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KMID : 0615719990160030155
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Jouranl of Korean Acupuncture and Moxibustion society
1999 Volume.16 No. 3 p.155 ~ p.177
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The Experimental Study on Combustion Characteristics of the Moxa-Combustion in the Skin Model , Agar
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Abstract
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Moxa-comibustion Therapy is the heat-stimulus therapy which is done on the skin. ¢¥Thickness of the Skin¢¥ and ¢¥Heat conductivity¢¥ are very important, because nerves and vessels are in the dermis layer of the skin
To observe the combustion reaction of the Moxa-combustion with
respect to variations of these thickness of the skin and heat conduct-ivity, the skin model(agar), which reflects the heat-conductivity of the skin, was made and the moxa was combusted on the model.
The combustion characteristics of the Moxa-Combustion was investigated in the input period and retaining period, and the comparisions of these characteristics were accomplished in agars (thickness 1§®, 2§®), the heat resistance plate and the stainless steel ring.
1.For the combustion time, Sample I, SampleII and SampleIII were proved to have difference from MH but Sample II was not proved to have difference from SampleIII on the input period, while Sample I, SampleII, and SampleIII were proved to have difference from MH on the retaining period.
2.For the peak temperature, Sample I, Sample II and SampleIII were proved to have difference from MH on the input period.
3.For the average temperature, SampleII and SampleIII were proved to have difference from MH but Sample I was not proved to have difference from MH on the input period, while Sample I, Sample II, and SampleIII were proved to have difference from MH on the retaining period.
4.For maximum ascending temperature gradient, Sample I and SampleIII were proved to have difference from MH but Sample II was not proved to have difference from MH on the input period.
5.For the average ascending temperature gradient, Sample II and SampleIII were proved to have difference from MH but Sample I was not proved to have difference from MH on the input period.
6.For the maximum descending temperature gradient, SampleII and SampleIII were proved to have difference from MH but Sample I was not proved to have difference from MH on the retaining period.
7.For the average descending temperature gradient, Sample II and SampleIII were proved to have difference from MH but Sample I was not proved to have difference from MH on the retaining period.
8.For the combustion calrolie rate, Sample II and SampleIII were proved to have difference from MH but Sample I was not proved to have difference from MH on the input and retaining period.
(In this study ¢¥characteristics of the Moxa-Combustion¢¥ means the Combustion Time, the Peak Temperature, the Average Temperature,
the Maximam Ascending Temperature Gradient, the Average Ascend-ing Temperature Gradient and Combustion Calorie Rate during the
Input Period and the Combustion Time, the Average Temperature, the Maximam Descending Temperature Gradient, the Average Desce-nding Temperature Gradient, the Combustion Calorie Rate during the Retaining Period.
MH :Moxa-combustion
Sample I : Moxa-combustion on stainless steel ring with ID 14§®, OD 15§® and height 1§®
Sample II : Moxa-combustion on thick 1§® agar
Sample III : Moxa-combustion on thick 2§® agar
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