials is the hydrophilicity of the reinforcements in front of the mineral ones like glass fiber. Meanwhile, the behavior of such materials under impact is also of importance to evaluate its usefulness. This research evaluates the water uptake behavior and the impact strength of bleached Kraft softwood-reinforced PLA composites that have been reported to show noticeable tensile and flexural properties. The paper explores the differences between these bio-based materials and commodity composites like glass fiber-reinforced polypropylene.

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Section: Introductionmentioning

confidence: 99%

Impact Strength and Water Uptake Behavior of Bleached Kraft Softwood-Reinforced PLA Composites as Alternative to PP-Based Materials

et al. 2020

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“…GF has been one of the most often used reinforcements for petroleum-based matrices, due to its high capacity to increase the strength and modulus of the resulting composite materials [ 1 ], combined with a low production cost and availability. Nowadays, 98% of the whole composites’ production in Europe are reinforced with GF [ 9 , 10 ]. However, one of the main drawbacks of the use of GF is related to its high stiffness, which leads to a drop of the toughness of the materials, giving rise to a reduction of the recyclability of these materials [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

“…This reduced recyclability does not agree with the European Union (EU) solid waste treatment targets for 2025 and 2030 related to the improvement of the performance of recycled plastics [ 12 ]. In this sense, many tons of GF waste from composite materials are deposited in landfills [ 9 ]. Otherwise, another disadvantage of the use of GF is related to its health risks, as dermatitis and respiratory diseases can be caused by the manipulation of this material [ 13 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

Towards More Sustainable Material Formulations: A Comparative Assessment of PA11-SGW Flexural Performance versus Oil-Based Composites

et al. 2018

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Abstract:The replacement of commodity polyolefin, reinforced with glass fiber (GF), by greener alternatives has been a topic of research in recent years. Cellulose fibers have shown, under certain conditions, enough tensile capacities to replace GF, achieving competitive mechanical properties. However, if the objective is the production of environmentally friendlier composites, it is necessary to replace oil-derived polymer matrices by bio-based or biodegradable ones, depending on the application. Polyamide 11 (PA11) is a totally bio-based polyamide that can be reinforced with cellulosic fibers. Composites based on this polymer have demonstrated enough tensile strength, as well as stiffness, to replace GF-reinforced polypropylene (PP). However, flexural properties are of high interest for engineering applications. Due to the specific character of short-fiber-reinforced composites, significant differences are expected between the tensile and flexural properties. These differences encourage the study of the flexural properties of a material prior to the design or development of a new product. Despite the importance of the flexural strength, there are few works devoted to its study in the case of PA11-based composites. In this work, an in-depth study of the flexural strength of PA11 composites, reinforced with Stoneground wood (SGW) from softwood, is presented. Additionally, the results are compared with those of PP-based composites. The results showed that the SGW fibers had lower strengthening capacity reinforcing PA11 than PP. Moreover, the flexural strength of PA11-SGW composites was similar to that of PP-GF composites.

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“…çeşitli ajanlarla kaplanması sonrasında bobinlere sarılması ve piyasaya sürülmesi söz konusudur[6,18]. Multifilament haldeki cam elyaflarının belirli uzunluklarda kesilmesiyle kırpılmış cam elyaf üretimi gerçekleştirilmektedir.…”

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Lif Açma İşleminin Cam Elyaf Takviyeli Epoksi Kompozitlerin Mekanik ve Yalıtım

Aygün¹

2020

J Text Eng

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Bu çalışmada, farklı lif boy/çap oranına sahip kırpılmış cam elyaflar, basınçlı hava ile açılmış elyaf demedi haline getirilmiş ve epoksi matrisin takviyelendirilmesinde kullanılmıştır. Ağırlıkça %5, %10 ve %15 oranında elyaf takviyesiyle elle yatırma yöntemiyle üretilen kompozitlere çekme dayanımı, eğilme dayanımı ve ısıl iletkenlik testleri yapılmıştır. Elde edilen sonuçlar, eş işlem parametrelerinde üretilen kırpılmış cam elyaf takviyeli kompozitler ile kıyaslanmıştır. Lif açma süresinin kullanılan kırpılmış lifin boy/çap oranına bağlı olmadığı ve lif boyunun lif açma süresi üzerinde lif çapına göre daha önemli etkiye olduğu görülmüştür. Uzun lif boyuna sahip kırpılmış cam elyafların lif açma işlemine daha hızlı cevap verdiği gözlenmiştir. Lif açma işlemi genel anlamda kompozitlerin çekme ve eğilme dayanımlarında düşüşe ancak yalıtım özelliklerinde artışa neden olmuştur. Lif boy/çap oranı 4.5 mm/13 µ olan cam elyaf tipi için, açılmış elyaf demedi kullanılarak daha düşük konsantrasyonda yüksek çekme dayanımı elde edilmesi söz konusudur. Eğilme dayanımı üzerinde lif boyunun etkisinin yüksek olduğu ve açma işlemi sonrasında, lif boy/çap oranları 3 mm/13 µ ve 4.5 mm/10.5 µ olan cam elyaf tiplerinin eğilme dayanımı davranışlarının daha tutarlı hale geldiği tespit edilmiştir. Lif açma işleminin kompozitlerin ısıl iletim katsayılarının düşmesinde etkili olduğu ve kompozitleri daha yalıtkan hale getirdiği görülmüştür.

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Glass Fibers: Quo Vadis?

Cited by 4 publications

References 12 publications

Impact Strength and Water Uptake Behavior of Bleached Kraft Softwood-Reinforced PLA Composites as Alternative to PP-Based Materials

Impact Strength and Water Uptake Behavior of Bleached Kraft Softwood-Reinforced PLA Composites as Alternative to PP-Based Materials

Towards More Sustainable Material Formulations: A Comparative Assessment of PA11-SGW Flexural Performance versus Oil-Based Composites

Lif Açma İşleminin Cam Elyaf Takviyeli Epoksi Kompozitlerin Mekanik ve Yalıtım

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