• Journal of the Korean Society of Clothing and Textiles
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• v.24 no.2
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• pp.192-198
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• 2000

This study was conducted in autumn and winter to investigate the wearing habit of the obese children in the cold. Eighty elementary school children were volunteered as the subjects. Forty of them were selected as the obesity group(OG) and the other forty children were selected as the normal body weight group(NG). Clothing weight and motor ability of the subjects were measured and correlation of the clothing weight between the children and their mothers were investigated. Clothing weight did not show significant difference between OG and NG in autumn but in winter. In winter, boys' lower clothing weight was less while girls' upper clothing weight was less in OG than in NG. Motor ability was better in NG than OG but no correlation was found between clothing weight and motor ability in both group except for upper clothing weight in NG. There was no correlation of total clothing weight between girls and their mothers but between boys and their mothers.

• Journal of the Korean Society of Clothing and Textiles
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• v.23 no.4
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• pp.517-528
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• 1999

The purpose of this study was to obtain the basic data on clothing habits for health promotion through the investigation of clothing weight by month and season. Thirty six subjects (18 males and females twenties) were composed to obtain the clothing weight(Total clothing weight) for a year. And then clothing weight was grouped in to four seasons : spring(Mar-May) Summer(Jun-Aug) Fall(Sep-Nov) and Winter(Dec-Feb). The data of males and females were respectively divided into three groups by cluster analysis with clothing weight. 1. The clothing weight of male and female were the heaviest in jan, that of male were smallest in July female in Aug. 2. The clothing weight mean of male(996g/m2) were heavier than that of female(894g/m2) for year. The seasonal clothing weight of male culminated in Winter(1179g/m2) and decreased respectively : Spring (973g/m2) Fall(879g/m2) and summer(559g/m2) The seasonal clothing weight of female culminated in Winter (1068g/m2) and decreased respectively ; Fall(865g/m2) Spring(835g/m2) and summer(479g/m2). The seasonal clothing weight variations were significantly different in each season(p<0.01) but they were insignificantly different between Spring and Fall. middle and light. There was individual differences in the clothing weight especially large in Winter and Spring and small in Summer and Fall. 4. Lower inner clothing weight was the lowest fluctuant all around year upper outer clothing weight was the most fluctuant. So he/she controled upper outer clothing to deal with thermal environment. He/she pretended natural textiles such as cotton and wool to synthetic textiles.

• Journal of the Korean Society of Clothing and Textiles
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• v.23 no.3
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• pp.483-494
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• 1999

This study investigated the relation between seasonal variation of clothing weight and its resting metabolic rate to determine the relation between proper living temperature and cold/heat tolerance. Thirty six subjects(18 males and females twenties) were composed to obtain the clothing weight(Total clothing weight) and resting metabolic rate for a year and grouped four seasons : spring (Mar-May) Summer(Jun-Aug) Fall(Sep-Nov) and Winter(Dec-Feb). The data of males and females were respectively divided into three groups by cluster analysis with clothing weight. 1. The resting metabolic rate of male(41.1kcal/m2/hr) was higher than that of female(33.2kcal/m2/hr). It is suggested there is gender difference in the resting metabolic rate(p<.001) 2. The resting metabolic rate of male and female was the highest in Winter. It is suggested there is seasonal variation in the resting metabolic rate(p<.001) 3. It was found that there was relation between clothing weight and resting metabolic rate. The difference of resting metabolic rate between Summer and Winter which is profitable to adaptation to living temperature was significant in light clothing weight in male as well as in female. 4. In comfortable sensation most subjects responded that he/she felt 'comfortable' except Winter. However the heavy clothing weight group felt 'a little uncomfortable' throughout all seasons. l In thermal sensation most subjects responded that he/she felt 'neutral' And then the heavy clothing weight group responded warmer in summer and cooler in winter than light clothing weight group. From the results it was confirmed that male and female showed seasonal variations in clothing weight and resting metabolic rate. Also the resting metabolic rate of male and female was influenced by the clothing weight. In short seasonal variation of resting metabolic rate was larger in light clothing weight group than in heavy clothing weight group. Therefore light clothing weight group is advantgeous in living temperature to improve cold/heat tolerance and it also shows that living with the light clothing weight may enhance the degree of adaptation to change of living environment

• Journal of the Korean Society of Clothing and Textiles
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• v.15 no.4 s.40
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• pp.417-430
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• 1991

The purpose of this study is to evaluate the level of seasonal adaptability of rural residents from a viewpoint of clothing weight. In this study, the 631 rural residents of both sexes and all generations were selected from 5 rural districts of Kyunggi, Kangwon, Chungnam, Chonnam and Kyungbuk province, and the survey on clothes worn by subjects carried out 4 times-once in each season-from 1989. 7 to 1990. 4. The clothing weight per a unit body surface area that is the index of clothing insulative value was calculated and the seasonal variations of clothing weight were investigated in each region, sex and age. The results of this study were as follows. 1. The clothing weight changed with the season and that increased in order of summer, autumn and spring, winter. But there was no significant difference between spring and autumn. 2. In general, the clothing weight of males was havier than that of females through out the year But the underwear clothing weight of males was lighter than that of females. 3. There were significant differences of clothing weight among age groups in the spring, autumn and winter and $14\~29$ age group had smallest clothing weight. Clothing weight increased with age above 29 years and decreased with age below 20 years. In the summer there was no significant di florence of clothing weight among age groups except that clothing weight of $14\~19$ age was significantly havier than the others. 4. The thermal sensation of the clothed body was comfortable in the spring, autumn and winter but that was warm in the summer. 5. The seasonal adaptability of rural adults from a viewpoint of clothing weight was relatively good but the children's clothing life had some problem because they wore too much.

• Journal of the Korean Society of Clothing and Textiles
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• v.17 no.4
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• pp.518-528
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• 1993

The purposes of this study are to know the environmental conditions of rural houses, thermal sensation and clothing weight of rural residents and to estimate the standard clothing weight according to their indoor living temperature. In this study, the 631 rural residents of both sexes and all generations were selected from 5 rural districts of Kyunggi, Kangwon, Chungnam, Chonnam and Kyungbuk province and the surveys which include clothes, environmental conditions and thermal sensation carried out 4 times-once in each season-from July 1989 to April 1990. The results of this study are· as follows. 1. The ranges of outdoor temperature are $21{\sim}31^{\circ}C$ in summer, $7{\sim}20^{\circ}C$ in spring/autumn, $-15{\sim}5^{\circ}C$ in winter and those of indoor temperature are $24{\sim}31^{\circ}C$ in summer, $15{\sim}23^{\circ}C$ in spring/autumn, $11{\sim}17^{\circ}C$ in winter. The ranges of indoor temperature is within comfortable range in spring, summer and autumn but in winter it is below the range. 2. There is a negative relationship between indoor temperature and clothing weight(r = -0.927) and the simple regression equation is as follows. Y = -61.97X + 2048.44(Y : total clothing weight $g/m^2$, X : indoor temperature $^{\circ}C$). 3. There is no significant difference of clothing weight among the thermal sensation, so clothing insulation can not affect the thermal sensation. 4. Clothing weight of light-clothing-weight group is 70~75% of middle-clothing-weight group and clothing weight of heavy-clothing-weight group is 130% of middle-clothing-weight group. So the standard clothing weight for rural residents in their indoor living is estimated as Fig. 6.

• Journal of the Korean Society of Clothing and Textiles
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• v.26 no.11
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• pp.1491-1501
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• 2002

The purpose of this study was to set up an effective marketing strategy targeting college women by researching the relationship between weight control behavior and body exposure in clothing behavior. The results showed that 1) 85.5% of the college women participated in weight control behavior, and 53.5% of them wanted to lose more than 3kg of their weight. 2) College women were less satisfied with their body and thar showed less body exposure in clothing behavior according to the increase of weight control degree. The weight control parts and unsatisfied body parts were almost matched : thigh, abdomen, hip, calf, and weight. College women preferred clothing that exposed neck, legs and shoulder more than clothing that exposed many parts of their body at the same time. 3) exposure in clothing decreased according to the increase of weight control degree, except for the exposure of breast in clothing.

• Journal of the Korean Society of Clothing and Textiles
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• v.16 no.4 s.44
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• pp.417-430
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• 1992

To examine the effects of clothes upon human's physiological adaptation to the changes of climatic conditions, clothing weight was examined. The results are as follows; 1. According to the change in temperature, the total, upper and outer clothing weight showed remarked change. Clothing weight change was greatest between the July and October, the change was greater in the coast land and the girl students. 2. The clothing weight tends to be light under outdoor in both regions in all seasons except in July, it is remarked in inland and December. 3. The correlation between $R\"{o}hrer$ Index, Body Fat and clothing weight was recognised to be significantly reversed. 4. Positive correlation between health conditions and clothing weight was recognized in December 5. The correlation between exercise hours and clothing weight was negatively significant in December.

• Korean Journal of Human Ecology
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• v.18 no.5
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• pp.1087-1092
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• 2009

From the environmental adaptation point of view, the clothing habits made by the thermal sensation and clothing weight of elderly women have changed according to the thermal sensation and health condition. The purpose of this study was to obtain the basic data for developing healthy and comfortable clothing for elderly women. Clothing weight, thermal sensation, clothing microclimate, resistance to cold and heat of 198 elderly women in Taejeon were surveyed from October 9, 2007 to October 19, 2007. 1. Clothing weight per body surface area was $830.4g/m^2$ of total clothing weight, $242.8g/m^2$ of underwear clothing weight, $617.3g/m^2$ of outerwear clothing weight, $419.8g/m^2$ of upper clothing weight, and $420.4g/m^2$ of lower clothing weight. 2. More than 90% of the respondents replied that they felt comfortable when the temperature inside the clothing was $33.5^{\circ}C$ and humidity inside the clothing was 30.2%. 3. The elderly women were more sensible to cold than to hot, those who felt cold had a tendency to wear heavier clothing. 4. The appeal rate for physical pain of older and lower income people, especially those with an income under 1,000,000 won, was higher than that of others. On the other hand, the lower the subjective economic level, the younger they were, and the more the monthly average income was, the higher the rate of mental pain. 5. The heavier the total clothing weight was, the higher the appeal rate for general pain.

• Journal of the Korean Home Economics Association
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• v.23 no.4
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• pp.19-31
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• 1985

This study was designed to find out clothing weights and clothing practice of elementary school children and their mothers and to investigate the correlation between clothing weights of the children and those of their mothers and to investigate the correlation between clothing weights and physical fitness of the children. RESULTS : 1. Total clothing weight of elementary school children was heavier than that of their mothers. 2. The results analyzed by sex and age of the children were as follows. Correlation was little recognized between lowerwear, underwear weights of the 6 year old girls and underwear weight of their mothers and between upperwear weight of 10 year old girls and underwear weight of their mothers. 3. In case of the children who made a clothing decision with their mothersm, correlation was recognized between total clothing weight of the children and total clothing, underwear, lowerwear weights of their mothers, and between upperwear weight of the children and upperwear weight of the children and upperwear, total clothing, underwear and outerwear weights of their mothers, and between outerwear weight of the children and lowerwear weight of their mothers. 4. Physical fitness had partly a negative correlation with the clothing weights in case of the boys, while not the girls. As a reslult, clothing weights of elementary school children were related to thermal sensation of their mothers.

• Journal of the Korean Home Economics Association
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• v.26 no.1
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• pp.33-42
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• 1988

This study was done for the purpose of analysing the relationships between the clothing weight and health state on the kindergartners. The data were collected in July. Oct. 1986, and February, April. 1987, 324 kindergartners is Seoul. And those factors assumed in the study to have impacts on the clothing weight were, 1) Anthropometric measurement and BMI, Kaup-Index, % fat. 2) The motor ability 3) The health states assumed by application of cornell medical index and health state, Incidence, medical history. The results obtained were to follows. 1) In November, clothing weight was ghigh correlation between anthropometric measurements, BMI, Kaup-Index, motor ability and cornell-medical index. 2) The health problem scores were significant in total clothing weight, upper wear clothing weight, under wear clothing weight. 3) The relation between clothing weight and weight, BMI, motor ability and cold contration among the health state scores proves to be significant correlation.