CONFINED LAYERED POLYMERIC SYSTEMS FOR PACKAGING ANDCAPACITOR APPLICATIONS

Carr, Joel Matthew

16 August 2013

No description available.

Polymers

biaxial stretching

confined crystallization

morphology

multilayer films

dielectric properties

energy storage

Structure and blood compatibility of highly oriented poly(lactic acid)/thermoplastic polyurethane blends produced by solid hot stretching

Zhao, X., Ye, L., Coates, Philip D., Caton-Rose, Philip D.

12 May 2013

Yes / Highly oriented poly(lactic acid) (PLA)/thermoplastic polyurethane (TPU) blends were fabricated through solid hot stretching technology in an effort to improve the mechanical properties and blood biocompatibility of PLA as blood-contacting medical devices. It was found that the tensile strength and modulus of the blends can be improved dramatically by stretching. With the increase of draw ratio, the cold crystallization peak became smaller, and the glass transition and the melting peak moved to high temperature, while the crystallinity increased, and the grain size of PLA decreased, indicating of the stress-induced crystallization during drawing. The oriented blends exhibited structures with longitudinal striations which indicate the presence of micro-fibers. TPU phase was finely and homogeneously dispersed in the PLA, and after drawing, TPU domains were elongated to ellipsoid. The introduction of TPU and orientation could enhance the blood compatibility of PLA by prolonging kinetic clotting time, and decreasing hemolysis ratio and platelet activation.

Poly(lactic acid) (PLA)

Thermoplastic polyurethane (TPU)

Solid hot stretching

Orientation

Mechanical properties

Blood compatibility

Processing melt blended polymer nanocomposites using a novel laboratory mini-mixer. Development of polymer nanocomposites in the melt phase using a novel mini-mixer.

Khan, Atif H.

January 2012

Research into the processing conditions and parameters of polymeric nanocomposites has always been challenging to scientists and engineers alike. Many have developed tools and procedures to allow materials to be exploited and their properties improved with the addition of nanofillers to achieve the desired end material for various applications. Initial trials are mostly conducted using conventional small scale experiments using specialised equipment within the laboratory that can replicate the larger industrial equipment. This is a logical approach as it could save time and costs as many nanocomposites are relatively expensive to produce. Experiments have previously been done using the likes of the Haake twin screw extruder to manufacture nanocomposites within the laboratory but this research project has used a novel minimixer specifically developed to replicate mixing like large twin screw extrusion machines. The minimixer uses a twin paddle system for high shear mixing in conjunction with a single screw thus theoretically allowing an infinitely long recirculation. It is this ability to mix intensely whilst allowing for as long as desired recirculation which enables the replication in this very small mixer (10-30g capacity) of the mixing conditions in a large twin screw extruder. An added feature of the minimixer is that it can undertake inline data analysis in real time. The main experiments were conducted using a comprehensive DOE approach with several different factors being used including the temperature, screw speed, residence time, clay and compatibiliser loading and two polymer MFI¿s. The materials used included PP, Cloisite 20A, Polybond 3200, PET, Somasif MTE, Polyurethane 80A and Single / Multi-walled Carbon nanotubes. Detailed experimental results highlighted that rheological analysis of the nanocomposite materials as an initial testing tool were accurate in determining the Elastic and Loss modulus values together with the Creep and Recovery, Viscosity and Phase Angle properties in the molten state. This approach was also used in an additional set of experiments whereby the temperature, speed, residence time and compatibiliser were kept constant but the clay loading was increased in 1% wt. increments. These results showed that the G¿ & G¿¿ values increased with clay loading. Another important finding was the bi-axial stretching step introduced after the processing stage of the nanocomposite materials which highlighted a further improvement in the modulus values using rheological testing. Other tests included using inline monitoring to look into both the viscosity and ultrasound measurements in real time of the molten polymer nanocomposite through a slit die attachment to the minimixer. / EPSRC

Nanocomposites

Nanoclay

Intercalation

Exfoliation

Polypropylene

Mixing

Extrusion

Stretching

Rheology

Minimixer

Elasticity

Viscosity

Adolescents Long-Distance Runners’ Perceptions of Factors That Contribute to Running- Related Injuries

Bachand, Raven Melissa

11 July 2022

No description available.

Kinesiology

Sports Medicine

Adolescents

Running

Perceptions

Footwear

Training Habits

Strength

Stretching

Överföringseffekten av rörlighetsträning mellan unilateral och kontralateral sida : En randomiserad interventionsstudie / Unilateral to contralateral crosstransfer of mobility : Randomized clinical trial study

Nilsson, Filip, Byström, Axel

January 2021

Inledning: Stretching ökar rörelseförmågan över leden och har visats vara skadeförebyggande och en viktig del i rehabilitering. Rörligheten tros öka genom förlängning av kontraktil vävnad, ökad stretch-tolerans och anpassningar kopplade till aktivering av motoriska områden i hjärnan. Överföringseffekten innebär att den otränade (kontralaterala) extremiteten drar nytta av färdigheter som den tränade (unilaterala) extremiteten utvecklar något som kan ha stor nytta vid långvarig unilateral immobilisering. Syftet: Syftet med studien var att undersöka överföringseffekten från dynamisk- respektive statisk unilateral rörlighetsträning av hamstringsmusklatur till kontralateral sida efter två veckors intervention, samt jämföra effekterna däremellan. Metod: Fyra deltagare inkluderades och fördelades slumpmässigt mellan de två interventionerna. En grupp, deltagare 2 och 3, utförde unilateraldynamisk rörlighetsträning och den andra gruppen, deltagare 1 och 4, utförde unilateralstatisk rörlighetsträning. Rörligheten i hamstringsmuskulatur mättes med passive straight legraise (PSLR) och aktiv knäextension (AKE) innan och efter två veckors intervention. Resultat: Deltagare 1 och 2 visade en överföringseffekt på 6,4-11,3% vid mätning av AKE. Deltagare 2 visade en överföringseffekt på 6,3% vid mätning av PSLR. Deltagare 3 visade en minskning med 8% på kontralaterala benet vid mätning av PSLR. För övriga utfall visade deltagarna en förändring av rörligheten på ±3 grader. Diskussion: Överföringseffekt observerades vid hälften av utfallen och till största del vid mätning av AKE, utan skillnad mellan statisk och dynamisk rörlighetsträning. Tänkbar mekanism är en kombination av ökad stretch-tolerans och neurala adaptioner mellan hjärnbark, muskel och muskelspole. Konklusion: En viss överföringseffekt efter rörlighetsträning kan ej uteslutas men studier med fler deltagare behövs för att bekräfta resultatet av denna pilotstudie.

Cross-education

Cross-transfer

Mobility

Mobility training

Non-local

Range of motion

Stretching

Physiotherapy

Sjukgymnastik

Orientationally Ordered Particles: Characterization and Applications

Neal, Jeremy R.

22 April 2010

No description available.

Physics

orientational order

strain alignment

rubber

stretching

elastomer synthesis

The acute influence of static and ballistic stretching on the biomechanics and muscle activity associated with the hamstring stretch

Snyder, Alison R.

January 2004

No description available.

Health Sciences, General

Stretching

muscle

static

ballistic

flexibility

range of motion

electromyography

Stretching: Acute and Chronic? The Potential Consequences

Stone, Michael H., Ramsey, Michael W., Kinser, Ann M., O'Bryant, Harold S., Ayers, Chris, Sands, William A.

01 December 2006

Stretching is commonly used by many athletes in different sports. Although acute stretching, as part of a warm-up, can enhance range of motion, it may also reduce performance. Acute stretching can reduce peak force, rate of force production, and power output. Chronic stretching may enhance performance, although the mechanism is unclear. Acute stretching has little effect on injury. However, chronic stretching (not part of warm-up) may have some injury reduction potential.

stretching

Exercise Physiology

Gerontology

Sports Medicine

Sports Sciences

Changes in Kinetochore Structure and Molecular Composition in Response to Mis-attachment

Shen, Muyao

18 July 2011

Each mitotic chromosome is constituted by two sister chromatids whose correct segregation to the daughter cells is ensured by amphitelic attachment, in which the two sister kinetochores (KTs) are attached to microtubules (MTs) from opposite mitotic spindle poles. KT mis-attachments can occur in early mitosis and cause chromosome mis-segregation and aneuploidy if not corrected. These mis-attachments include monotelic (one attached and one unattached sister KT), syntelic (both sister KTs attached to the same spindle pole), and merotelic (a single KT attached to MTs from opposite spindle poles) attachments. A biochemical pathway named the Spindle Assembly Checkpoint (SAC) is responsible for delaying anaphase onset to allow correction of KT mis-attachments. SAC activation is believed to occur due to KT localization of certain SAC proteins and/or lack of tension, but only monotelic attachment has been proven to activate the SAC. To determine if and how other KT mis-attachments may activate the SAC, we studied how molecular composition and structure of the KT changes in response to different types of attachments. Our data suggest that monotelic attachment is the only type of attachment that can induce a SAC response thanks to the accumulation of the SAC protein Mad2 at the KT. Our data also indicate that structural changes of the KT, measured as intra- or inter-KT stretching, do not directly induce a SAC response. Instead, our findings suggest decreased KT stretching, especially in inter-KT stretching of syntelic chromosomes, may play a key role in bringing MCAK and other KT substrates closer to Aurora B kinase for rapid and efficient correction of KT mis-attachments. / Master of Science

the spindle assembly checkpoint (SAC)

tension

KT stretching

Examination of Mechanical Stretching to Increase Alignment in Carbon Nanotube Composites

Hull, Brandon Tristan

17 September 2013

Individual carbon nanotubes have been theoretically and experimentally proven to be the strongest and stiffest materials discovered to date with tensile strengths ranging from 1-5 TPa and elastic modulus values as high as 150 GPa. In this work, the recent development of continuous sheets of CNTs, produced by Nanocomp Technologies Inc ., are investigated for their potential as reinforcement in polymer matrix composite (PMC) materials. The potential of these nanotube-based PMC materials have been reported by researchers at Florida State University (FSU). Through the use of mechanical stretching procedures to increase the alignment of the nanotubes within the CNT sheets, the tensile strength and Young's modulus of the composites in the FSU study averaged 3081 MPa and 350 GPa, respectively. These values are for composites fabricated from 40% stretched CNT sheets and are 48% and 107% improvements over composites fabricated from the pristine, unstretched CNT sheets. However, the test specimens used in the FSU study consisted of a single CNT ply and each coupon was individually stretched and cured for testing. Therefore, the process used to generate the coupons which exhibited these high mechanical properties would be difficult to scale to a usable size for aerospace structural components. In the current study, a scalable process has been developed in which 2-ply, 3" x 3" panels of CNT and resin composites are fabricated. An apparatus and methodology for mechanically stretching the CNT sheets used in these composite panels has also been developed. After initial testing was conducted with the CNT composites and the coupons exhibited significant elongation at failure, along with the absence of a linear elastic region, conventional test standards for material testing were deemed impractical. For this reason, new mechanical testing methodologies have been developed to determine the mechanical properties of specific strength and specific modulus of CNT-polymer composites. In order to obtain the maximum benefits of a fiber in any matrix in terms of stiffness and strength, it is preferable to align the high strength and stiffness fibers in the direction of loading. Given that these CNT sheets essentially consist of billions of short, discontinuous CNTs of 2-3mmin length, the process of mechanical stretching is used in an attempt to align these tubes in the direction of the applied tensile load. Here we have explored methodologies for stretching, fabricating, and mechanical testing. Having identified a process which seems viable, an examination into the effect of the mechanical stretching to increase the alignment of the nanotubes within the CNT sheets, and thus to increase the material properties of the 2-ply composites constructed from them, is conducted. In order to correlate the enhancements in the mechanical properties with the increased alignment of the CNTs, polarized Raman spectroscopy techniques have been used. Lastly, Scanning Electron Microscopy (SEM) is used to examine the effect of stretching on the pristine CNT sheet, as well as examine the fracture surfaces of failed test coupons to better characterize the failure modes. In this report, polarized Raman spectroscopy has been used to confirm the enhancedalignment of nanotubes within the CNT sheets through the used of a nematic order parameter. Unstretched sheets exhibit an order parameter of 0.07 and 0.09 for untreated and Acetone treated sheets, respectively. Upon stretching the untreated sheets to 45%, the order parameter increases to 0.1409 and, when stretched to 30%, Acetone treated sheets have an order parameter of 0.1518. During the mechanical testing of 2-ply composites fabricated from stretched CNT sheets, the effect of this increased alignment is made apparent. Untreated CNT sheets are used to fabricate 2-ply composites after being stretched and are compared to baseline values of panels fabricated using sheets which are not stretched. In the panels fabricated with PEI resin and 43% stretched, untreated CNT sheets, a 137% increase in average specific strength and a 44% increase in average specific modulus over the baseline panel is observed. For panels fabricated with BMI and 33% stretched, untreated CNT sheets, a 169% increase in average specific strength and 105% increase in average specific modulus is observed when compared to the baseline panel. These increases are evidence for the potential of mechanical stretching to align the nanotubes within the CNT sheets and bolster the mechanical properties of resulting CNT-polymer composites. / Master of Science

Carbon Nanotube

Composite Fabrication

Mechanical Stretching

Composite Tensile Testing

Raman Spectroscopy