Kwon Hee Kim scite author profile

This study provides preliminary evidence that learning-based rehabilitation strategies targeting disease-specific locomotion symptoms may be helpful for reducing ataxic gait and improving motor control during walking in patients with cerebellar dysfunction. Implications for rehabilitation Physiotherapeutic interventions that aim to promote gait stability in cerebellar patients need to create a specific learning context that improve disease-related gait deficits. It is desirable to use explicit instructions to facilitate the conscious awareness and control of body center and posture. As patients reacquire the fundamental gait ability, providing training experience with various locomotor tasks that facilitate the transfer of learning may be helpful to increase generalizability of locomotor intervention.

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An Optimal Cure Process to Minimize Residual Void and Optical Birefringence for a LED Silicone Encapsulant

Song

Kim

Yoon

et al. 2014

Materials

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Silicone resin has recently attracted great attention as a high-power Light Emitting Diode (LED) encapsulant material due to its good thermal stability and optical properties. In general, the abrupt curing reaction of the silicone resin for the LED encapsulant during the curing process induces reduction in the mechanical and optical properties of the LED product due to the generation of residual void and moisture, birefringence, and residual stress in the final formation. In order to prevent such an abrupt curing reaction, the reduction of residual void and birefringence of the silicone resin was observed through experimentation by introducing the multi-step cure processes, while the residual stress was calculated by conducting finite element analysis that coupled the heat of cure reaction and cure shrinkage. The results of experiment and analysis showed that it was during the three-step curing process that the residual void, birefringence, and residual stress reduced the most in similar tendency. Through such experimentation and finite element analysis, the study was able to confirm that the optimization of the LED encapsulant packaging process was possible.

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Search for a new design of deburring tools for intersecting holes with TRIZ

Cho

Chae

Kim

2013

Int J Adv Manuf Technol

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Biomechanical Effect of Altered Lumbar Lordosis on Intervertebral Lumbar Joints During the Golf Swing: A Simulation Study

Bae

Cho

Kim

et al. 2014

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Although the lumbar spine region is the most common site of injury in golfers, little research has been done on intervertebral loads in relation to the anatomical-morphological differences in the region. This study aimed to examine the biomechanical effects of anatomical-morphological differences in the lumbar lordosis on the lumbar spinal joints during a golf swing. The golf swing motions of ten professional golfers were analyzed. Using a subject-specific 3D musculoskeletal system model, inverse dynamic analyses were performed to compare the intervertebral load, the load on the lumbar spine, and the load in each swing phase. In the intervertebral load, the value was the highest at the L5-S1 and gradually decreased toward the T12. In each lumbar spine model, the load value was the greatest on the kypholordosis (KPL) followed by normal lordosis (NRL), hypolordosis (HPL), and excessive lordosis (EXL) before the impact phase. However, results after the follow-through (FT) phase were shown in reverse order. Finally, the load in each swing phase was greatest during the FT phase in all the lumbar spine models. The findings can be utilized in the training and rehabilitation of golfers to help reduce the risk of injury by considering individual anatomical-morphological characteristics.

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Simulation-Based Optimization of Cure Cycle of Large Area Compression Molding for LED Silicone Lens

Song

Kim

Hong

et al. 2015

Advances in Materials Science and Engineering

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Three-dimensional heat transfer-curing simulation was performed for the curing process by introducing a large area compression molding for simultaneous forming and mass production for the lens and encapsulants in the LED molding process. A dynamic cure kinetics model for the silicone resin was adopted and cure model and analysis result were validated and compared through a temperature measurement experiment for cylinder geometry with cure model. The temperature deviation between each lens cavity could be reduced by implementing a simulation model on the large area compression mold and by optimizing the location of heat source. A two-step cure cycle was constructed to reduce excessive reaction peak at the initial stage and cycle time. An optimum cure cycle that could reduce cycle time by more than 29% compared to a one-step cure cycle by adjusting dwell temperature, heating rate, and dwell time was proposed. It was thus confirmed that an optimization of large area LED lens molding process was possible by using the present experiment and the finite element method.

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Kwon Hee Kim

The effect of a task-specific locomotor training strategy on gait stability in patients with cerebellar disease: a feasibility study

An Optimal Cure Process to Minimize Residual Void and Optical Birefringence for a LED Silicone Encapsulant

Search for a new design of deburring tools for intersecting holes with TRIZ

Biomechanical Effect of Altered Lumbar Lordosis on Intervertebral Lumbar Joints During the Golf Swing: A Simulation Study

Simulation-Based Optimization of Cure Cycle of Large Area Compression Molding for LED Silicone Lens

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