Browsing School of Technology by Title
Now showing items 170-189 of 369
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 0.22mm/s, 175C
(2008-09-04)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 0.44mm/s, 155C
(2008-09-04)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 0.44mm/s, 175C
(2008-09-04)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 0.88mm/s, 155C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 0.88mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 1.32mm/s, 155C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 1.32mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 1.76mm/s, 155C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 1.76mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 2.2mm/s, 155C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 2.2mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 2.64mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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HDPE (CM1) optical birefringence pattern in cross-slot flow, piston speed 4.4mm/s, 175C
(2008-09-05)The optical birefringence pattern obtained from lightly branched high density polyethyene (HDPE - produced by metallocene catalysis polymerisation) flowing in a cross-slot multi-pass rheometer cell. Experiment carried out ...
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High speed shadowgraphy for the study of liquid drops
(Springer, 2012)
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Holographic Measurement of Drop-on-Demand Drops in Flight
(Proc 27th Int. Conf. on Digital Printing Technologies, NIP27, 2011)The analysis of images of ink drops in flight can provide information about jet straightness, drop velocity and volume. However trade-offs between field of view, optical and digital resolution and other factors such as ...
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Homeostasis and volume regulation in the Plasmodium falciparum infected red blood cell
(University of CambridgeDepartment of Chemical Engineering and BiotechnologyDepartment of Physiology, Development and Neuroscience, 2011-06-07)The thesis reports on the application of advanced microanalytical techniques to answer a fundamental open question on the homeostasis of Plasmodium falciparum infected red blood cells, namely how infected cells retain their ...
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How can PD process modelling be made more useful? An exploration of factors which influence modelling utility
(2010-05)In what sense is PD process modelling useful? and how can the utility of modelling be improved? In this paper, we approach these questions through an analysis of PD process modelling ‘utility’ – which in broad terms we ...
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How do attitudes of habitual high-technology entrepreneurs to early-stage failure differ in Silicon Valley, Cambridge and Munich?
(University of CambridgeDepartment of EngineeringInstitute for Manufacturing, 2013-04-16)Entrepreneurs develop new technology ventures in uncertain conditions with unproven technologies and limited resources. The majority of such ventures fail, yet entrepreneurship is regarded as a national (and regional) ...
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Ignition of bluff-body methane flames
(2009-05-21)The movies show the ignition process following a spark in a bluff-body stabilised methane non-premixed flame. The flow is described in: S.F. Ahmed, R. Balachandran, T. Marchione, E. Mastorakos, Spark ignition of turbulent ...