Your search keyword '"RADIUS (Geometry)"' showing total 5 results

1. Distal radius geometry and skeletal strength indices after peripubertal artistic gymnastics

Author

J. N. Dowthwaite and Tamara A. Scerpella

Subjects

Bone density, Adolescent, Gymnastics, Endocrinology, Diabetes and Metabolism, Osteoporosis, Geometry, Metaphysis, medicine.disease_cause, Article, Weight-bearing, law.invention, Intramedullary rod, Weight-Bearing, Young Adult, law, Bone Density, medicine, Humans, Quantitative computed tomography, medicine.diagnostic_test, business.industry, Puberty, medicine.disease, Skeleton (computer programming), Diaphysis, Radius, medicine.anatomical_structure, Case-Control Studies, Female, Diaphyses, business, Tomography, X-Ray Computed, human activities

Abstract

Development of optimal skeletal strength should decrease adult bone fragility. Nongymnasts (NON): were compared with girls exposed to gymnastics during growth (EX/GYM: ), using peripheral quantitative computed tomography (pQCT) to evaluate postmenarcheal bone geometry, density, and strength. Pre- and perimenarcheal gymnastic loading yields advantages in indices of postmenarcheal bone geometry and skeletal strength.Two prior studies using pQCT have reported bone density and size advantages in Tanner I/II gymnasts, but none describe gymnasts' bone properties later in adolescence. The current study used pQCT to evaluate whether girls exposed to gymnastics during late childhood growth and perimenarcheal growth exhibited greater indices of distal radius geometry, density, and skeletal strength.Postmenarcheal subjects underwent 4% and 33% distal radius pQCT scans, yielding: 1) vBMD and cross-sectional areas (CSA) (total bone, compartments); 2) polar strength-strain index; 3) index of structural strength in axial compression. Output was compared for EX/GYM: vs. NON: , adjusting for gynecological age and stature (maturity and body size), reporting means, standard errors, and significance.Sixteen postmenarcheal EX/GYM: (age 16.7 years; gynecological age 3.4 years) and 13 NON: (age 16.2 years; gynecological age 3.6 years) were evaluated. At both diaphysis and metaphysis, EX/GYM: exhibited greater CSA and bone strength indices than NON; EX/GYM: exhibited 79% larger intramedullary CSA than NON: (p 0.05). EX/GYM: had significantly higher 4% trabecular vBMD; differences were not detected for 4% total vBMD and 33% cortical vBMD.Following pre-/perimenarcheal gymnastic exposure, relative to nongymnasts, postmenarcheal EX/GYM: demonstrated greater indices of distal radius geometry and skeletal strength (metaphysis and diaphysis) with greater metaphyseal trabecular vBMD; larger intramedullary cavity size was particularly striking.

Published

2009

2. Monte Carlo Simulation Studies of Collimator Parameters for TARLA Bremsstrahlung Facility

Author

Zehra Nur Kuluöztürk, Iskender Akkurt, Nilgün Demir, Uludağ Üniversitesi/Fen-Edebiyat Fakültesi/Fizik Bölümü., Demir, N., and AAH-3156-2021

Subjects

Monte Carlo method, Secondary particles, Geometry, Conical geometry, General Physics and Astronomy, Photoneutrons, Transition Density, Nucleus, Gaussian beams, Radiation laboratory, 030218 nuclear medicine & medical imaging, law.invention, Nuclear physics, 03 medical and health sciences, 0302 clinical medicine, law, Intelligent systems, Photon-scattering, Photon collimators, Physics, Photons, Monte Carlo codes, Bremsstrahlung, Monte Carlo methods, Collimator, Physics, multidisciplinary, Photon fluence, Photon beams, 030220 oncology & carcinogenesis, Accelerated electron beam

Abstract

Bu çalışma, 19-24 Ekim 2016 tarihleri arasında Antalya[Türkiye]’da düzenlenen 3. International Conference on Computational and Experimental Science and Engineering (ICCESEN)’da bildiri olarak sunulmuştur. In this work, calculations of the design of bremsstrahlung photon collimator within the scope of the Turkish Accelerator Center Project are presented. At TARLA facility (Turkish Accelerator Radiation Laboratory at Ankara), bremsstrahlung photons created by the accelerated electron beams, are transferred to the experimental area through the collimator, which has a conical geometry with length of 320 cm. In this study, Al, Fe and Cu materials were selected as collimator materials. All interactions between the collimator materials and Gaussian photon beam in 8-32 MeV energy range (8 MeV, 16 MeV, 24 MeV and 32 MeV) were taken into account. The entry radius, geometry and chosen materials are important parameters for collimator design. The photon fluence from collimator, secondary particle distributions and the number of photons, scattered from the collimator, were calculated as functions of these parameters. All calculations were made with the Monte Carlo code FLUKA. According to the results of these simulations, collimator with conical geometry, made of aluminium, with 0.25 cm entry radius, was determined to be appropriate for TARLA bremsstarhlung photon facility of Turkish Accelerator Center. Türkiye Devlet Planlama Teşkilatı DPT2006K-120470 Süleyman Demirel Üniversitesi 3407-D2-12

Published

2017

3. Influence of asymmetrical drawing radius deviation in micro deep drawing

Author

Ming Yang, Lukas Heinrich, Hiroyuki Kobayashi, Tetsuhide Shimizu, and Frank Vollertsen

Subjects

History, Engineering drawing, Offset (computer science), Materials science, Forming processes, Geometry, Radius, Blank, Displacement (vector), Finite element method, Computer Science Applications, Education, Macroscopic scale, Deep drawing

Abstract

Nowadays, an increasing demand for small metal parts in electronic and automotive industries can be observed. Deep drawing is a well-suited technology for the production of such parts due to its excellent qualities for mass production. However, the downscaling of the forming process leads to new challenges in tooling and process design, such as high relative deviation of tool geometry or blank displacement compared to the macro scale. FEM simulation has been a widely-used tool to investigate the influence of symmetrical process deviations as for instance a global variance of the drawing radius. This study shows a different approach that allows to determine the impact of asymmetrical process deviations on micro deep drawing. In this particular case the impact of an asymmetrical drawing radius deviation and blank displacement on cup geometry deviation was investigated for different drawing ratios by experiments and FEM simulation. It was found that both variations result in an increasing cup height deviation. Nevertheless, with increasing drawing ratio a constant drawing radius deviation has an increasing impact, while blank displacement results in a decreasing offset of the cups geometry. This is explained by different mechanisms that result in an uneven cup geometry. While blank displacement leads to material surplus on one side of the cup, an unsymmetrical radius deviation on the other hand generates uneven stretching of the cups wall. This is intensified for higher drawing ratios. It can be concluded that the effect of uneven radius geometry proves to be of major importance for the production of accurately shaped micro cups and cannot be compensated by intentional blank displacement.

Published

2017

4. Forearm bone geometry and mineral content in UK women of European and South-Asian origin

Author

Terence W O'Neill, A. J. Silman, D.K. Roy, Jacqueline L. Berry, Caroline Swarbrick, Kate A Ward, Judith E. Adams, and Stephen R Pye

Subjects

Peak bone mass, Adult, Histology, Asia, Bone density, Medullary cavity, Adolescent, Physiology, Endocrinology, Diabetes and Metabolism, Population, Geometry, Bone and Bones, Bone Density, medicine, Vitamin D and neurology, Ethnicity, Body Size, Humans, Quantitative computed tomography, education, Calcifediol, Bone mineral, education.field_of_study, medicine.diagnostic_test, business.industry, Anthropometry, United Kingdom, Europe, Forearm, Cross-Sectional Studies, Parathyroid Hormone, Calcium, Female, business

Abstract

Ethnic variation in areal bone mineral density (BMD) has been well documented. Such variation may, however, reflects differences in bone geometry rather than volumetric BMD (vBMD). The aim of the study was to compare bone geometry, mineral content (BMC) and vBMD in two ethnic groups, and study the influence of body size, physical activity, reproductive variables, 25 hydroxy-vitamin D (25(OH)D) and parathormone (PTH) status on any observed differences. The data were from a population-based, cross-sectional survey of peak bone mass in South Asian and European women, the population consisted 230 pre-menopausal South Asian (n=118, mean age 28.6+/-4.6 years) and European (n=112, mean age 30+/-4.3 years) women of UK origin. Women who participated completed an interviewer assisted questionnaire, had blood taken for assessment of 25(OH)D and PTH and had measurements of their distal (4%) and diaphyseal (50%) radius geometry, BMC and vBMD using peripheral quantitative computed tomography. At the 50% radius, South Asians had lower vBMD (p

Published

2006

5. Measuring shear-induced self-diffusion in a counterrotating geometry

Author

Maarten Bosscher, J. Mellema, Dirk van den Ende, Victor Breedveld, R.J.J. Jongschaap, Faculty of Science and Technology, and Physics of Complex Fluids

Subjects

Physics::Fluid Dynamics, Shear rate, Velocity gradient, METIS-128977, Volume fraction, Particle-laden flows, Geometry, Hard spheres, Vorticity, IR-73613, Magnetosphere particle motion, Mathematics, Dimensionless quantity

Abstract

The novel correlation method to measure shear-induced self-diffusion in concentrated suspensions of noncolloidal hard spheres which we developed recently [J. Fluid Mech. 375, 297 (1998)] has been applied in a dedicated counterrotating geometry. The counterrotating nature of the setup enables experiments over a wider range of well-controlled dimensionless time (gamma;Deltat in the range 0.03-3.5, compared to 0.05-0.6 in previous experiments; here gamma; denotes the shear rate and Deltat the correlation time). The accessible range of timescales made it possible to study the nature of the particle motion in a more detailed way. The wide radius geometry provides a well-defined flow field and was designed such that there is optical access from different directions. As a result, shear-induced self-diffusion coefficients could be determined as a function of particle volume fraction straight phi (0.20-0.50) in both the vorticity and velocity gradient direction. A transition could be observed to occur for gamma;Deltat of O(1), above which the particle motion is diffusive. The corresponding self-diffusion coefficients do not increase monotonically with particle volume fraction, as has been suggested by numerical calculations and theoretical modeling of Brady and Morris [J. Fluid Mech. 348, 103 (1997)]. After an exponential growth up to straight phi=0.35, the diffusion coefficients level off. The experiments even suggest the existence of a maximum around straight phi=0.40. The results are in good agreement with experimental literature data of Phan and Leighton [J. Fluid Mech. (submitted)], although these measurements were performed for much larger values of the dimensionless time gamma;Deltat.

Published

2001