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Large-scale industrial development raises environmental problems. The need for <br /> <br /> textiles and fashion continues to grow. In recent years various developments and <br /> <br /> research have emerged regarding modular textile design in response to <br /> <b...
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id-itb.:318952018-09-26T13:44:25Z#TITLE_ALTERNATIVE# FIRDAUS NIM: 27115049, ZANIRA Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/31895 Large-scale industrial development raises environmental problems. The need for <br /> <br /> textiles and fashion continues to grow. In recent years various developments and <br /> <br /> research have emerged regarding modular textile design in response to <br /> <br /> environmental problems. Modular textile designs that have been made at this time <br /> <br /> have a variety of physical aspects namely variations in shape, size, material, type <br /> <br /> of interlock connection system, structure of the module arrangement, which <br /> <br /> affects the durability of the product. This research was conducted to understand <br /> <br /> the correlation between physical characteristics and the influence of these <br /> <br /> aspects, especially the form of interlock connection on the durability of textile <br /> <br /> products using the type of interlocking connection system, and how to apply this <br /> <br /> type of interlocking connection to the product so that it can be applied to products <br /> <br /> with functions that match durability form of connection and module. Experiments <br /> <br /> were carried out by comparing each physical characteristic of the interlocking <br /> <br /> connection module by making a sample that represented designs that had been <br /> <br /> made previously. The sample is then quantified using the tensile testing test. As a <br /> <br /> result, knowledge is obtained about the correlation of physical aspects and the <br /> <br /> value of how strong each type of textile interlocking connection is in quantitative <br /> <br /> form. The value of durability of the test results obtained then becomes a reference <br /> <br /> for the design of textile products that use a durable interlocking connection <br /> <br /> system in accordance with the function of the product to be made. text |
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Large-scale industrial development raises environmental problems. The need for <br />
<br />
textiles and fashion continues to grow. In recent years various developments and <br />
<br />
research have emerged regarding modular textile design in response to <br />
<br />
environmental problems. Modular textile designs that have been made at this time <br />
<br />
have a variety of physical aspects namely variations in shape, size, material, type <br />
<br />
of interlock connection system, structure of the module arrangement, which <br />
<br />
affects the durability of the product. This research was conducted to understand <br />
<br />
the correlation between physical characteristics and the influence of these <br />
<br />
aspects, especially the form of interlock connection on the durability of textile <br />
<br />
products using the type of interlocking connection system, and how to apply this <br />
<br />
type of interlocking connection to the product so that it can be applied to products <br />
<br />
with functions that match durability form of connection and module. Experiments <br />
<br />
were carried out by comparing each physical characteristic of the interlocking <br />
<br />
connection module by making a sample that represented designs that had been <br />
<br />
made previously. The sample is then quantified using the tensile testing test. As a <br />
<br />
result, knowledge is obtained about the correlation of physical aspects and the <br />
<br />
value of how strong each type of textile interlocking connection is in quantitative <br />
<br />
form. The value of durability of the test results obtained then becomes a reference <br />
<br />
for the design of textile products that use a durable interlocking connection <br />
<br />
system in accordance with the function of the product to be made. |
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Theses |
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FIRDAUS NIM: 27115049, ZANIRA |
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FIRDAUS NIM: 27115049, ZANIRA #TITLE_ALTERNATIVE# |
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FIRDAUS NIM: 27115049, ZANIRA |
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FIRDAUS NIM: 27115049, ZANIRA |
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https://digilib.itb.ac.id/gdl/view/31895 |
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1822267901977034752 |