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Rotational molding of acrylonitrile-butadiene-styrene polymers and blends /Spencer, Mark Grant, January 2003 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Chemical Engineering, 2003. / Includes bibliographical references (p. 69-74).
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STUDIES ON THE REACTIVE BLENDING OF POLY(LACTIC ACID) AND ACRYLONITRILE BUTADIENE STYRENE RUBBERVadori, Ryan 11 January 2013 (has links)
The polymer materials industry is heavily dependent on the use of petroleum based plastics. This poses a problem, as the world is facing ongoing petroleum supply problems. A need exists for a bio-carbon based polymer material that has the performance and cost of currently used petroleum plastics. However, the overall performance of current bio-based plastics indicate that they must be somehow supplemented to achieve the properties of that of petroleum-based polymers. The low impact strength and thermal stability of poly(lactic acid), PLA are targets for improvement. One option is for development is through blending with acrylonitrile butadiene styrene (ABS). The viability and efficacy of using these two polymers as blending partners is investigated. The PLA used in these studies has unique and interesting crystallization properties. These have been examined and detailed in part 1. The second part of study includes neat polymer properties, miscibility analysis, and large scale process results. This results in an optimized blending ratio on which to go forward with development. The mechanical, thermal, and morphological properties are investigated in these studies. Significance of this research and development is widespread, as the material developed has the potential to reduce the use of petroleum-based carbon in plastics. / The financial support from the 2010 Ontario Ministry of Agriculture, Food and Rural Affairs (OMAFRA)/University of Guelph -Bioeconomy for Industrial Uses Research Program, Natural Sciences and Engineering Research Council (NSERC) AUTO21 NCE project and Grain Farmers of Ontario (GFO), to carry out this research is gratefully acknowledged.
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Electrochemical Characteristics of Conductive Polymer Composite based SupercapacitorsVaidyanathan, Siddharth 24 September 2012 (has links)
No description available.
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Mechanical and electrical properties of 3D-printed acrylonitrile butadiene styrene composites reinforced with carbon nanomaterialsWeaver, Abigail January 1900 (has links)
Master of Science / Department of Mechanical and Nuclear Engineering / Gurpreet Singh / 3D-printing is a popular manufacturing technique for making complex parts or small quantity batches. Currently, the applications of 3D-printing are limited by the material properties of the printed material. The processing parameters of commonly available 3D printing processes constrain the materials used to a small set of primarily plastic materials, which have relatively low strength and electrical conductivity. Adding filler materials has the potential to improve these properties and expand the applications of 3D printed material. Carbon nanomaterials show promise as filler materials due to their extremely high conductivity, strength, and surface area.
In this work, Graphite, Carbon Nanotubes, and Carbon Black (CB) were mixed with raw Acrylonitrile Butadiene Styrene (ABS) pellets. The resulting mixture was extruded to form a composite filament. Tensile test specimens and electrical conductivity specimens were manufactured by Fused Deposition Method (FDM) 3D-printing using this composite filament as the feedstock material. Weight percentages of filler materials were varied from 0-20 wt% to see the effect of increasing filler loading on the composite materials. Additional tensile test specimens were fabricated and post-processed with heat and microwave irradiation in attempt to improve adhesion between layers of the 3D-printed materials.
Electrical Impedance Spectroscopy tests on 15 wt% Multiwalled Carbon Nanotube (MWCNT) composite specimens showed an increase in DC electrical conductivity of over 6 orders of magnitude compared to neat ABS samples. This 15 wt% specimen had DC electrical conductivity of 8.74x10−6 S/cm, indicating semi-conducting behavior. MWCNT specimens with under 5 wt% filler loading and Graphite specimens with under 1 wt% filler loading showed strong insulating behavior similar to neat ABS.
Tensile tests showed increases in tensile strength at 5 wt% CB and 0.5 wt% MWCNT. Placing the specimens in the oven at 135 °C for an hour caused increased the stiffness of the composite specimens.
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Characterization of tensile, creep, and fatigue properties of 3D printed Acrylonitrile Butadiene StyreneZhang, Hanyin 08 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Acrylonitrile Butadiene Styrene (ABS) is the most widely used thermoplastics
in 3D printing for making models, prototypes, patterns, tools and end-use parts.
However, there is a lack of systematic understanding of the mechanical properties of
3D printed ABS components, including orientation-dependent tensile strength, creep,
and fatigue properties. These mechanical properties are critically needed for design
and application of 3D printed components.
The main objective of this research is to systematically characterize key mechanical properties of 3D printed ABS components, including tensile, creep, and fatigue
properties. Additionally, the eff ects of printing orientation on the mechanical prop-
erties are investigated. There are two research approaches employed in the thesis:
rst, experimental investigation of the tensile, creep, and fatigue properties of the 3D
printed ABS components; second, laminate based finite-element modeling of tensile
test to understand the stress distributions in different printing layers.
The major conclusions of the thesis work are summarized as follows. The tensile test experiments show that the 0 printing orientation has the highest Young's
modulus, 1.81 GPa, and ultimate strength, 224 MPa. The tensile test simulation
shows a similar Young's modulus as the experiment in elastic region, indicating the
robustness of laminate based finite element model. In the creep test, the 90 printing
orientation has the lowest k value of 0.2 in the plastics creep model, suggesting the
90 is the most creep resistant among 0 , 45 , and 90 printing orientations. In
the fatigue test, the average cycle number under load of 30 N is 3796 revolutions. The average cycle number decreases to 128 revolutions when the load is below 60N.
Using the Paris Law, with the crack size of 0.75 mm long and stress intensity factor
is varied from 352 to 700 MN -m^3/2 , the predicted fatigue crack growth rate is 0.0341
mm/cycle.
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Layer-to-Layer Physical Characteristics and Compression Behavior of 3D Printed Acrylonitrile Butadiene Styrene Metastructures Fabricated using Different Process ParametersPatibandla, Sivani January 2018 (has links)
No description available.
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Sustainable Innovation in Forklift Design : Exploring the Mechanical Properties and Design Implications of Recycled PlasticWallén Hansen, Maja, Jonsson, Albert January 2024 (has links)
This master’s thesis was conducted at Linköping University in collaboration with ToyotaMaterial Handling in Mjölby to explore potential applications of recycled plastic in forklifttrucks. The primary objective was to identify the most suitable recycled plastic to be usedon the top cover of the BT Levio LWI160, which served as the focal point of this project.This was done in order to address the research questions: "What types of mechanical- andindustrial design requirements are affected when using recycled plastic (of various composi-tions), and to which new requirements and changes will result from this?" and "What are themajor mechanical- and industrial design challenges, advantages & disadvantages of switchingto recycled plastic material, considering economic and sustainability factors." The study concludes that the requirements of the top cover will largely remain unchanged.The use of PP 20GF necessitates further testing for structural integrity and quality con-sistency in recycled material. This material’s harder, less ductile nature may require newimpact testing and recycling processes. Industrial design benefits include simplified colourchoices due to the material’s transparent base hue, although the dark brown colour of re-cycled plastics limits options. Ensuring consistency across batches, minimising costs, andaddressing surface defects and purity issues are critical challenges. Despite uncertainties,switching to recycled plastic can reduce CO2 emissions by up to 24% and attract environ-mentally conscious customers
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Síntese, caracterização e propriedades mecânicas de nanofibras utilizadas para reforço de restaurações protéticas /Gonçalves, Natália Inês. January 2020 (has links)
Orientador: Alexandre Luiz Souto [Unesp] Borges / Resumo: Este estudo visou sintetizar e caracterizar mantas não tecidas de nanofibras (NFs) do acrilonitrila butadieno estireno (ABS), poliamida 6 (PA6) e poliestireno (PS), e avaliar sua capacidade de ser utilizada como reforço no polimetilmetacrilato (PMMA). O ABS foi dissolvido em diclorometano e acetona, a PA6 pelo 1,1,1,3,3,3-hexafluoro-2-propanol e o PS pela dimetilformamida, em uma concentração definida em estudo piloto. Após determinados os melhores parâmetros de eletrofiação (tensão contínua, razão de fluxo e distância agulha/anteparo) as amostras de cada grupo foram analisadas em microscopia eletrônica de varredura, análise de molhabilidade, análise de difratometria de raios X, espectroscopia de infravermelho por transformada de Fourier, diâmetro das fibras e resistência a tração. As NFs produzidas foram incluídas na área de tração dos corpos de prova em resina acrílica ativada termicamente (RAAT) conforme ISO1567, perfazendo 4 grupos (n=20), 1 controle (Grupo 1) e 3 experimentais (Grupo 2, RAAT+NF/ABS; Grupo 2, RAAT+NF/PA6; Grupo 4, RAAT+NF/PS), para ensaio de flexão três pontos para analisar suas propriedades mecânicas, como: módulos de elasticidade e resistência a flexão. De acordo com os testes de caracterização, as mantas se apresentaram hidrofóbicas, não houve mudança de sua estrutura polimérica, concluindo-se então que a técnica da eletrofiação foi promissora na síntese de mantas de NFs. A variação dos parâmetros afetou diretamente a morfologia, resultando em fibras u... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This study aimed to synthesize and characterize non-woven blankets of acrylonitrile butadiene styrene (ABS), polyamide 6 (PA6) and polystyrene (PS) nanofibers (NFs), and to evaluate their ability to be used as reinforcement in polymethyl methacrylate (PMMA). ABS was dissolved in dichloromethane and acetone, PA6 by 1,1,1,3,3,3- hexafluoro-2-propanol and PS by dimethylformamide at a concentration defined in a pilot study. After determining the best electrospun parameters (continuous voltage, flow rate and needle/shield distance) the samples from each group were analyzed by scanning electron microscopy, wettability analysis, X-ray diffraction analysis, Fourier transform infrared spectroscopy, fiber diameter and tensile strength. The NFs produced were included in the tensile area of the thermally activated acrylic resin (RAAT) specimens according to ISO1567, making up 4 groups (n = 20), 1 control (Group 1) and 3 experimental (Group 2, RAAT+NF/ABS; Group 3, RAAT+NF/PA6 and Group 4 (RAAT+NF/PS), for three point bending test to analyze their mechanical properties, as: modules of elasticity and flexural strength. According to the characterization tests, the blankets were hydrophobic, there was no change in their polymeric structure, concluding that the electrospinning technique was promising in the synthesis of NFs blankets. The parameters variation affected directly in the morphology, resulting in uniform, bulky and without defects (beads) NFs blankets. The Groups 3 and 4 (NF/PA6+RA... (Complete abstract click electronic access below) / Mestre
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Analýza teplotního profilu hot bed a hot end u 3D tiskárny pomocí CAE / Analysis of temperature profile of 3D printer hot bed and hot end by using CAESevera, Tomáš January 2014 (has links)
This master‘s thesis deals with 3D printing for non-commercial RepRap 3D printer type and materials used in printing. The outcome of this work is a brief introduction to 3D printing, the theory of heat transfer and analysis of the two most important parts of the printer hot bed and hot end. To analyze and optimize the temperature profile of the hot bed and hot end are used Computer Aided Engineering systems CAD and CAE, SolidWorks and SolidWorks Flow Simulation.
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[pt] AVALIAÇÃO DO COMPORTAMENTO À FLUÊNCIA DO ABS ADITIVADO COM RETARDANTES DE CHAMA / [en] EVALUATION OF THE CREEP BEHAVIOR OF ABS WITH FLAME RETARDANTS ADDITIVESTHIAGO MOREIRA DA SILVA 02 May 2023 (has links)
[pt] O Acrilonitrila-Butadieno-Estireno (ABS) é um polímero de grande uso
industrial, sendo empregado em inúmeros produtos. Muitas de suas aplicações
necessitam de uma elevada resistência a combustão seja pela presença de cargas
elétricas (Efeito Joule) ou a exposição a ambientes de altas temperaturas.
No entanto, o ABS, de modo semelhante a maioria dos polímeros, não é tão
resistente a combustão, sendo necessário o emprego de aditivos Retardantes
de Chamas (RC). A introdução desses aditivos pode, entretanto, acarretar
alteração nas propriedades mecânicas, de forma que é necessário se comparar
o comportamento do material com e sem aditivos. Particularmente importante
é o comportamento a longo prazo, como a fluência. Assim, nesse trabalho foi
avaliado o comportamento a fluência do ABS sem aditivo e de três sistemas
ABS/RC. Foi usado um sistema empregando um aditivo comercial à base
de bromo (ABS − Br), que serviu como base de comparação e dois sistemas
recentemente desenvolvidos, empregando bio-retardantes, a saber: ácido tânico
(TA) e polifosfato de amônio (APP). Os resultados dos ensaios mostraram que
o aditivo comercial não acarretou variação da vida em fluência em relação
ao ABS sem aditivo. Por outro lado, os resultados indicaram que a vida em
fluência foi reduzida quando o aditivo APP foi incorporado e que aumentou
quando o TA foi adicionado. Os dados experimentais dos ensaios de fluência
foram usados para avaliar o comportamento viscoelástico dos quatro grupos
de materiais. O ABS teve seu comportamento adequadamente representado
pelo modelo de Burgers, assim como a ABS com aditivo à base de bromo. O
modelo que melhor descreveu o comportamento do ABS com APP foi o modelo
modificado de Burgers (Streched Burgers). Nem todas as amostras do ABS com
TA apresentaram fluência no intervalo de tempo usado e o modelo que melhor
descreveu o comportamento foi o do sólido linear padrão. / [en] Acrylonitrile-Butadiene-Styrene (ABS) is a polymer of great industrial
use, being used in numerous products. Many of its applications require a high
resistance to combustion, either due to the presence of electrical charges (Joule
Effect) or exposure to high temperature environments. However, ABS, like
most polymers, is not as resistant to combustion, requiring the use of Flame
Retardant (RC) additives. The introduction of these additives can, however,
lead to changes in the mechanical properties, so it is necessary to compare the
behavior of the material with and without additives. Particularly important is
long-term behavior such as fluency. Thus, in this work, the creep behavior of
ABS without additive and of three ABS/RC systems was evaluated. A system
employing a commercial bromine-based additive (ABS − Br) was used, which
served as a basis for comparison and two recently developed systems employing
bio-retardants, namely: tannic acid (TA) and ammonium polyphosphate (APP)
. The test results showed that the commercial additive did not cause a change
in creep life compared to ABS without additive. On the other hand, the
results indicated that the creep life was reduced when the APP additive was
incorporated and that it increased when the TA was added. Experimental
data from creep tests were used to evaluate the viscoelastic behavior of the
four groups of materials. ABS had its behavior adequately represented by the
Burgers model, as well as ABS with bromine-based additive. The model that
best described the behavior of ABS with APP was the modified Burgers model
(Streched Burgers). Not all ABS samples with TA showed fluence in the time
interval used and the model that best described the behavior was the standard
linear solid.
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