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MULTISCALE MODELING AND ANALYSIS OF FAILURE AND STABILITY DURING SUPERPLASTIC DEFORMATION -- UNDER DIFFERENT LOADING CONDITIONSThuramalla, Naveen 01 January 2004 (has links)
Superplastic forming (SPF) is a valuable near net shape fabrication method, used to produce very complex, contoured and monolithic structures that are often lighter, stronger and safer than the assemblies they replace. However, the widespread industrial use of Superplastic (SP) alloys is hindered by a number of issues including low production rate and limited predictive capabilities of stability during deformation and failure. Failure during SPD may result from geometrical macroscopic instabilities and/or microstructural aspects. However, the available failure criteria are either based on geometrical instabilities or microstructural features and do not account for both failure modes. The present study presents a generalized multi-scale stability criterion for SP materials, accounting for both aspects of failure under various loading conditions. A combined model accounting for cavity nucleation and plasticity controlled cavity growth along with a grain growth model and a modified microstructure based constitutive equation for SP materials is incorporated into Harts stability analysis to develop the proposed stability criterion for different loading conditions. Effects of initial grain size, initial levels of cavitation, nucleation strain, strain-rate sensitivity, and grain-growth exponent on the optimum forming curves of different SP alloys are investigated, for different loading conditions.
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STUDY OF SUPERPLASTIC FORMING PROCESS USING FINITE ELEMENT ANALYSISDeshmukh, Pushkarraj Vasant 01 January 2003 (has links)
Superplastic forming (SPF) is a near net-shape forming process which offers many advantages over conventional forming operations including low forming pressure due to low flow stress, low die cost, greater design flexibility, and the ability to shape hard metals and form complex shapes. However, low production rate due to slow forming process and limited predictive capabilities due to lack of accurate constitutive models for superplastic deformation, are the main obstacles to the widespread use of SPF. Recent advancements in finite element tools have helped in the analysis of complex superplastic forming operations. These tools can be utilized successfully in order to develop optimized superplastic forming techniques. In this work, an optimum variable strain rate scheme developed using a combined micromacro stability criterion is integrated with ABAQUS for the optimization of superplastic forming process. Finite element simulations of superplastic forming of Ti-6Al-4V sheet into a hemisphere and a box are carried out using two different forming approaches. The first approach is based on a constant strain rate scheme. The second one is based on the optimum variable strain rate scheme. It is shown that the forming time can be significantly reduced without compromising the uniformity of thickness distribution when using the proposed optimum approach. Further analysis is carried out to study the effects of strain rate, microstructural evolution and friction on the formed product. Finally the constitutive equations and stability criterion mentioned above are used to analyze the forming of dental implant superstructure, a modern industrial application of superplastic forming.
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抗力最小化・揚力最大化を目的とした定常粘性流れ場の形状最適化AZEGAMI, Hideyuki, NISHIHASHI, Naoshi, KATAMINE, Eiji, 畔上, 秀幸, 西橋, 直志, 片峯, 英次 12 1900 (has links)
No description available.
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サスペンション部品の非線形座屈現象に関する形状最適化の検討AZEGAMI, Hideyuki, ITO, Satoshi, NAGATANI, Takaaki, SHINTANI, Kouhei, 畔上, 秀幸, 伊藤, 聡, 長谷, 高明, 新谷, 浩平 08 1900 (has links)
No description available.
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平均コンプライアンス最小化を目的とした熱弾性場の形状最適化AZEGAMI, Hideyuki, MATSUURA, Kousuke, YOSHIOKA, Hiroki, KATAMINE, Eiji, 畔上, 秀幸, 松浦, 浩佑, 吉岡, 広起, 片峯, 英次 11 1900 (has links)
No description available.
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密度を設計変数に用いた形状適合問題の解法AZEGAMI, Hideyuki, KOKURA, Akihiro, 畦上, 秀幸, 小倉, 章弘 12 1900 (has links)
No description available.
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サスペンション部品の非線形座屈現象に関する形状最適化の検討AZEGAMI, Hideyuki, ITO, Satoshi, NAGATANI, Takaaki, SHINTANI, Kouhei, 畦上, 秀幸, 伊藤, 聡, 長谷, 高明, 新谷, 浩平 12 1900 (has links)
No description available.
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The Genetic Limits to Trait Evolution for a Suite of Sexually Selected Male Cuticular Hydrocarbons in Drosophila SerrataSztepanacz, Jacqueline L.P. 14 November 2011 (has links)
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, suggesting a limit to trait evolution. The genetic basis of evolutionary limits in unmanipulated populations, however, is generally not known. Given widespread pleiotropy, opposing selection on a focal trait may arise from the effects of the underlying alleles on other fitness components, generating net stabilizing selection on trait genetic variance and thus limiting evolution. Here, I look for the signature of stabilizing selection for a suite of cuticular hydrocarbons (CHCs) in Drosophila serrata. Despite strong directional sexual selection on CHCs, genetic variance differed between high and low fitness individuals and was greater among the low fitness males for seven of eight CHCs. Univariate tests of a difference in genetic variance were non-significant but have low power. My results implicate stabilizing selection, arising through pleiotropy, in generating a genetic limit to the evolution of CHCs in this species.
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Symbol Synchronization For Msk Signals Based On Matched FilteringSezginer, Serdar 01 January 2003 (has links) (PDF)
In this thesis, symbol timing recovery in MSK signals is investigated making use
of matched filtering. A decision-directed symbol synchronizer cascaded with an
MLSE receiver is proposed for fine timing. Correlation (matched filter) method is
used to recover the timing epoch from the tentative decisions obtained from the
Viterbi algorithm. The fractional delays are acquired using interpolation and an
iterative maximum search process. In order to investigate the tracking
performance of the proposed symbol synchronizer, a study is carried out on three
possible optimum timing phase criteria: (i) Mazo criterion, (ii) the minimum
squared ISI criterion (msISI), and (iii) the minimum BER criterion. Moreover, a
discussion is given about the timing sensitivity of the MLSE receiver. The
performance of the symbol synchronizer is assessed by computer simulations. It is
observed that the proposed synchronizer tracks the variations of the channels
almost the same as the msISI criterion. The proposed method eliminates the cycle
slips very succesfully and is robust to frequency-selective multipath fading
channel conditions even in moderate signal-to-noise ratios.
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Performance Of Rectangular Fins On A Vertical Base In Free Convection Heat TransferYazicioglu, Burak 01 January 2005 (has links) (PDF)
The steady-state natural convection heat transfer from vertical rectangular fins extending perpendicularly from vertical rectangular base was investigated experimentally. The effects of geometric parameters and base-to-ambient temperature difference on the heat transfer performance of fin arrays were observed and the optimum fin separation values were determined.
Two similar experimental set-ups were employed during experiments in order to take measurements from 30 different fin configurations having fin lengths of 250 mm and 340 mm. Fin thickness was maintained fixed at 3 mm. Fin height and fin spacing were varied from 5 mm to 25 mm and 5.75 mm to 85.5 mm, respectively. 5 heat inputs ranging from 25 W to 125 W were supplied for all fin configurations, and hence, the base and the ambient temperatures were measured in order to evaluate the heat transfer rate from fin arrays.
The results of experiments have shown that the convection heat transfer rate from fin arrays depends on all geometric parameters and base-to-ambient temperature difference. The effect of these parameters on optimum fin spacing was also examined, and it was realized that for a given base-to-ambient temperature difference, an optimum fin spacing value which maximizes the convective heat transfer rate from the fin array is available for every fin height. The results indicated that the optimum fin spacings are between 8.8 mm and 14.7 mm, for the fin arrays employed in this work.
Using the experimental results of present study and experimental results in available literature [2,3,9,10,11,12,14], a correlation for optimum fin spacing at a given fin length and base-to-ambient temperature difference was obtained as a result of scale analysis.
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