Jo Mar 22, 2023
Choe Myong Guk, a section head at the Faculty of Mechanical Science and Technology, has developed a system to find errors in mechanical drawings designed on SolidWorks software.
The system helps to promptly detect and correct errors in the dimension, surface finish symbols and geometrical tolerance in drawings.
The system consists of 3 modules: structurized module, analyzing module and post-processing module.
The structurized module serves as a preprocessing module which imports necessary data from SolidWorks models and converts it into a more convenient form for analyzing errors. It can be seen as a communication module because it manages data transfer between SolidWorks software and the check system.
The analyzing module is the most important kernel in the system because it detects errors from structured data. AI technology is introduced to the module to find dimensional errors such as over-dimension, lack-dimension and wrong dimension in drawings. It can also find errors in surface finish and geometrical tolerance symbols that do not satisfy technological and economic conditions. It can find 90% of errors that might occur in mechanical part drawings, assembly drawings and sheet metal drawings.
The post-processing module is a terminal module of the system. It highlights errors detected by the analyzing module in different colors and symbols. In addition, it exports checked drawing files to other file formats such as PDF.
The system will prove to be useful in the machine building industry or design examination institutes by detecting and correcting errors in mechanical drawings before production.
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Jo Mar 20, 2023
Obstacles in self-mixing (SM) based displacement sensing are time-consuming estimation of parameters such as an optical feedback factor and a linewidth enhancement factor, and the complex algorithm of displacement retrieval.
There have been presented fringe counting (FM) method and consecutive samples based unwrapping (CSU) method to avoid such complexities.
However, the FC method has very low resolution and the CSU method requires normalization of SM signals (SMSs), which is very complicated and even impossible when SMSs are affected by a speckle noise.
Kim Chol Hyon, a researcher at the Faculty of Physical Engineering, has proposed a new method of displacement reconstruction with high resolution, which does not need any complex processes such as parameter estimation or normalization. In addition, the method can be applied to all feedback regimes and work well even when SMSs are subject to a speckle noise.
He has presented a direct simple method of reconstructing the displacement of the target from self-mixing signals based on the velocity of the target for a weak feedback regime. Also, he has reported a simple method of displacement retrieval for moderate and strong regimes.
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Jo Mar 19, 2023
A research team led by Kim Myong Il, a section head at the Faculty of Mechanical Science and Technology, has designed a CNC hobbing machine for dry and wet cutting by high-speed tools or carbide cutting tools, in consideration of future development in the field of cutting tools.
This machine consists of a machine body, a control panel, a control cabinet, a cooling and chip removal device, an oil pump, etc. It is designed for handsome appearance, in conformity with human-machine engineering demand, and for convinience of machining, maintenance and material conveying.
With 6 control axes and 4 simultanous axes, it can cut spur gears, bevel gears, worm wheels and non-circular gears such as elliptic gears.
The technical characteristics of the machine are as follows.
Maximum work piece diameter: 500mm
Modulus range of gear machining: 1.5~6
This machine has remarkably upgraded machining accuracy and productivity and is good for environmental protection.
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Jo Mar 17, 2023
Measurement of low concentration oxygen gas is very important in chemical processes where several kinds of material gas and fuel gas are used. If the concentration of combustible oxygen gas gets high, it might cause explosion, which will have vicious influence upon the whole process. So, real-time measurement of oxygen at low concentration is essential for taking proper measures.
Two common techniques for sensing oxygen at low concentration are luminescent optical sensing and electrochemical sensing. Both demonstrate high sensitivity to low concentration oxygen. Fluorescent oxygen sensing has seen widespread adoption thanks to its inherent stability. However, application of this technique is limited due to complicated fabrication and short life time. On the other hand, electrochemical sensors are widely used and available in different forms according to the demands of users.
A research team led by Choe Chol Man, an institute head at the Faculty of Electronics, made an amperometric oxygen sensor based on the electrochemical method to manufacture an oxygen concentration measuring instrument, and introduced a refrigerator and a gas cleaning instrument for removing the effect of interference elements, thus completing a system of measuring low concentration oxygen gas.
The left picture shows the construction of the oxygen sensor incorporating a cathode, an anode, an electrolyte solution and a gas permeable membrane, all of which affect the characteristics of the sensor. They used silver with good oxygen reduction characteristics as a cathode, and silver/silver chloride electrode as an anode. KCl saturation solution and PTFE thin film were selected as an electrolyte and a gas permeable membrane, respectively.
They introduced digital signal processing technology to remove atmospheric noises so that the instrument could work properly in any operation environment, thus ensuring the stability and reliability of the instrument. The right picture shows the installation of the system.
The specification of the system is as follows.
Measurable band: 0~10%
Response time: 30s
Accuracy: 0.1%
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Jo Mar 16, 2023
People in Koryo produced high-quality paper by carrying forward the long paper-making tradition of the Three Kingdoms (Koguryo, Paekje and Silla).
The general features of a variety of Koryo paper were whiteness, durability, smoothness, softness and freedom from fuzz and moth.
In those days, Koryo paper was widely known abroad for its excellent quality.
In particular, paekmunji (white paper for official documents), kyonji (highly durable paper) and achongji (dark blue paper) were exported to China during Koryo and feudal Joson dynasties and they were owned as necessities by aristocrats in that country.
“Korean bibliography” published in Paris, France, in 1894 gives a detailed description of the excellence of Koryo paper.
“All the paper used for Korean books, no matter which era it was from, is soft and tough, so even old books in fairly thin paper have endured for a very long time. It is demonstrated by the fact that Koryo books found in temples or European libraries are not at all tinted with yellow nor moth-eaten. It is not known when paper industry was established in Korea. However, paper must have been made in Korea from ancient times, which is strongly supported by the following facts ― nothing but paper was used for writing; books were already in wide circulation and there was a well-organized research institute in the ninth century; libraries were instituted in the next century (tenth century).
Invented by the resourcefulness and talent of our people, Koryo paper was renowned as the first on earth for its excellence.
Kim Kwang Jo, researcher at the Academy of Social Sciences
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Jo Mar 14, 2023
A research team led by Kim Thae Ung, a section head at the Faculty of Automation Engineering, has established an integrated automation system of the ore dressing process for the production of apatite concentrate.
The system supports comprehensive monitoring and operation of a whole process by displaying process data including the information of operation state of motors in crushing processes, grinding processes and flotation processes, pulp density, flotation temperature, pH value, amount of reagent consumption and level of industrial water numerically and graphically. It saves data of process variables of the subprocesses in the corresponding data base.
The process interface consists of process monitoring, grinding process, flotation process, reagent supplier, operation mode and process history.
The system shows several advantages. The ore dressing recovery and the concentrate grade are guaranteed at over 80% and 30% respectively. The reagent consumption is reduced by more than 10% and the labor is economized by 15%.
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