Use of Fiber Reinforced Polymer Composite Cable for Post-tensioning Application

Yang, Xiong

13 November 2015

Corrosion of steel tendons is a major problem for post-tensioned concrete, especially because corrosion of the steel strands is often hard to detect inside grouted ducts. Non-metallic tendons can serve as an alternative material to steel for post-tensioning applications. Carbon fiber reinforced polymer (CFRP), given its higher strength and elastic modulus, as well as excellent durability and fatigue strength, is the most practical option for post-tensioning applications. The primary objective of this research project was to assess the feasibility of the use of innovative carbon fiber reinforced polymer (CFRP) tendons and to develop guidelines for CFRP in post-tensioned bridge applications, including segmental bridges and pier caps. An experimental investigation and a numerical simulation were conducted to compare the performance of a scaled segmental bridge model, post-tensioned with two types of carbon fiber strands and steel strands. The model was tested at different prestress levels and at different loading configurations. While the study confirms feasibility of both types of carbon fiber strands for segmental bridge applications, and their similar serviceability behavior, strands with higher elastic modulus could improve structural performance and minimize displacements beyond service loads. As the second component of the project, a side-by-side comparison of two types of carbon fiber strands against steel strands was conducted in a scaled pier cap model. Two different strand arrangements were used for post-tensioning, with eight and six strands, respectively representing an over-design and a slight under-design relative to the factored demand. The model was tested under service and factored loads. The investigation confirmed the feasibility of using carbon fiber strands in unbonded post-tensioning of pier caps. Considering both serviceability and overload conditions, the general performance of the pier cap model was deemed acceptable using either type of carbon fiber strands and quite comparable to that of steel strands. In another component of this research, creep stress tests were conducted with carbon fiber composite cable (CFCC). The anchorages for all the specimens were prepared using a commercially available expansive grout. Specimens withstood 95% of the guaranteed capacity provided by the manufacturer for a period of five months, without any sign of rupture.

posttensioning

segmental bridge

pier cap

carbon fibers strands

prestressed concrete

creep

anchorage

Civil Engineering

Structural Engineering

Elucidation of TRPC channel regulation mechanism and its contribution to kidney channelopathy． / TRPCチャネル制御機構とその腎臓チャネロパチーに対する関与の解明

Polat, Onur Kerem

25 November 2019

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第22124号 / 工博第4654号 / 新制||工||1726(附属図書館) / 京都大学大学院工学研究科合成・生物化学専攻 / (主査)教授 森 泰生, 教授 跡見 晴幸, 教授 浜地 格 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Molecular Biochemistry

Electrophysiology

Calcium-dependent inactivation

Focal Segmental Glomerulosclerosis

TRPC channels

500

Oxidative Injury in Focal Segmental Glomerulosclerosis

Chan, James

01 February 2008

Background and objective: By reviewing our current understanding of oxidative injury as a cause of focal segmental glomerulosclerosis (FSGS), we hope to advance the use of antioxidants as a promising treatment in addition to the other therapeutic modalities to slow the rate of progression. Methods: Key references from the past concerning oxidative injury and FSGS were analyzed, together with those from a PubMed search of the literature from 1997 to 2007, to form the basis of this commentary. Results: In animal studies in FSGS produced by subtotal nephrectomy or puromycin injections, evidence of oxidant injury provided the rationale for disease reversal with an antioxidant such as high dose vitamin E. Clinical trial in children with FSGS using vitamin E resulted in significant reduction in proteinuria. Other treatment modalities in children with FSGS over the past four decades were reviewed. These consisted of one or more of the following medications: oral prednisone, angiotensin converting enzyme inhibitors, angiotensin receptor blockers, and intravenous methylprednisolone with and without cyclophosphamide or cyclosporine. The prognosis with these recent therapeutic interventions improved the outcome of children with FSGS compared to no treatment as advocated earlier. However, when the current regimen of combined treatment was compared with the regimen of prednisone plus cyclophosphamide, there was no difference in Kaplan-Meier kidney survival rate at a mean follow-up of 12 to 16 years. Conclusion: In reviewing current concepts of oxidant injury and other mechanisms of injury in the development of FSGS and the available modalities of treatment, we call into question, whether the cost and side effects of intravenous methylprednisolone is justifiable on the basis of unchanged kidney survival rates with continuing this particular mode of intervention.

Africa-American

combined therapy

focal segmental glomerulosclerosis

long-term outcome

oxidative injury

The role of giant vacuoles and pores in the endothelium of Schlemm’s canal in regulating segmental aqueous outflow

Swain, David L.

03 February 2022

Primary open-angle glaucoma (POAG) is one of the leading causes of blindness worldwide. The only modifiable risk factor for POAG is elevated intraocular pressure, resulting from increased aqueous humor production or decreased drainage. Resistance to drainage in the aqueous outflow pathway is believed to reside in the juxtacanalicular connective tissue (JCT) and to be modulated by the inner wall (IW) endothelium of Schlemm’s canal (SC); however, the mechanisms that increase resistance in POAG remain unclear. To cross the IW, aqueous humor passes through I-pores on giant vacuoles (GVs) or B-pores between adjacent endothelial cells. Additionally, outflow around the circumference of the eye is segmental, or non-uniform, and fluorescent tracers can be used to label areas of high-flow and non-flow. The morphological differences in the endothelial cells of SC and their GVs in high- vs. non-flow areas have not been fully elucidated. In this project, we investigated the role of GVs and pores in the IW endothelial cells of SC in regulating segmental outflow in human eyes. We used serial block-face scanning electron microscopy to generate thousands of serial images and visualize these structures in 3D at the ultrastructural level. First, we 3D-reconstructed 45 individual IW cells and their GVs and quantified the number of connections each cell makes with the underlying JCT matrix/cells. We found that cells in high-flow areas made significantly fewer connections to JCT matrix/cells compared to cells in non-flow areas. Secondly, we analyzed 3,302 GVs for I-pores and basal openings and found a significantly greater percentage of GVs with both basal openings and I-pores in high-flow area compared to non-flow area, suggesting this type of GVs form a channel through which aqueous humor passes from JCT to SC. We also found that GVs with I-pores were significantly larger than those without I-pores. Our results suggest that decreasing number of cellular connections and increasing number of GVs with pores may be potential strategies to increase the amount of high-flow area and aqueous outflow for glaucoma treatment. Together, these studies add to our understanding of the role of GVs and pores in regulating segmental flow around the eye.

Ophthalmology

Aqueous outflow

Giant vacuoles

Primary open-angle glaucoma

Schlemm's canal

Segmental outflow

Trabecular meshwork

Chord Recognition in Symbolic Music: A Segmental CRF Model, Segment-Level Features, and Comparative Evaluations on Classical and Popular Music

Masada, Kristen S.

13 July 2018

No description available.

Computer Science

Music

Postures for Precision: An Ecological Approach to Marksmanship and the Issue of Warfighter Load.

Palmer, Christopher Jay

01 September 2012

The goal of this dissertation was to understand the issue of load in a more operationally realistic way, while examining underlying segmental relations and postural regulation related to functional capability. The ecological approach provides a foundation for this work, as its approach seeks understanding across nested relations and at the level of the Organism-Environment system. First, a landing task was used to examine transitions from movement to upright stance, evaluating the effects of load on changes relevant to prospective control of action. Greater negative head angles, reductions in the field of regard, and reduced variability in orienting coordination (trunk-head relations) under load all suggest reductions in the postural affordances for visual perception. The heaviest load was not the worst; as the asymmetrically loaded Vest configuration had greater negative effects on postural affordances. This was further supported by the increased power and frequency content in the Center of Pressure dynamics, suggesting much more difficult postural regulation in this configuration. The second study examined the effects of load on dynamic marksmanship performance using large loads on the torso and small loads on the extremities (night vision goggles and extremity armor on the arms) while establishing two different postures determined by target placement. Load and Posture both had negative impacts on the speed-accuracy trade-off, with larger loads affecting gross postural transitions and smaller loads degrading fine-aiming performance. The more challenging posture degraded accuracy on target substantially, suggesting that reorientation of multiple segments may be necessary for assessing the consequences of load on marksmanship performance. Increases in the total coordinative variability of Head-Trunk-Gun relations with load at a high target suggests that increased inertial and interactive forces during movement "push" the system out of the optimal segmental relations. Moreover, the results from Postural-Focal coupling suggest that load "freezes" previously available degrees of freedom, making the system more deterministic and less flexible in goal-directed achievement. The two previous paradigms are joined in the third study to understand perception-action coupling during movement cessation to marksmanship transitions, a ubiquitous task in combat. Increased time to discriminate targets was found with load and was related to peak head velocities and the inability to dissipate energy at the head/eyes under load. Again, Load and Posture had significant effects on the speed-accuracy trade-off, especially at the load most similar to that seen in current missions. Segmental coordination in this effort ballasts the findings in study 2, as significant shifts from optimal Head-Trunk-Gun relations were observed with load as well as increased variability that was detrimental to task performance. This dissertation demonstrates that science can be "Operationalized" in a way that maintains scientific integrity during complex task analysis; providing additional insight into the issue of load across multiple scales of analysis related to functional capability and survivability in combat and others encumbered by load.

Action-Perception Coupling

Segmental Coordination

Survivability

Task Performance

Underlying Dynamics

Kinesiology

Glass Formation Behavior of Model Ionomers

Ruan, Dihui

29 May 2015

No description available.

Polymers

Molecular Physics

Nanoscience

Physics

ionomers

glass

nanocomposites

EHM

Adam-Gibbs

segmental relaxation

dynamics

interface

crosslink

EXPRESSION MICROARRAY ANALYSIS OF RENAL DEVELOPMENT AND HUMAN RENAL DISEASE

SCHWAB, KRISTOPHER R.

January 2006

No description available.

microarray

Wnt signaling

metanephros

kidney development

focal segmental glomerulosclerosis

Hox genes

gene knockout mice

The Intonation of Peruvian Amazonian Spanish: Rising Accents and Segmental Factors

García, Miguel

20 December 2016

No description available.

Linguistics

Language

Latin American Studies

Peruvian Amazonian Spanish

Intonation

Rising Accents

Segmental Anchoring Hypothesis

APPLICATIONS OF HUMAN BONE MATERIALS AND SYNTHESIZED BIOMATERIALS FOR BONE-RELATED TISSUE ENGINEERING

Yu, Qing

January 2016

No description available.

Biomedical Research

Biomedical Engineering

Polymers

Bone tissue engineering

biomaterials

enthesis

segmental bone defects

bone grafts