Annular Fiber Research Articles

Comments on “On the analysis of a weakly guiding doubly clad dielectric optical fiber with an annular core”

AbstractA discussion of the dispersion relation of the modes guided by an annular core fiber is done in order to prove that the fundamental mode has a zero cutoff. It also gives the inequalities satisfied by the cutoff frequencies of the first lower modes. A relation is established between the propagation constants of two modes with the same radial order but different azimuthal orders. It allows us to precisely set the conditions for these constants to be almost similar. Numerical results are shown to confirm these assertions. © 2003 Wiley Periodicals, Inc. Microwave Opt Technol Lett 38: 249–254, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.11029

Active magnetic bearings for a flywheel peak power buffer for electric vehicles

The performance of electric vehicles may be improved significantly by incorporating a flywheel peak power buffer into the power-train. An annular carbon fibre composite flywheel rim offers a high specific energy capability, although a high rotational speed is necessary for a high stored energy, whilst operation in a vacuum is conducive to a low aerodynamic loss, and necessitates the use of magnetic bearings. The electromagnetic design of such a flywheel system is described, and a dynamic analysis that predicts the free vibration modes and frequencies, is presented. Finally, the magnetic bearing control system is described, and it is shown that the vibration damping capability of the bearings is such that natural vibration frequencies within the flywheel operating speed range can be accommodated, and performance objectives commensurate with operation in a vehicle drive-train can be achieved.

Topological changes of vapor grown carbon fibers during heat treatment

The topological change of the surface of vapor-grown carbon fibers (VGCFs) as a function of heat treatment temperature was observed using FE-SEM, STM and AFM. The morphological change at the micrometre scale from a smooth surface, to a rope-like structure, and to a grain-like structure was closely related with the volume change, especially due to the annular fiber form. The extent to which the micro-domain grows by heat treatment is limited by the diameter of the fiber. The appearance of a Moiré pattern provided evidence for the graphitization process from turbostratic to three-dimensional graphite.

Internally staged permeator for gas/vapour separation: effect of pressure drop in annuli of annular hollow fibres

The objective of this communication is to study pressure drop in the annulus of annular-hollow-fibre membranes used in an internally staged permeator (ISP). A new pressure drop equation, known as the annulus-pressure drop model (Lim, 2000) developed from the continuity equation and the momentum balance equations with the consideration of gas compressibility and fibre permeability has been employed in this study. Comparison of the results obtained from the annulus-pressure drop model and the Hagen-Poiseuille equation has been carried out, and pure gas/vapour permeation together with the separation of n-pentane from N 2 stream have been as examples to illustrate the importance of the pressure drop equation developed.

Relative power distribution in an infrared annular core optical fiber

Summary Using scalar field approximation, an analytical investigation has been made of the relative distribution of power in the guiding region of an annular core optical fiber operating in the infrared region of the electromagnetic spectrum. The fiber core is assumed to be made of two concentric circles. Variation of the fractional power in the guiding region is plotted against the dimensionless core parameter. The cases of three lowest azimuthal modal indices have been described. It is found that the lower modes play a major role in the transmission of power.

Sitting with Rotary Continuous Passive MotionBiomechanical Explanation of Health Effects

Sitting with the use of a Rotary Continuous Passive Motion (RCPM) device seemed to be a promising technique for practical use with regard to spinal therapy and prevention.Spinal exercises and stimulation have been widely described to influence intervertebral disc nutrition, general flexibility and muscular health. Minor stimulation of only 1.0-degree cyclic rotation resulted in a remarkable physiological effect, expressed in a smaller amount of shrinkage during 1 hour of sitting compared to the conventional way of sitting.Intervertebral disc height is influenced by small axial rotation, even before facet joint interference. The cylindrical oriented annular fibers are stretched or slacked as a result of twisting, which is most common during daily life ambulation. Such stress-relaxation phenomenon occurs in the lumbar discs due to pelvic stimulation by means of Rotary Continuous Passive Motion, i.a. a motor driven seat pan moving in the horizontal plane.This RCPM response not only affects the intradiscal pressure changes, which are related to in- and outflux of nutrients by osmosis and diffusion, but forms also additional mechanical stiffening of the annulus fibrosis. This information may be of great importance for treatment and prevention of low back pain.

Robust magnetic bearing control using stabilizing dynamical compensators

This paper considers the robust control of an active radial magnetic bearing system, having a homopolar, external rotor topology, which is used to support an annular fiber composite flywheel rim. A first-order dynamical compensator, which uses only position feedback information, is used for control, its design being based on a linearized one-dimensional second-order model which is treated as an interval system in order to cope with parameter uncertainties. Through robust stability analysis, a parameterization of all first-order robustly stabilizing dynamical compensators for the interval system is initially obtained. Then, by appropriate selection of the free parameters in the robust controller, the H/sub 2/ norm of the disturbance-output transfer function is made arbitrarily small over the system parameter intervals, and the H/sub /spl infin// norm of the input-output transfer function is made arbitrarily close to a lower bound. Simulation and experimental results demonstrate both stability and performance robustness of the developed controller.

Construction of a thread coater and use of azocasein release To characterize the sealant coat porosity of fibers coated with latex biocatalytic coatings

A single-stage annular fiber coating method with co-current dry-air drying at 30 degrees C has been developed for multilayer coating of 128 &mgr;m diameter polyester thread (yarn) with latex films as a model for enzyme immobilization and development of a filament biocatalytic filter. Acrylic vinyl acetate polymer coatings were sequentially metered onto the fibers by the combination of a flexible squeegee and a red rubber annulus. The thread coater can operate over a range of 0.07-1.37 m/min thread velocities while delivering a nearly constant and reproducible polymer loading of 30. 8 +/- 1.3 mg/m. A 100% polyester, 278.9 denier thread was precoated with latex to generate an approximately 369 denier sealed filament. The filament was then coated with a latex + sulfanilamide-azocasein mixture and sealed with a polymer top coat. The permeability of the polymer sealant top coat was characterized using entrapped azocasein as a tracer molecule and monitoring the azocasein release upon rehydration of the coated threads. Azocasein release rate decreased with curing time at 30 degrees C until 2 days and was invariant after 2-3 days of curing. A 282 mOsm rehydrating solution was sufficient to suppress increased azocasein release due to top coat blistering. No enhancement in the permeability of the top coat was observed when high molecular weight water soluble polymers (WSPs) were used as fillers. This probably results from the low WSP to latex ratio used (0.05-0.1) and the slow rate of WSP leaching compared to the release of azocasein. A method using 60-120 mesh silica was also developed to study the effect of mechanical abrasion of the coated threads as measured by azocasein release kinetics.

Peripheral focal low signal intensity areas in the degenerated annulus fibrosus on T2-weighted fast spin echo MR images: correlation with macroscopic and microscopic findings in elderly cadavers.

To correlate the peripheral focal low signal intensity areas in the degenerated annulus fibrosus on T2-weighted fast spin echo MR images with the macroscopic and microscopic findings in cadavers derived from elderly subjects. Twenty-eight intervertebral disks (16 lumbar and 12 cervical) derived from four nonembalmed cadavers were examined with T1-weighted spin echo and proton density-weighted and T2-weighted fast spin echo MR imaging. The signal intensities of the annulus fibrosus were evaluated on sagittal MR images and correlated with the findings on corresponding sagittal anatomic sections. The MR imaging-histologic correlation was then studied. Peripheral focal low signal intensity areas and adjacent regions of high signal intensity were found in five lumbar intervertebral disks. Peripheral focal low signal intensity regions consisted of disorganized compact annular fibers, tiny fissures, and dense fibrosis. The high signal intensity regions, adjacent to the areas of low signal intensity, consisted of mucoid degeneration, tiny fissures, and chondroid metaplasia. Awareness of the histologic findings in regions that reveal peripheral focal low signal intensity with adjacent regions of high signal intensity in the degenerated annulus fibrosus on T2-weighted images may facilitate effective interpretation of clinical MR images of the spine.

Lumbar intradiscal pressure measured in the anterior and posterolateral annular regions during asymmetrical loading

Objective. To analyze the effect of asymmetrical loading on intradiscal pressure. Design. Human cadaveric lumbar spines were instrumented with multiple pressure sensors and subjected to external mechanical loads. Background. Tears and radial fissures in the posterolateral annulus with no evidence of annular protrusion or nuclear extrusion are frequently observed in non-degenerated intervertebral discs. Cadaveric studies have shown that asymmetrical loads lead to posterolateral herniation. Regional overload may be responsible for a progressive structural weakness of the posterolateral annular fibres. Methods. Three needles each equipped with three independent pressure sensors were inserted in the midplane of the L 3 L 4 intervertebral disc ( n = 16) in the anterior, right posterolateral and left posterolateral regions. Axial rotation was applied in the upright, flexed and extended positions and the pressures recorded. Results. The largest intradiscal pressure increase was observed in the posterolateral inner annular regions, more so in flexion than extension, when combined with axial rotation. Significant centripetal pressure gradients were found only in the posterolateral needles during the upright and flexed positions. Conclusions. When applying compression and axial rotation, the posterolateral inner annular zones of the intervertebral disc show high stress peaks and centripetal pressure gradients. Asymmetrical loads (rotation) combined with postural changes in the sagittal plane increase these effects, and may be responsible for a chronic mechanical overload of these regions.

Intervertebral disc distraction with a laparoscopic anterior spinal fusion system.

The BAK spinal fusion system has been applied to laparoscopic anterior lumbar interbody fusion. The system, consisting of a pair of cylindrical implants with threads, placed symmetrically about the sagittal plane, functions by tensioning the annulus fibrosis. Cylindrical plugs of increasing size are inserted prior to the implant placement. As the procedure may affect spinal posture and disc height, we measured changes due to incremental plug insertion using human cadaveric spine specimens (L5-S1, n = 4). Multi-directional flexibility of the construct was also measured as a function of plug size. The disc height change was found to increase initially and then to level off at 13-mm diameter plugs. In the sagittal plane, the intervertebral posture first shifted towards kyphotic then came back to the initial lordotic posture with plugs of bigger size. However, changes in disc height and spine posture were not statistically significant. Comparing the neutral zone (NZ) flexibility after inserting the plugs to the intact values, neither the flexion/extension nor the axial rotation NZ showed any significant change. In lateral bending, the NZ decreased after the insertion of 13-mm plugs (p < 0.05). Insertion of plugs of increasing size from 9 mm to 12 mm decreased the range of motion (ROM) in all directions (p < 0.05). Insertion of 13-mm and 14-mm plugs decreased the flexion/extension and lateral bending ROM, but not the axial rotation ROM, probably indicating some injury to the annulus fibers.

Epidemiology, etiology, diagnostic evaluation, and treatment of low back pain.

Low-income populations have a lower prevalence of low back pain than high-income populations. Pathologic processes affecting the intervertebral disc are affected by genetic factors and degeneration of annular fibers. Historical and physical findings are not helpful in identifying damaged tissues in patients with nonspecific low back pain. Agency for Health Care Policy and Research guidelines for plain radiographs in the evaluation of low back pain are too sensitive and expose patients unnecessarily to ionizing radiation. Clinical entities reviewed in the literature include septic sacroiliitis, prognosis of metastatic spinal tumors, and low back pain in health care professionals. Epidural corticosteroid injections are useful for leg pain and sensory deficits early in the course of sciatica secondary to a herniated nucleus pulposus. Poor nutritional state increases the risk for postoperative infections for spinal fusion patients.

Cupid's bow contour of the vertebral body: evaluation of pathogenesis with bone densitometry and imaging-histopathologic correlation.

To investigate the Cupid's bow contour by means of bone densitometry and imaging-histopathologic correlation. Radiographs and histologic slices were obtained in 64 cadaveric thoracolumbar spines to assess the morphology, distribution, and histopathologic features of the Cupid's bow contour. Dual-energy x-ray absorptiometry and radiography were performed in the lumbar spine in 406 healthy subjects. Bone density and body height and weight were then related to the presence of the Cupid's bow contour. The Cupid's bow contour was compared with the fish vertebra of osteoporosis and Schmorl node. No clinically important relationship was found between lumbar bone density, body height and weight, and prevalence of the Cupid's bow contour. Histologic examination showed thickened bone in the Cupid's bow end plate with annular fibers inserting into this region. In cadavers, the Cupid's bow contour occurred at multiple lumbar and thoracic levels, with the highest frequency in the lower lumbar spine. Lateral radiographs enabled better detection of the contour change. The Cupid's bow deformity is a developmental phenomenon that is unrelated to osteopenia or mechanical stress on the spine.

Tensile properties of the annulus fibrosus

Part I of this study showed that collagen fibres do need not need to be continuous to reinforce the annulus fibrosus, and that 15-mm-wide samples of annulus retain about 44% of their in situ stiffness and strength when stretched vertically. Part II investigated the ultimate tensile strength (UTS) and fatigue life of such samples. Vertical slices, 5 mm thick and 30 mm wide, were cut from the anterior and posterior margins of the annulus and adjacent vertebral bodies. Each slice was divided sagittally to obtain a matched pair of specimens. The bony ends of each specimen were secured in a materials testing machine so that the annulus could be stretched vertically, as occurs during bending movements of the spine in life. One of each pair of specimens was stretched to failure to obtain its UTS; the other was cyclically loaded at some fraction of the UTS until failure occurred. Tensile failure started with the hyaline cartilage end-plate being stripped off the underlying bone and ended with the most peripheral annular fibres pulling out of the matrix. The estimated in situ strength in the vertical direction was 3.9 MPa for the anterior annulus and 8.6 MPa for the posterior annulus. Fatigue failure could occur in less than 10000 cycles if the tensile force exceeded 45% of the UTS. The results explain why radial fissures often fail to penetrate the peripheral annulus. When compared with in vivo measurements of spinal loading, they suggest that repetitive forward bending movements could cause fatigue failure of the posterior annulus.

高年令者の腰椎椎間板ヘルニアの病理組織所見

We clinicopathologically examined the lumbar intervertebral herniated discs in patients aged over 50 years and compared them to young adults ranging in age from 20 to 40 years. Meterials were 14 lumbar intervertebral herniated discs in the aged, who were treated with combined lumbar spinal canal stenosis. When surgery was performed, the herniated disc was resected with the annular fiber including both edges of the posterior vertebral body in a block. Samples were then evaluated histo-pathologically. Herniated discs in the elderly revealed both fresh and old histological reactions. The fresh histological reactions, suggesting present disc herniation, included inflammatory infiltration and capillary proliferation of the rupture site of the annular fiber and posterior longitudinal ligament and around the herniated nucleus pulposus. The old histological reaction, which suggested past disc herniation, did not show any inflammatory reaction and often contained hyalinized fibrous tissue around the herniated nucleus pulposus. Based on the accumulation of lumbar intervertebral disc injury, we concluded that disc herniation combined with degenerative lumbar spinal canal stenosis occurred in these patients.

Dynamics of human lumbar intervertebral joints. Experimental and finite-element investigations.

To improve our understanding of the dynamic characteristics of the human lumbar spine, both experimental and finite-element methods are required. The experimental methods included measurement of the axial steady state response, resonant frequencies, and damping of seven lumbar motion segments under an upper-body mass of 40 kg. The influence of the presence of posterior elements and different magnitudes of compression preload on the response was also studied. To supplement the measurements, linear and nonlinear, axisymmetric, and three-dimensional finite-element models of a L2-L3 disc-vertebra unit were developed to predict the free and forced-vibration responses. The step and harmonic loadings in the axial direction were considered for the forced-vibration analysis. The effect of the presence of the body mass and compression preloads were also examined. The results of experimental and finite-element studies were in good agreement with each other. They indicated that the system resonant frequencies are reduced considerably with the addition of a body mass of 40 kg and increase significantly (P less than .005) as the compression preload increases. The compliance at both low and resonant frequencies decreases with increasing compression preload. Under preloads of not more than 680 N, removal of the facet joints tends to decrease slightly the segmental resonant frequencies irrespective of the magnitude of compression preload (P less than .1). The finite-element model studies show quasi-static response under harmonic loads with periods much larger than the fundamental period of the segment and under step loads with slow rising times. Under a step load without the body mass, the nucleus pressure varies with both location and time and reaches a maximum of about 2.5 times that under equivalent static load. The addition of a 40-kg mass, in this case, renders a single degree-of-freedom response, with the pressure remaining nearly constant with location inside the nucleus. The stresses and strains throughout the segment in this case increase approximately twofold in comparison with equivalent static values. Partial or complete removal of the disc nucleus considerably decreases the resonant frequency and increases the corresponding segmental response amplitude (ie, compliance). The results indicate that the most vulnerable element under axial vibration loads is the cancellous bone adjacent to the nucleus space. Fatigue fracture of bone as a cumulative trauma and the subsequent loss of nucleus content likely initiates or accelerate the segmental degenerative processes. The annulus fibers do not appear to be vulnerable to rupture when the segment is subjected to pure axial vibration.

Process monitoring of partially reinforced metal-matrix composite components by acoustic emission

Partial reinforcement using a fibre bundle embedded in a part of a component has been investigated in the development of a composite piston for use in an internal combustion engine. A trial piston was fabricated by a casting operation in which molten aluminium was poured into a die containing an annular continuous fibre bundle. The most probable defects introduced during the manufacturing operation are (i) microcracks generated in the fibre bundle due to residual thermal stresses and (ii) imperfect impregnation of the molten aluminium into the fibre bundle. Acoustic emission measurements have been used as a technique to detect the presence of defects in the trial pistons. The acoustic emission was measured during cooling of the trial piston after casting. Microcracking in the fibre bundle during cooling could be detected. Imperfect impregnation of the aluminium into the fibre bundle could also be detected. The acoustic emission due to microcracking was found to be strongly dependent on the mechanical properties of the fibres, while the acoustic emission from incomplete impregnation was found to depend on process conditions. It is believed that acoustic emission measurements can not only be used for the detection of microcracks but can also be of value in the selection of fibre materials and in the adjustment of the process conditions.

Low back pain

During the past year, investigations involving the etiology, diagnostic evaluation, and therapy of low back pain have reported interesting new data. The natural history of degenerative intervertebral disk disease may be explained by peripheral annular fiber injury that results in damage to the nucleus pulposus. Diurnal changes in patient clinical symptoms and signs may have a correlate in alteration of spinal mechanics that occurs during the course of a day. The diagnostic evaluation of low back pain continues to be revolutionized by magnetic resonance imaging. Although magnetic resonance imaging is able to detect specific lesions with greater sensitivity than other radiographic techniques, correlation between clinical symptoms and signs and anatomic abnormalities is essential for correct diagnosis. Therapeutic controversies continue concerning the efficacy of chiropractic intervention and transcutaneous electric nerve stimulation for low back pain patients. Microsurgical techniques for disk removal may prove to be associated with less morbidity than diskectomy with laminectomy, but require additional study.

Diurnal Changes in Straight Leg Raising

Diurnal changes in straight leg raising were measured in 28 patients with criteria of lower lumbar disc protrusion, having first established an acceptable intra-observer repeatability using an oil-filled precision goniometer. Eight patients showed little change between the straight leg raising after a night of recumbancy, and after 180 minutes in the upright posture. Twenty patients, however, had 10 or more degrees of improvement in straight leg raising, with a mean improvement of 16.9 degrees (SD 7.1 degrees); most of the increase occurred in the first hour of being upright. The measurement returned again to the base level after 120 minutes of further recumbancy. Five of the eight patients who showed little diurnal change had discectomy, and four had a complete annular tear. Only one of the 20 patients with more than 10 degrees of diurnal change required surgery. Diurnal change in straight leg raising is probably related to the disc's proteoglycan content, its hydration, the tension of the protrusion and the presence of intact peripheral annular fibers.

The vascularization of the intervertebral disks of the adult dog

The (mainly lumbar) intervertebral discs of 21 recently euthanatized dogs (aged 3 days to 14 years) were examined grossly, under the dissection microscope and by light microscopy. The findings of the adult animals and the salient differences from the younger ones are reported. A few capillaries were observed in the outer 2-4 layers of the anulus fibrosus; these arose from segmental arteries that lay directly on the intervertebral discs. The principal supply of all intervertebral discs occurs by diffusion emanating from capillary loops. These are visible at 10-30 times enlargement in both unstained and benzidine stained preparations. They pass through the end plate of the vertebral body to where the bone gives way to the softer tissue of the disc. The capillary loops have wider lumina and are more numerous opposite the nucleus pulposus and in the adjacent perinuclear zone than more peripherally where the annular fibers attach to the bone.