• Title/Summary/Keyword: Screw motion

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The Change of Biomechanical Milieu after Removal of mstnnnentation in lrunbar Arthrodesis Stiffness of fusion Mass: Finite Element Analysis (척추 유합술 후, 인접 분절의 스트레스에 대한 척추경 나사못에 대한 영향)

  • Kang, Kyoung-Tak;Chun, Heoung-Jae;Son, Ju-Hyun;Kim, Ho-Joong
    • Proceedings of the KSME Conference
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    • 2008.11a
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    • pp.664-667
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    • 2008
  • Since the advent of pedicle screw fixation system, posterior spinal fusion has markedly increased This intemal fixation system has been reported to enhance the fusion rates, thereby becoming very popular procedure in posterior spinal arthrodesis. Although some previous studies have shown the complications of spinal instruments removal, i.e. loss of correction and spinal collapse in scoliosis or long spine fusion patients, there has been no study describing the benefit or complications in lumbar spinal fusion surgery of one or two level. In order to clarify the effect of removal of instruments on mechanical motion profile, we simulated a finite element model of instrumented posterolateral fused lumbar spine model, and investigated the change of mechanical motion profiles after the removal of instrumentation.

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Arteriovenous Fistula after C1-2 Posterior Transarticular Screw Fixation - Case Report - (환축추체 후방 나사고정술 후 생긴 동정맥루)

  • Lee, Hyuk Gi;Cho, Jae Hoon;Lee, Sung Lak;Kang, Dong Gee;Kim, Sang Chul;Kim, Yong Sun
    • Journal of Korean Neurosurgical Society
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    • v.29 no.2
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    • pp.280-285
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    • 2000
  • Posterior transarticular screw fixation for atlantoaxial instability due to trauma or rheumatoid arthritis provides immediate rigid fixation of the C1-2 vertebral segment while preserving motion between the occiput and C1. This technique provides more resistance to translational and rotational forces than wiring technique. However, the technique of transarticular screw fixation is inherently demanding because of the complex anatomy of the occipitocervical region and vertebral artery(VA) at risk for arterial damage. VA injury may lead to serious subsequent neurological deficits and possibly death from bilateral VA injury. We report a case of a vertebral artery-to-epidural venous plexus fistula after posterior transarticular screw fixation which was treated with balloon occlusion.

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Research on the Prediction of Maneuvering Motion for a Twin-Screw Twin-Rudder Ship (2축(軸)2타선(舵船)의 조종운동 추정(推定)에 관한 연구)

  • Lee, Seung Keon;Kim, Yoon Su;Lee, Seung Jae
    • Journal of the Society of Naval Architects of Korea
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    • v.33 no.4
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    • pp.60-65
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    • 1996
  • Mathematical model of maneuvering motion for a single-screw single-rudder ship established and versatile applications to the special situations of maneuvering are attempted. While, the mathematical model for twin-screw twin-rudder ship is not presented so much, because that type of ship is not popular. Lee et al. have examined the characteristics of such ship by captive model tests in 1988. This paper treats new mathematical models for propeller effective wake ($1-w_p$) and effective neutral rudder angle ${\delta}_R$ in the case of twin-screw twin-rudder ship. And some maneuvering motions are calculated with proposed models and compared with exact simulations.

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Development of Simulnation Program of Screw Driving Weft Insertion Mechanism for Rapier Loom (래피어 직기용 스크류 구동 위입기구의 시뮬레이션 프로그램 개발)

  • Kim, Jong-Su;Seong, Baek-Ju
    • 연구논문집
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    • s.30
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    • pp.101-110
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    • 2000
  • Weft insertion mechanism is for completing the structure of yarn and weft yarn and its driving method is screw type. In the high speed rapier loom, weft yarn is thrown by insert rapier and carrier rapier into the shed which make divide two parts of upper part ant lower part for warp yarn. It is possible for this mechannism to reduce the size of rapier and wheel, and directly connected to the main shaft without gear belt. Therefore, exact rapier motion through realization of arbitrary acceleration diagram requested rapier and optimal design for high speedization and operating rate increasing are necessary. In this study, with a view to exact system analysis for understanding of overall trace and high speedization of rapier loom through computer simulation. we report not only deduction of displacement, velocity, and acceleration components of rapier for analysis theory establishment, of weft insertion mechanism and exact motion induction according to screw rotation, but also development of simulation program for realization these on the monitor.

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Finite element analysis for dynamic behavior of a machine tool structure fed in open loop control (개루프제어로 이송되는 공작기계 구조물의 동적 거동을 위한 유한 요소 해석)

  • Choi, Jin-Woo;Lee, Tae-Hong
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.19 no.5
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    • pp.596-602
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    • 2010
  • In this study, a fmite element model was developed for analysis of feeding a structure in open loop control The finite element analysis (FEA) can simulate dynamic behavior of the structure of a machine tool rapidly traveling with a screw feeding driving system. The feeding mechanism was implemented with screw element of the FEA tool used in this study. The procedure was developed for the dynamic transient FEA. First, motion parameters such as jerk and velocity were introduced for the structure to be fed in open loop control When its traveling distance was determined, set-points for the distance were generated based on the motion parameters. The set-points were applied to the FE model constructed for the traveling structure. The FEA was executed and evaluated. In this study, the FEA procedure was applied to the column of a machine tool and the dynamic behavior of the column was evaluated. The FEA helps in evaluation of the motion characteristics of a structure. The convergence time of the structure vibration posterior to feeding termination can be estimated and the stiffness of the flexible structure is also evaluated against jerk, and acceleration. It provides the feeding force which is helpful in selection of the feeding motor.

The Cutting Tool-workpiece Interference Simulation for Worm Screw Machining by Side Milling (워엄 스크루 가공용 사이드 밀링의 공구 간섭 시뮬레이션)

  • Lee, Min-Hwan;Kim, Sun-Ho;Ahn, Jung-Hwan
    • Journal of the Korean Society for Precision Engineering
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    • v.28 no.1
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    • pp.11-18
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    • 2011
  • A worm screw is widely used in a geared motor unit for motion conversion from rotation to linear. For mass production of a high quality worm, the current rolling process is substituted with the milling process. Since the milling process enables the integration of all operations of worm manufacturing on a CNC(Computer Numerical Control) lathe, productivity can be remarkably improved. In this study, the tooling system for side milling on a CNC lathe to improve machinability is developed. However, the cutting tool-workpiece interference is important factors to be considered for producing high quality worms. For adaptability of various worms machining, the tool-workpiece interference simulation system based on a tool-tip trajectory model is developed. The developed simulation system is verified through several kinds of worms and experimental results.

Vibration Analysis and Active Absorber Design for a Multi-Body System (다물체계의 진동해석 및 능동적 방진설계)

  • 오준환;최용제
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.1503-1507
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    • 2003
  • A general vibration phenomenon of a rigid-body supported by springs can be viewed as a small repetitive screw displacement. From this view, a multi-directional vibration absorber can be designed by use of screw theory and transfer matrix method. In this paper, the basic equations of motion for a multi-body system have been expressed in terms of screws using transfer matrix method and a simple approach to the design of a multi-degrees-of-freedom absorber has been presented. In order to illustrate the methodology, an example for the design of a 2-DOF active absorber which is capable of absorbing vibration of a rigid body excited by 3-DOF external force has been presented.

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The Cutting Tool-workpiece Interference Simulation for Worm Screw Machining by Planetary Milling (워엄 스크루 가공을 위한 플래내터리 밀링의 공구 간섭 시뮬레이션)

  • Lee, Min-Hwan;Kim, Sun-Ho;Ahn, Jung-Hwan
    • Journal of the Korean Society for Precision Engineering
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    • v.26 no.12
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    • pp.47-54
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    • 2009
  • A worm screw is widely used in a geared motor unit for motion conversion from rotation to linear. For mass production of a high quality worm, the current rolling process is substituted with the milling process. Since the milling process enables the integration of all operations of worm manufacturing on a CNC(Computer Numerical Control) lathe, productivity can be remarkably improved. In this study, the tooling system for planetary milling on a CNC lathe to improve machinability is developed. However, the cutting tool-workpiece interference is important factors to be considered for producing high quality worms. For adaptability of various worms machining, the tool-workpiece interference simulation system based on a tool-tip trajectory model is developed. The developed simulation system is verified through several kinds of worms and experimental results.

Influence of glide path on the screw-in effect and torque of nickel-titanium rotary files in simulated resin root canals

  • Ha, Jung-Hong;Park, Sang-Shin
    • Restorative Dentistry and Endodontics
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    • v.37 no.4
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    • pp.215-219
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    • 2012
  • Objectives: The purpose of this study was to investigate the screw-in effect and torque generation depending on the size of glide path during root canal preparation. Materials and Methods: Forty Endo-Training Blocks (REF A 0177, Dentsply Maillefer) were used. They were divided into 4 groups. For groups 1, 2, 3, and 4, the glide path was established with ISO #13 Path File (Dentsply Maillefer), #15 NiTi K-file NITIFLEX (Dentsply Maillefer), modified #16 Path File (equivalent to #18), and #20 NiTi K-file NITIFLEX, respectively. The screw-in force and resultant torque were measured using a custom-made experimental apparatus while canals were instrumented with ProTaper S1 (Dentsply Maillefer) at a constant speed of 300 rpm with an automated pecking motion. A statistical analysis was performed using one-way analysis of variance and the Duncan post hoc comparison test. Results: Group 4 showed lowest screw-in effect ($2.796{\pm}0.134$) among the groups (p < 0.05). Torque was inversely proportional to the glide path of each group. In #20 glide path group, the screw-in effect and torque decreased at the last 1 mm from the apical terminus. However, in the other groups, the decrease of the screw-in effect and torque did not occur in the last 1 mm from the apical terminus. Conclusions: The establishment of a larger glide path before NiTi rotary instrumentation appears to be appropriate for safely shaping the canal. It is recommended to establish #20 glide path with NiTi file when using ProTaper NiTi rotary instruments system safely.