Your search keyword '"Hwan-Seon Nah"' showing total 34 results

1. Structural Characterization of Structural Insulated Panels(SIP) under Eccentric Axial Loading

Author

Jaeyong Ryoo, Hwan-Seon Nah, Sangbong Kim, Sejung Lee, and Sung-Mo Choi

Subjects

Materials science, business.industry, Parameter analysis, Eccentric, Structural engineering, business, Characterization (materials science)

Published

2018

2. Structural Characterization of Structural Insulated Panels(SIP) under Racking Load

Author

Jaeyong Ryoo, Hwan-Seon Nah, Sung-Mo Choi, Sejung Lee, and Sangbong Kim

Subjects

Materials science, Parameter analysis, business.industry, Structural engineering, business, Racking, Characterization (materials science)

Published

2018

3. Development of a Non-destructive Method to Measure the On-Site Clamping Force of Torque Shear High-Strength Bolts

Author

Hoon Jung, Hwan-Seon Nah, and Hyeon Lee

Subjects

Materials science, Shear (geology), business.industry, Non destructive, Torque, Structural engineering, business, Clamping

Published

2018

4. Evaluate the Clamping Force of Torque-Shear High Strength Bolts

Author

Hwan-Seon Nah and Sung-Mo Choi

Subjects

Materials science, Tension (physics), business.industry, Torque wrench, 020101 civil engineering, 02 engineering and technology, Structural engineering, Clamping, 0201 civil engineering, law.invention, Shear (sheet metal), 020303 mechanical engineering & transports, 0203 mechanical engineering, law, Solid mechanics, Torque, Electricity, Wrench, business, Civil and Structural Engineering

Abstract

A torque shear type high strength bolt is clamped as the pin-tail is broken by a specially designed electric wrench. However, it is uncertain that the tension is properly induced to the shank of a bolt when the pin-tail is removed from the bolt. In order to solve a problem involved in the uncertainty, this study was conducted to develop a method to identify the clamping force of high strength bolts quantitatively. The new method to identify the induced tension suggested in this study is to analyze electric energy applied to high strength bolts until the pin-tails are broken by diverse type of electric torque wrenches. Clamping force was measured and accumulated current data was obtained through various tests. Regression analysis of tension as a function of accumulated currents was conducted with various values of bolt diameter and wrench rpm. The error between the values measured by a tension meter and those estimated by a trial product of a measuring device developed in this study was 4% regardless of different parameter values. The device including algorithms to compute load based on electricity was found reliable enough to be applied to construction sites. The trial product embedded with the algorithms for different bolt diameters and electric wrench types was upgraded through three stages. The method to determine the clamping force of a high strength bolt is deemed reasonable because total energy applied to the clamping force of the bolt is the same as the electric energy accumulated by an electric torque wrench.

Published

2018

5. Analysis of Heat Loss Due to Time Dependent Aging of Insulation Applied to Office Building

Author

Do-Hyung Lee and Hwan-Seon Nah

Subjects

Materials science, Heat losses, Composite material

Published

2017

6. 01.30: Evaluation on clamping load of high strength bolts under ambient environment

Author

Sung-Mo Choi and Hwan-Seon Nah

Subjects

Materials science, business.industry, General Medicine, Structural engineering, business, Clamping

Published

2017

7. Estimation on Clamping Force of High Strength Bolts Considering Temperature Variable of Both Site conditions and Indoor Environments

Author

Hyeon-Ju Lee and Hwan-Seon Nah

Subjects

Shear (sheet metal), Variable (computer science), Materials science, business.industry, Tension (physics), Range (statistics), Torque, Control engineering, Structural engineering, Slip (materials science), Lubricant, business, Clamping

Abstract

The torque shear high strength bolt is clamped normally at the break of pin-tail specified. However, the clamping forces on slip critical connections do not often meet the required tension, as it considerably fluctuates due to torque coefficient dependent on lubricant affected temperature. In this study, the clamping tests of torque shear bolts were conducted independently at indoor conditions and at construction site conditions. During last six years, temperature of candidated site conditions was recorded from to . The indoor temperature condition was ranged from to at each interval. As for site conditions, the clamping force was reached in the range from 159 to 210 kN and the torque value was from 405 to . The range of torque coefficient at indoor conditions was analyzed from 0.126 to 0.158 while tensions were indicated from 179 to 192 kN. The torque coefficient at site conditions was ranged from 0.118 to 0.152. Based on this test, the variable trends of torque coefficient, tension subjected temperature can be taken by statistic regressive analysis. The variable of torque coefficient under the indoor conditions is while it reaches at actual site conditions. When the indoor trends and site conditions is combined, the modified variable of torque coefficient can be expected as . and the modified variable of tension can be determined as .

Published

2015

8. A Study on the Secure Plan of Clamping Force according to the Variation of Torque-Coefficient in Torque-Shear High Strength Bolts

Author

Hwan-Seon Nah, Sung-Mo Choi, and Hyeon-Ju Lee

Subjects

Coupling, Engineering, business.industry, Tension (physics), Mechanical engineering, Clamping, law.invention, law, Torque, Torque sensor, Wrench, business, Damping torque, Friction torque

Abstract

Torque control method and turn of nut method are specified as clamping method of high strength bolts in the steel construction specifications. Quality control of torque coefficient is essential activity because torque control method, which is presently adopted as clamping method in domestic construction sites, is affected by variation of torque coefficient. The clamping of torque shear bolt is based on KS B 2819. It was misunderstood that the tension force of the TS bolt was induced generally at the break of pin-tail specified. However, the clamping forces on slip critical connections do not often meet the intended tension, as it considerably varies due to torque coefficient dependent on the environmental factors and temperature variables despite the break of the pin tail.This study was focused to evaluate the effect of environmental factors and errors of installing bolts during tightening high strength bolts. The environmental parameters were composed of 'wet' condition, 'rust' condition, 'only exposure to air' condition. And the manufacture of trial product was planned to identify the induced force into the bolts. The algorithm for a trial product was composed of the relation between electricity energy taken from torque shear wrench and tension force from hydraulic tension meter.

Published

2014

9. Evaluating long-term relaxation of high strength bolts considering coating on slip faying surface

Author

Hyeon-Ju Lee, Sung-Mo Choi, and Hwan-Seon Nah

Subjects

Materials science, Tension control, Metals and Alloys, Building and Construction, Slip (materials science), engineering.material, Quantitative model, Clamping, Coating, Creep, Bolted joint, Faying surface, engineering, Composite material, Civil and Structural Engineering

Abstract

The initial clamping forces of high strength bolts subjected to different faying surface conditions drop within 500 hours regardless of loading, any other external force or loosening of the nut. This study develops a mathematical model for relaxation confined to creep on a coated faying surface after initial clamping. The quantitative model for estimating relaxation was derived from a regression analysis for the relation between the creep strain of the coated surface and the elapsed time for 744 hours. This study establishes an expected model for estimating the relaxation of bolted joints with diverse coated surfaces. The candidate bolts are dacro-coated tension control bolts, ASTM A490 bolt, and plain tension control bolts. The test parameters were coating thickness, species of coating. As for 96, 128, 168, and 226 μm thick inorganic zinc, when the coating thickness was increased, relaxation after the initial clamping rose to a much higher range from 10% to 18% due to creep of the coating. The amount of relaxation up to 7 days exceeded 85% of the entire relaxation. From this result, the equation for creep strain can be derived from a statistical regression analysis. Based on the acquired creep behavior, it is expected that the clamping force reflecting relaxation after the elapse of constant time can be calculated from the initial clamping force. The manufacturer's recommendation of inorganic zinc on faying surface as 75 μm, appears to be reasonable.

Published

2014

10. Stochastic Estimation of Acoustic Impedance of Glass-Reinforced Epoxy Coating

Author

Hwan-Seon Nah and Nohyu Kim

Subjects

Materials science, Moisture, Ultrasonic testing, Epoxy, Acoustic wave, engineering.material, Accelerated aging, Coating, visual_art, visual_art.visual_art_medium, engineering, Waveform, Composite material, Acoustic impedance

Abstract

An epoxy coating applied to the concrete surface of a containment building deteriorates in hazardous environments such as those containing radiation, heat, and moisture. Unlike metals, the epoxy coating on a concrete liner absorbs and discharges moisture during the degradations process, so it has a different density and volume during service. In this study, acoustic impedance was adopted for characterizing the degradation of a glass-reinforced epoxy coating using the acoustic reflection coefficient (reflectance) on a rough epoxy coating. For estimating the acoustic reflectance on a wavy epoxy coating surface, a probabilistic model was developed to represent the multiple irregular reflections of the acoustic wave from the wavy surface on the basis of the simulated annealing technique. A number of epoxy-coated concrete specimens were prepared and exposed to accelerated aging conditions to induce an artificial aging degradation in them. The acoustic impedance of the degraded epoxy coating was estimated successfully by minimizing the error between a waveform calculated from the mathematical model and a waveform measured from the surface of the rough coating.

Published

2014

11. Evaluation on Total Energy Consumption of Low-Energy House with Structural Insulated Panels

Author

Hwan-Seon Nah, Hye-Jin Jo, Hyeon-Ju Lee, and Sung-Mo Choi

Subjects

Consumption (economics), Engineering, Range (particle radiation), business.industry, Dynamic energy, Environmental engineering, Structural engineering, Energy consumption, Total energy, Energy simulation, business, Low-energy house, Energy (signal processing)

Abstract

This project is mainly related to evaluation of total energy consumption of low energy house, the exterior envelope of which was wholly composed of structural insulated panels(SIP). The U-value of applied SIP was in the range of 0.189 to 0.269W/ K and the U-value of pair glass from 0.78 to 1.298W/ K was applied for window ㎡· ㎡· dependent to its function respectively. For comparison of total energy performance, the energy simulation for pilot house was performed to compare with the control house having insulation criteria of Korean building regulation in 2009. Based on simulation of dynamic energy performance, the pilot house saved 48.3% of annual energy consumption while the control house in 2009 consumed as 85.7GJ/y. In case of heating, the result showed that the energy saving ratio amounted to 76.7%. For CO emission, the pilot house diminished approximately 35.4% from 6,208.4kgCO to ₂ ₂

Published

2013

12. Performance of cyclic loading for structural insulated panels in wall application

Author

Hwan-Seon Nah, Hyeon-Ju Lee, and Sung-Mo Choi

Subjects

Engineering, Ultimate load, Shear stiffness, business.industry, Metals and Alloys, Shear load, Building and Construction, Structural engineering, Dissipation, Cyclic loading, Shear wall, Composite material, business, Ductility, Displacement (fluid), Civil and Structural Engineering

Abstract

There are few technical documents regulated structural performance and engineering criteria in domestic market for Structural insulated panels in Korea. This paper was focused to identify fundamental performance under monotonic loading and cyclic loading for SIPs in shear wall application. Load-displacement responses of total twelve test specimens were recorded based on shear stiffness, strength, ultimate load and displacement. Finally energy dissipation of each specimen was analyzed respectively. Monotonic test results showed that ultimate load was 44.3 kN, allowable shear load was 6.1 kN/m, shear stiffness was 1.2 MN/m, and ductility ratio was 3.6. Cyclic test was conducted by two kinds of specimens: single panel and double panels. Cyclic loading results, which were equivalent to monotonic loading results, showed that ultimate load was 45.4 kN, allowable shear load was 6.3 kN/m. Furthermore the accumulated energy dissipation capability for double panels was as 2.3 times as that for single panel. Based on results of structural performance test, it was recommended that the allowable shear load for panels should be 6.1 kN/m at least.

Published

2013

13. Performance Evaluation on Static Loading and Cyclic Loading for Structural Insulated Panels

Author

Hyeon-Ju Lee, Hwan-Seon Nah, and Sung-Mo Choi

Subjects

Engineering, Shear stiffness, business.industry, Shear load, Shear wall, Cyclic loading, Structural engineering, Composite material, Cyclic test, Dissipation, business, Static loading, Quasistatic process

Abstract

Professor, The University of Seoul, Department of Architectural EngineeringAbstract:Structural insulated panels, structurally performed panels consisting of a plastic insulation bonded between twostructural panel facings, are one of emerging products with a viewpoint of its energy and construction efficiencies.These components are applicable to fabricated wood structures. In Korea, there are few technical documents regulatedstructural performance and engineering criteria in domestic market. This study was conducted to identify fundamentalperformance of both monotonic load and quasi static cyclic load for SIPs in shear wall application. Static test resultsshowed that maximum load was 44.3kN, allowable shear load was 6.1kN/m, shear stiffness was 1.23 MN/m, andductility ratio was 3.6. Cyclic test was conducted by two kinds of specimens : single panel and double panels. Cyclictest results, which were equivalent to static test results, showed that maximum load was 45.42kN, allowable shearload was 6.3kN/m. Furthermore the accumulated energy dissipation capability for double panels was as 2.3 times asthat for single panel. From performance of structural tests, it was recommended that the allowable shear load for panelswas at least 6.1kN/m.K

Published

2013

14. Develop a Method to Estimate the Tension of Torque-Shear High Strength Bolts

Author

Hwan Seon Nah

Subjects

Materials science, Tension (physics), business.industry, Torque wrench, Structural engineering, Clamping, law.invention, Shear (sheet metal), Cable gland, law, Torque, Metre, Wrench, business

Abstract

High strength bolts are widely used as a connector of steel member for steel structure. When the torque shear type high strength bolt is fastened, a pin-tail of the bolt is twisted off. The clamping force of the high strength bolt is normally carried out with a visual inspection, so it is uncertain to measure the clamping force quantitatively. To solve this problem, this study developed a method to identify the clamping force of high strength bolt at a digital mode. The new method identify the induced tension is to analyse the accumulated electric energy applied to high strength bolts until the pin-tails are broken by electric torque wrenches. Valuations of bolt clamping forces and accumulated current data were collected through various experiments. The function of accumulated current data using regression analysis was conducted with various values of bolt diameter. The function of accumulated current data by various values of bolt diameter considering torque wrench rpm was conducted by using regression analysis. The measuring deviation between the values measured by a tension meter and those estimated by a trial product of a measuring device developed in this study is only around 4%. Also, as a result of the research, the trial product is developed including algorithms that calculate clamping force according to the different bolt diameter and electric wrench types.

Published

2017

15. A Study on Scheduling Methods of the Partial Thermal Storage Heat Pump System for the Utilization as a Demand Resource in Smart Grid Environments

Author

Hwan-Seon Nah

Subjects

Smart grid, Resource (project management), business.industry, Computer science, law, Embedded system, Scheduling (production processes), business, Thermal energy storage, Heat pump, law.invention

Published

2012

16. Fire Resistance Performance and Thermal Performance Evaluation of Structural Insulated Panels for Low-Energy Houses

Author

Sung-Mo Choi, Hwan-Seon Nah, Hyeon-Ju Lee, and Cheol-Hee Lee

Subjects

Vacuum insulated panel, Engineering, Bearing (mechanical), business.industry, Vertical load, Structural engineering, Low-energy house, law.invention, Low energy, law, Thermal insulation, Thermal, Fire resistance, business

Abstract

Structure Insulated Panel (SIP) is an wooden structure material with which structure and insulation functions are satisfied. Hence, it would be a cost-effective model to implement low energy house which has higher insulation and structure performance and which the wall thickness is able to be reduced. In this study, performance of thermal insulation and fire resistance were evaluated in order to verify applicability to low energy house. Fire resistance test is performed on vertical load bearing members for partitions, and the test results satisfy one hour of fire resistance condition according to KS F 2257. The members include two layers of fireproof gypsum board with thicknesses of 12.5mm attached to SIP. Thermal insulation performance is satisfied with the 2012 standard (0.225W/㎡·K). As the performance of resistance and thermal insulation are satisfied, SIP is expected to be applied to low energy building materials. In the future, the structural safety will be confirmed by structural performance and seismic performance test and the guidelines for distribution will be drawn up.

Published

2012

17. Evaluation on Structural Performance of Structural Insulated Panels in Wall Application

Author

Sung-Wook Hwang, Cheol-Hee Lee, Hwan-Seon Nah, Hyeon-Ju Lee, Sung-Mo Choi, and Hye-Jin Jo

Subjects

Engineering, Bearing (mechanical), business.industry, Structural engineering, Racking, law.invention, Shear (sheet metal), Transverse plane, law, Axial compression, Transverse shear deformation, Lintel, business, Structural insulated panel

Abstract

Structural insulated panels, which are structurally performed panels consisting of a plastic insulation bonded between two structural panel facings are one of emerging products with a viewpoint of its energy and construction efficiencies. These components are applicable to fabricated wood structures. By now, there are few technical documents regulated structural performance and engineering criteria in domestic market. This study was conducted to suggest fundamental reports such as racking resistance, axial capacity, transverse load capacity, and lintel load capacity for SIPs. Test results showed that maximum load was 44.3kN, allowable load was 14.7kN for racking resistance, and that maximum load was 137.6kN, allowable load was 37.4kN/m for axial compression capacity. For transverse load capacity, test results showed of maximum load, of allowable load. For lintel load capacity for SIPs dependent to lengths, allowable loads were 20.4kN for 600mm long lintel, 23.9kN for 1,200mm long lintel, 19.3kN for 1,800mm long lintel, and 2,400mm long lintel had 14.1kN of allowable load. In the near future, when the allowable load for wall application is established, SIPs is considered to substitute the existent post-and-lintel construction to bearing wall structure.

Published

2012

18. Cooling Performance Evaluation of Air Source Heat Pump System in Low Energy House

Author

Hwan-Seon Nah and Sung-Wook Hwang

Subjects

business.industry, Passive cooling, Waste heat, Nuclear engineering, Heat pump and refrigeration cycle, Hybrid heat, HVAC, Air source heat pumps, Active cooling, Environmental science, Coefficient of performance, business

Published

2012

19. Evaluation on Clamping Force of High Strength Bolts By Coating Parameters of Faying Surfaces

Author

Hyeon Ju Lee and Hwan-Seon Nah

Subjects

Mill scale, Materials science, Metallurgy, Metals and Alloys, Slip coefficient, Relaxation test, Slip (materials science), engineering.material, Clamping, Surfaces, Coatings and Films, Creep, Coating, Faying surface, Electrochemistry, Materials Chemistry, engineering, Composite material

Abstract

Clamping force of a high strength bolt is reduced by a certain period of time after the initial set-up. In case of special treatments on faying surfaces such as protective coating, clamping force is relaxed more severely. Tests for slip critical joints subject to various faying surface parameters were conducted. Five different surface treatments were tested including mill scale surface, blast surface, rust surface and coated surfaces. Each specimen was composed of F10T M20 of high strength bolts and steel plates. Based on the result of slip coefficient test, blast treatment surface showed 0.59, rust treatment surface showed 0.54 and inorganic zinc treatment surface exhibited 0.44. Clean mill treatment surface and red lead paint treatment surface were 0.23, 0.21 respectively. It is identified that the slip coefficient in Korean structural design guide should be determined for various surface conditions. Subsequently from long term relaxation test of ASTM A 490 high strength bolts, relaxation of no-coated surfaces such as blast, clean mill, rust treatment, the loss of initial clamping load was 10.5%, 13.6% and 7.9% for 1,000 hours, while the loss of initial clamping force was reached as 15.0%, 18.7% more than the required redundancy 10% in case of inorganic zinc and red lead painted treatment. It is required that the limit of relaxation on coated faying surface should be established separately for various surfaces.

Published

2012

20. Estimation of Long Term Clamping Force of High Strength Bolts By Coating Thickness Parameters of Slip Faying Surfaces

Author

Jaeyong Ryoo, Hyeon-Ju Lee, Hwan-Seon Nah, and Sung-Mo Choi

Subjects

Materials science, Coating, Creep, Drop (liquid), Faying surface, Bolted joint, engineering, Torque, Slip (materials science), engineering.material, Composite material, Clamping

Abstract

The initial clamping forces of high strength bolts depending on different faying surface conditions drop within 1,000 hours regardless of loading, any other external force or loosening of the nut. This study is focused on an expectation model for relaxation of high strength bolt, which is confined to creep on coated faying surfaces after initial clamping. The range of this experiment is limited to estimate the relaxation of bolted joints coated by inorganic zinc primer. The candidate bolts were dacro-coated tension control bolts. The parameters of coated thickness for the faying surface were 96, 168,and respectively. From experiments, it exhibited that the logarithmic function for creep strain was derived due to the parameter of coating thickness. By using the creep strain, subsequently the quantitative model for estimating long term relaxation of high strength bolt can be taken with the elapsed time. The experimental results showed that the relaxation after the initial clamping of high strength bolt rose to a much higher range from 10% to 18% due to creep of the coating as the coating thickness was increased. This study showed that the clamping force reflecting relaxation after the elapse of constant time can be calculated from the initial clamping force of high strength bolt.

Published

2012

21. A Study on the Infrastructure of All-electric Houses in the Viewpoint of Hydrogen Economy

Author

Kang-Sik Kim, Hwan-Seon Nah, Hyeon-Ju Lee, Jung-Hoon Kim, and Sung-Wook Hwang

Subjects

Engineering, Energy development, Mains electricity, Primary energy, Waste management, business.industry, Hydrogen economy, Fossil fuel, Electricity, Environmental economics, business, Electricity retailing, Renewable energy

Abstract

In this paper, some ideas are proposed to establish the infrastructure of all-electric houses which are able to reduce primary energy consumption and CO2 emission by adopting heat pump systems and induction heating cookers excluding the use of fossil fuel energy. This electrification concept is based on the consumption of only one type of energy which means electricity as secondary energy and the conventional fossil fuel energy is just consumed to generate electricity as primary energy. All-electric house is laid on the extension of the hydrogen economy in a long-term viewpoint so that the effectiveness of this new conceptual house is estimated analyzing the reduction of CO2 emission. In this analysis, the balance of electricity supply and demand is considered including the construction of new power plants by renewable energy such as nuclear, IGCC and fuel cell because decarbonization is an essential element of hydrogen technology and economy and this action is accomplished in both supply and demand side of electricity. The results are able to contribute to develop various useful hydrogen policies and strategies and some detail researches are required previously to make the best application of this new conceptual house.

Published

2012

22. Performance Evaluation of Air Source Multi Heat Pump loor Heating System in Apartment

Author

Hwan-Seon Nah and Hoon Jung

Subjects

Architectural engineering, Heating system, Apartment, law, Mechanical engineering, Environmental science, Heat pump, law.invention

Published

2011

23. A Study on the Economic Analysis of LED Lightings in All-Electric Houses Using California Standard Practice Test

Author

Jung-Hoon Kim, Hwan-Seon Nah, Sung-Wook Hwang, and Hyun-Ju Lee

Subjects

Engineering, Amenity, business.industry, Fossil fuel, Environmental economics, Test (assessment), law.invention, LED lamp, law, Green growth, Economic analysis, Electricity, Architecture, business

Abstract

Recently, all-electric house technology became one of the green growth technologies and is integrated with various areas such as electricity, machinery, architecture, material, and etc. Fossil fuel energy is used for heating and hot water supply in the conventional houses but electricity is adopted in the new conceptual houses to maximize advantages of electricity such as amenity, safety, cleanness, and so on. In this paper, an economic analysis is carried out when LED lightings are adopted using the California Standard Practice Test which has been used to estimate the effects of existing DSM (Demand Side Management) programs. The results are able to contribute to the diffusion of all-electric houses and the establishment of basic data and planning for DSM policies.

Published

2011

24. A Study on the Simulation Methodology of Home Appliance Control and Load Experiment for the Development of All-electric House Load Models

Author

Sung-Wook Hwang, Hwan-Seon Nah, Jung-Hoon Kim, Hyeon-Jeong Park, and Kang-Sik Kim

Subjects

Consumption (economics), Architectural engineering, Engineering, business.industry, Energy resources, Control (management), Subsidy, Zero carbon, Renewable energy, Electricity, Electrical and Electronic Engineering, Home appliance, business, Simulation

Abstract

Recently, low energy houses have become an essential issue globally and various subsidy programs are ongoing to penetrate. All-electric houses which are another type of low energy houses or zero carbon houses are being developed. These houses consider new & renewable energy and demand side management programs in the construction and the diffusion process because these programs are essential policies to use energy resources reasonably. This paper shows a simulation methodology to control home appliances in all-electric houses considering the electricity consumption pattern of residents. The simulation is a first step to estimate energy saving of the house in a practical manner.

Published

2011

25. Evaluation on the Behavior of Slip Critical Joints with TS High Strength Bolts Subjected to a Size of Bolt Holes

Author

Hyeon Ju Lee, Kang Min Lee, Hyunchul Kim, Kang Seok Kim, and Hwan-Seon Nah

Subjects

Engineering, business.industry, Torque, Slip (materials science), Structural engineering, business, Clamping

Abstract

The oversized and slotted holes are frequently required for the built-up in construction sites. The foreign provisions specify the reduction of the slip load subjected to the size of bolt holes and the direction of load. There are no domestic building codes and researches on the bolt holes. Therefore, it is necessary to evaluate a change of joint strength quantitatively according to the bolt-hole size and surface condition by means of experiment. This study was conducted to evaluate the slip load subjected to the size of bolt holes, and measured on a change of clamping force of high strength bolts during 168 and 800 hours to analyze the trend of relaxation after fastening bolts. Torque shear bolts defined on KS B 2819 was used for the specimen. Test results exhibit that the variation on the slip load of the others was below 10% by contrast with the standard hole and the highest rate of relaxation was 2.66% of the initial clamping force at the case of the long-slotted hole of 2.5D.

Published

2011

26. Experimental Study on the Flexural Performance of Steel Beams Reinforced by AFRP Sheets

Author

Hwan-Seon Nah, Hyeon Ju Lee, Kang Min Lee, Kang Seok Kim, and Kang Sik Kim

Subjects

Materials science, business.industry, Stiffness, Structural engineering, Fibre-reinforced plastic, Aramid, Flexural strength, Deflection (engineering), Bending stiffness, medicine, Retrofitting, medicine.symptom, Composite material, business, Beam (structure)

Abstract

Fiber Reinforced Plastic (FRP) sheets have been widely used to retrofit and rehabilitate RC structures, while in case of retrofitting steel structures, there are no codes and researches. It stems from configuration of member and characteristics of bonding behavior. This study focused on the static behavior of steel beams reinforcement by AFRP sheets. The main objective of the experimental programme was the evaluation of the force transfer mechanism, the increment of the beam load carrying capacity and the bending stiffness. A bending test was conducted on a H-shaped steel beam, with aramid FRP sheets bonded to its flanges. The mid-span deflection and the strain from three points along AFRP sheets were recorded Test results exhibit that the increment of the load-carrying capacity with reference to a mid-span deflection level of 15 mm(1/125mm of the clear span) was equal to 9.4% and for the two layers case, an elastic stiffness increment is slightly higher than one layer case.

Published

2011

27. Evaluation Using Dynamic Characteristic of Steel Structures under Periodical Impact Loads

Author

Kang Seok Kim, Hwan-Seon Nah, Hyeon Ju Lee, Kang Min Lee, and Kyung Seok Yoo

Subjects

Signal processing, Engineering, Mathematical model, business.industry, System identification, Steel structures, Structural engineering, Switchgear, symbols.namesake, symbols, Algorism, Frequency domain decomposition, Power substation, business

Abstract

Recently, safety diagnosis of the existing structures has been emerged as important issue. In particular, systematical and precise safety diagnostics for steel structures for power substation, have been required. Steel structures for power substation are under the periodical impact loads from operations of gas insulated switchgear. These loading condition accelerates damage and aging of structure. The objective of this research is to evaluate damage of structure under periodical impact loads. To evaluate the integrity of structures as organizing mathematical models including the dynamic characteristics of structures, Frequency Domain Decomposition method was choiced and an algorism was proposed. For verifying this methods and algorism, a mathematical model is composed of the development of a variety of reverse analysis and a signal processing technology reflecting physical damage of structures. A series of analysis and test results indicatge that proposed method has a confidence for applying a filed test. Therefore, it is expected to be able to take advantage of system identification to detect damage for the maintenance and management of steel structures under periodical impact loads such as power substation.

Published

2011

28. Evaluating relaxation of high-strength bolts by parameters on slip faying surfaces of bolted connections

Author

Hyeon-Ju Lee, Kang-Seok Kim, Jin Ho Kim, Woo-Bum Kim, and Hwan-Seon Nah

Subjects

musculoskeletal diseases, Materials science, Coating, Faying surface, Metallurgy, engineering, Slip coefficient, Slip (materials science), engineering.material, Clamping, Civil and Structural Engineering

Abstract

The clamping force of a high-strength bolt reduces within a certain time period after the initial clamping force. When special treatments are used on a faying surface, the clamping force is relaxed severely. Tests were conducted for slip critical joints subjected to various faying surface parameters. Relaxation occurred for slip resistant joints with an uncoated surface that had been shot-blasted, cleaned, milled or rusted. It was observed that the initial clamping force dropped from 6.2% to 8.0% after 744 hours. For joints with a 5 mil thick zinc coating, the clamping force of the bolts decreased by 8.37%, and in the case of 4.9 mil thick red lead painted treatment, the relaxation ratio was 24.6%. The standard deviation of the slip coefficients between the time immediately after tightening and 1,000 hours after tightening was 0.223. It is particularly noteworthy that, for red lead painted treatment, the slip coefficient dropped from 2.5 times to 2.8 times when compared with the slip coefficient before relaxation. Joints with inorganic zinc should not have thickness exceeding 5 mils, and joints with a red lead painted surface should not be allowed regardless of the thickness of coating.

Published

2010

29. Evaluation of slip coefficient of slip critical joints with high strength bolts

Author

Kang-Seok Kim, Woo-Bum Kim, Hwan-Seon Nah, and Hyeon-Ju Lee

Subjects

Materials science, Mechanical Engineering, Slip coefficient, Slip resistance, Building and Construction, Slip (materials science), Eurocode, engineering.material, Clamping, Coating, Mechanics of Materials, engineering, Forensic engineering, Composite material, Civil and Structural Engineering

Abstract

A slip critical joint has various values to adopt the proper slip coefficient in various conditions of faying surfaces in the following codes: AISC, AIJ and Eurocode 3. However, the Korean Building Code still regulates the unique slip coefficient, 0.45, regardless of the diverse faying conditions. In this study, the slip resistance test, including five kinds of surface treatments were conducted to obtain the proper slip coefficients available to steel plate KS SM490A. The faying surfaces were comprised of a clean mill, rust, red lead paint, zinc primer, and shot blast treatment. The candidates for high strength bolts were torque-shear bolts, torque-shear bolts with zinc coating, and ASTM A490 bolts. Based on the test results, the specimens with a shot blasted surface and rusted surface exhibited , 0.61, and 0.5, respectively. It is recommended that the specimens with zinc primer exhibit . The clean mill treated surface had prominently lower values, 0.27. For red lead painted treatment, the thickness of the coating affects the determinant of slip coefficient, so it is necessary to establish a minimum of 0.2, with a coating thickness of 65 . During 1,000 hours of relaxation, the uncoated surfaces exhibited the loss of clamping force behind 3%, while the coated surfaces within a certain limited thickness exhibited the loss of clamping within a range of 4.71% and 8.37%.

Published

2009

30. Method for estimating the clamping force of high strength bolts subjected to temperature variation

Author

Woo-Bum Kim, Hwan-Seon Nah, Hyeon-Ju Lee, Kang-Seok Kim, and Jin Ho Kim

Subjects

Engineering, business.industry, Tension (physics), Solid mechanics, Torque, Structural engineering, Atmospheric temperature range, business, Torque coefficient, Control methods, Clamping, Civil and Structural Engineering

Abstract

The torque control method is mainly used as a clamping method for high-strength bolts in Korea and Japan. However, the torque coefficient affects the tension that is required during the process of tightening by torque. This makes it difficult to assume the direct tension induced into the bolt. The determinant factor that affects the clamping force is the ambient temperature, as indicated by the Korean standard B 2819. This study was planned to assess the expected clamping force of two types of high-strength bolts considering a temperature range of-10 to 50°C. Based on laboratory data subjected to temperature parameters, equations to estimate the clamping force were extracted by regression analysis.

Published

2009

31. Characterization of Material Degradation in Epoxy Film Based on Scanning Acoustic Microscopy (SAM)

Author

Hwan-Seon Nah, Noh Yu Kim, and Sang Soon Lee

Subjects

Materials science, Mechanical Engineering, Transverse wave, Acoustic wave, Epoxy, Accelerated aging, Shear (sheet metal), Mechanics of Materials, visual_art, visual_art.visual_art_medium, General Materials Science, Ultrasonic sensor, Particle velocity, Composite material, Longitudinal wave

Abstract

In order to evaluate the degradation of the epoxy coating in nuclear power plants, acoustic wave velocities of epoxy films are measured using defocused scanning acoustic microscopy system(SAM). Unlike metals, the surface of the epoxy coating on the concrete liner is so thin and wavy that the conventional ultrasonic techniques for acoustic velocity of epoxy coating are hard to apply. Acoustic velocities of bulk waves are determined from V(z,t) curves of mode-converted waves generated in the film by SAM. Epoxy films are fabricated and degraded under various accelerated aging conditions, and both of longitudinal and shear wave velocities of the epoxy film are measured. Approximately 10% of reduction in acoustic wave velocity is observed from experimental results when the aging is developed fully in epoxy films. It is also found that longitudinal wave is more sensitive to deterioration of epoxy coating than transverse wave.

Published

2006

32. Establishment of Slip Coefficient for Slip Resistant Connection

Author

Kang-Sik Kim and Hwan-Seon Nah

Subjects

Materials science, Coating, engineering, Slip coefficient, Mechanical engineering, Slip resistance, Slip (materials science), engineering.material, Composite material

Abstract

A slip critical connection has various values to adopt the proper slip coefficient in various conditions of faying surfaces in AISC, AIJ and Eurocode3. The Korean Building Code regulates the unique slip coefficient, from 0.45 to 0.5 without consideration of the diverse faying conditions in 2009. In this study, the slip resistance test, including five kinds of surface treatments were conducted to obtain the proper slip coefficients available to steel plate KS SM490A. The slip coefficient of specimens over zinc primer thickness of 128 μm exhibit was 0.42. The clean mill treated surface had prominently lower values as slip coefficient, 0.27. For red lead painted treatment, it is suggested to setup a minimum slip coefficient, 0.21, below a coating thickness of 65 μm. The slip coefficient of one faced lap connection was higher 1.4 times than the slip coefficient of two faced lap connection.

Published

2011

33. Characterization of Material Degradation in Epoxy Film Based on Scanning Acoustic Microscopy (SAM)

Author

Noh Yu Kim, Hwan Seon Nah, and Sang Soon Lee

Published

2006

34. Evaluation of slip coefficient of slip critical joints with high strength bolts.

Author

Hwan-Seon Nah, Hyeon-Ju Lee, Kang-Seok Kim, and Woo-Bum Kim

Subjects

JOINTS (Engineering), BOLTED joints, BOLTS & nuts, SKID resistance, CONSTRUCTION laws

Abstract

A slip critical joint has various values to adopt the proper slip coefficient in various conditions of faying surfaces in the following codes: AISC, AIJ and Eurocode 3. However, the Korean Building Code still regulates the unique slip coefficient, 0.45, regardless of the diverse faying conditions. In this study, the slip resistance test, including five kinds of surface treatments were conducted to obtain the proper slip coefficients available to steel plate KS SM490A. The faying surfaces were comprised of a clean mill, rust, red lead paint, zinc primer, and shot blast treatment. The candidates for high strength bolts were torque-shear bolts, torque-shear bolts with zinc coating, and ASTM A490 bolts. Based on the test results, the specimens with a shot blasted surface and rusted surface exhibited ks, 0.61, and 0.5, respectively. It is recommended that the specimens with zinc primer exhibit ks ≥ 0.40. The clean mill treated surface had prominently lower values, 0.27. For red lead painted treatment, the thickness of the coating affects the determinant of slip coefficient, so it is necessary to establish a minimum ks of 0.2, with a coating thickness of 65µm. During 1,000 hours of relaxation, the uncoated surfaces exhibited the loss of clamping force behind 3%, while the coated surfaces within a certain limited thickness exhibited the loss of clamping within a range of 4.71% and 8.37%. [ABSTRACT FROM AUTHOR]

Published

2009