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Significant Market Share (significant + market_share)
Selected AbstractsDie Festgesteinsschildmaschine, Interaktion zwischen Gebirge und Vortriebssystem, Kompetenz- und RisikoverteilungGEOMECHANICS AND TUNNELLING, Issue 6 2008Harald Lauffer Dipl.-Ing. Festgesteinsschildmaschinen mit ihren Bauformen Einfachschild (TBM-S) und Doppelschild (TBM-DS) haben sich einen wesentlichen Markanteil erobert. Sie werden für einen Vortrieb im Festgestein geringer Standzeit im nachbrüchigen bis gebrächen Gebirge empfohlen. Die Überlegungen über die Interaktion zwischen Gebirge und Vortriebssystem bestätigen die Annahme, dass eine systematische Gebirgsstützung weder im Schneidradbereich noch im Schildbereich gegeben ist. Unter gewissen Umständen kann es jedoch im Schildbereich zur Ausbildung eines sekundären Traggewölbes im aufgelockerten Gebirge kommen. Es zeigt sich, dass vermutete negative Wirkungen des Schneidrads auf die Ortsbrust nicht auftreten und das Lösen weitgehend schonend erfolgt. Der Einsatz von Schaum zur Auffüllung von Nachbrüchen und zur Stabilisierung des Gebirges hat sich bewährt. Portalbereiche und Bereiche geringer Überdeckung sind erforderlichenfalls möglichst vorweg von über Tage aus zu ertüchtigen. Im Fall von Nachbruch- und Verbrucherscheinungen an der Ortsbrust und der Tunnelleibung können Maschinenparameter wie Drehmoment und Vorschubkraft und Bohrkopfdetails das Verhalten einer Festgesteinsschildmaschine in dieser Grenzsituation stark beeinflussen. Da das Baugrundrisiko grundsätzlich dem Auftraggeber zuzuordnen ist, muss sich der Auftraggeber mit diesen Szenarien intensiv auseinandersetzten und eventuell entsprechende Vorgaben für die Gestaltung der TBM machen ohne den Auftragnehmer allzu sehr einzuschränken. Für einen erfolgreichen Vortrieb mit Festgesteinsschildmaschinen im Grenzbereich ist eine partnerschaftliche Zusammenarbeit in allen Phasen der Bauabwicklung von der Vergabe, über die Abstimmung der TBM-Details bis zur Abwicklung des Vortriebs von größerer Bedeutung. Kürzere und längere, planbare und ungeplante Unterbrüche sind bei TBM-Vortrieben unvermeidbar und systembedingt. Die baubetrieblichen Risiken von Unterbrüchen sind der Auftragnehmer-Sphäre, die Folgen für das Verhalten des Gebirges aufgrund einer verlängerten Stehzeit sind der Risikosphäre des Auftraggebers zuzuordnen. The Hard-Rock Shield Machine, Interaction between Rock and TBM System, Distribution of Responsibility and Risk Single-shield and Double-shield machines have gained a significant market share. They are recommended for tunnel driving in unstable and friable rock with short stand-up time. Looking into the interaction between rock and TBM system confirms the assumption that a systematic rock support through the cutterhead or shield does not exist. But it is possible that under specific circumstances a secondary-load bearing arch is formed inside a loosened rock mass above a shield. It appears that the suspected negative effects of the cutter head on the tunnel face do not exist and that tunnel boring is a relatively gentle process. Filling up overbreak volumes with foam has proved successful in stabilising loosening rock mass. The portal areas and areas of low overburden should be treated from above-ground well in advance if necessary. In case of massive overbreak or even downfalls TBM data such as cutterhead torque and thrust or cutterhead details can influence the behaviour of the TBM significantly. As the ground risk rests basically with the owner, he has to give serious consideration to such situations. He may have to specify basic TBMdata and TBM details without imposing too many restrictions on the contractor. A trustful partnership between owner and contractor during all stages of tunnel driving is of utmost importance for successful tunnel boring with hard-rock shield machines in difficult rock conditions. [source] Large-scale extrusion processing and characterization of hybrid nylon-6/SiO2 nanocompositesPOLYMERS FOR ADVANCED TECHNOLOGIES, Issue 4 2004Monserrat García Abstract Solution impregnations, pulltrusion and film stacking are widely used methods to prepare thermoplastic composite materials. Extruders are used to melt the polymer and to incorporate fibers into the polymer in order to modify physical properties. In this article, the compounding of colloidal silica nanoparticles filled polyamide-6 (PA-6) is achieved using a twin-screw extruder, which has a significant market share due to its low cost and easy maintenance. The experiments were performed at 250 rpm and the bulk throughput was 6,kg,h,1 with a pump pressure of 30 bars. The composites were characterized with nuclear magnetic resonance (NMR), wide angle X-ray diffraction (WAXD), differential scanning calorimetry (DSC) and transmission electron microscopy (TEM). As determined by WAXD, the PA-6 showed higher amounts of , -phase when compared to other synthesis methods such as in situ polymerization. TEM pictures showed that the silica particles aggregated nevertheless, upon addition of 14% (w/w) silica the E-modulus increased from 2.7 to 3.9,GPa indicating that an effective mechanical coupling with the polymer was achieved. The behavior, illustrated with dynamic mechanical analysis (DMA) curves, indicated that in general when a filled system is compared to unfilled material, the values of the moduli (E, and E,) increased and tan , decreased. Determination of molecular mass distribution of the samples by means of size exclusion chromatography (SEC) coupled to a refractive index (RI), viscosity (DV) and light scattering (LS) detector revealed that the addition of silica did not decrease the average molecular weight of the polymer matrix, which is of importance for composite applications. Copyright © 2004 John Wiley & Sons, Ltd. [source] Total System Reliability: Integrated Model for Growth and Test TerminationQUALITY AND RELIABILITY ENGINEERING INTERNATIONAL, Issue 4 2005John Donovan Abstract Reliability demonstration testing is not the most efficient method of assuring product reliability prior to shipment. It is costly, time consuming and has inherent technical and social limitations. The dilemma facing the reliability and quality engineer is whether to continue demonstration testing and risk shipping a product late or ship the product and risk warranty and field service returns. Either option can cause the company to lose significant market share and profit. This paper sets out to solve this dilemma by meeting both the time to market constraints and the product reliability goals. The weaknesses of existing reliability demonstration techniques are explored and a comprehensive methodology is introduced involving controlled development processes, stress testing, root cause determination and process change feedback mechanisms. All prototype products are manufactured on the final volume process line resulting in the early identification and correction of process-related problems. Testing commences on the first available prototypes with system stress/robust testing being employed to stimulate failures, determine their root cause and correct them. Reliability growth modelling assesses the ongoing improvements occurring in reliability during the development cycle, while a statistical stopping rule is used to determine the optimal product release time without risking product warranty. The approach is applicable to systems incorporating both hardware and software elements. The methodology has been validated on three development projects of telecommunication systems comprising hardware and software. In addition to enhancing team behaviour and performance, the development times have been reduced by 14% and the ramp-up time to full worldwide product shipments has been reduced by 50%. Copyright © 2005 John Wiley & Sons, Ltd. [source] Representations of nature of science in high school chemistry textbooks over the past four decadesJOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 7 2008Fouad Abd-El-Khalick Abstract This study assessed the representations of nature of science (NOS) in high school chemistry textbooks and the extent to which these representations have changed during the past four decades. Analyses focused on the empirical, tentative, inferential, creative, theory-driven, and social NOS, in addition to the myth of "The Scientific Method," the nature of scientific theories and laws, and the social and cultural embeddedness of science. A total of 14 textbooks, including five "series" spanning one to four decades, were analyzed. The textbooks commanded significant market shares in the United States and were widely used in some of the most populace states. Relevant textbook sections were scored on each of the target NOS aspects on a scale ranging from ,3 to +3, which reflected the accuracy, completeness, and manner (explicit versus implicit) in which these aspects were addressed. The textbooks fared poorly in their representations of NOS. Additionally, with a few exceptions, textbook scores either did not change or decreased over the past four decades. These trends are incommensurate with the discourse in national and international science education reform documents, which has witnessed an increasing emphasis on the centrality of NOS to scientific literacy and pre-college science education during the same time period. Assessment and evaluation strategies, and policies need to be targeted if substantial and desired changes in the ways NOS is addressed in science textbooks are to be effected. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 835,855, 2008 [source] | ||||||||||