<section data-role="outer" label="Powered by 135editor.com"><section class="_135editor" data-tools="135编辑器" data-id="109845"><section style="text-align: center;margin: 10px auto;"><section style="display: flex;flex-direction: column;align-items: center;"><section style="background: linear-gradient(to left,#fffaf3 0%,#ffa63c 100%);padding: 5px 25px;margin: 0 45px -2px 0;"><section style="font-size: 16px;letter-spacing: 1.5px;color: #2a2624;"><strong class="135brush" data-brushtype="text">纳米材料</strong></section></section></section><section data-autoskip="1" class="135brush" style="padding: 15px 25px; text-align: justify; line-height: 1.75em; letter-spacing: 1.5px; color: rgb(42, 38, 36); background: transparent;"><p style="vertical-align:inherit;">纳米是一个长度计量单位，1纳米等于10亿分之一米。纳米粒子一般是指粒径在0.1—100mm之间的微粒。纳米粒子在光学性质、催化性质、化学反应性、磁性、熔点、蒸汽压、相变温度、超导等许多方面显示出特殊性能，使其在新型功能性服装材料的研制生产中具有重要价值。</p></section><section style="display: flex;justify-content: flex-end;margin-right: 25px;"><section class="assistant" style="width: 35%; height: 8px; background: linear-gradient(to right, rgb(255, 255, 255) 0%, rgb(255, 164, 56) 92%, rgb(255, 255, 255) 92%, rgb(255, 164, 56) 100%); overflow: hidden; max-width: 35% !important;" data-width="35%"></section></section></section></section><section class="_135editor" data-tools="135编辑器" data-id="109857"><section style="text-align: center;margin: 10px auto;transform-style: preserve-3d"><section class="assistant" style="width: 35px; transform: translateZ(10px);"><img class="assistant" style="vertical-align: inherit; width: 100%; display: block; max-width: 100% !important;" src="https://image2.135editor.com/cache/remote/aHR0cHM6Ly9tbWJpei5xbG9nby5jbi9tbWJpel9wbmcvSmFGdlB2dkEySjIzSEJsdFJnVnF6RGg5dkdmWHVHbktMRndtYU9TV1JUNkR6U01vNno2UmE5akhzVUNXNXpWeFJkY3dFMWxHM2dDVm5pYjNDcjlsRkxRLzA/d3hfZm10PXBuZw==" data-width="100%" data-ratio="1.4" data-w="50"></section><section style="background: linear-gradient(to left,#fff 0%,#ffa438 100%);margin: -35px 6px 0 10px;transform: translateZ(9px);-webkit-transform: translateZ(9px);-moz-transform: translateZ(9px);-ms-transform: translateZ(9px);-o-transform: translateZ(9px);"><section style="border: 1px solid rgb(255, 164, 56); padding: 25px 12px 12px 25px; transform: translate(6px, 6px);"><section data-autoskip="1" class="135brush" style="text-align: justify; line-height: 1.75em; letter-spacing: 1.5px; color: rgb(42, 38, 36); background: transparent;"><p style="vertical-align:inherit;" hm_fix="347:403">目前，纳米功能材料及纳米技术已成为世界各国研究的热点，纳米技术已渗透到人类生活和生产的各个领域，使得许多传统产品得到改进。目前纳米技术已应用于防紫外、抗磁辐射、远红外、抗菌抑臭、抗老化、拒水拒油等功能性服装材料的研发和生产。</p></section><section style="display: flex;justify-content: flex-end;align-items: center;margin-top: 10px;"><section class="assistant" style="width: 5px; height: 16px; background-color: rgb(255, 164, 55); margin-left: 7px; overflow: hidden; transform: skew(-18deg);"></section></section></section></section></section></section><section class="_135editor" data-tools="135编辑器" data-id="109846"><section style="text-align: center;margin: 10px auto;"><section style="display: flex;justify-content: center;align-items: flex-end;transform-style: preserve-3d"><section class="assistant" style="width: 30px; flex-shrink: 0; transform: translateZ(10px);"><img class="assistant" style="vertical-align: inherit; width: 100%; display: block; max-width: 100% !important;" src="https://image2.135editor.com/cache/remote/aHR0cHM6Ly9tbWJpei5xbG9nby5jbi9tbWJpel9wbmcvSmFGdlB2dkEySjIzSEJsdFJnVnF6RGg5dkdmWHVHbktLZU1WSWlhSnFnbUxrcDVGSHFaaWFDNzVYVjN0SWs3QmFlaWF1aWN4VVJNUFpZbmRJbDk3WE1wVUFBLzA/d3hfZm10PXBuZw==" data-width="100%" data-ratio="1.7804878048780488" data-w="41"></section><section style="border: 1px solid #ffb256;margin: 0 0 7px -12px;transform: translateZ(9px);-webkit-transform: translateZ(9px);-moz-transform: translateZ(9px);-ms-transform: translateZ(9px);-o-transform: translateZ(9px);"><section style="border: 1px solid #ffb256;background:repeating-linear-gradient(234deg,#ffaf51 0%,#fff 90%,#fff 100%);padding: 5px 23px;transform: translate(-4px, 4px);-webkit-transform: translate(-4px, 4px);-moz-transform: translate(-4px, 4px);-ms-transform: translate(-4px, 4px);-o-transform: translate(-4px, 4px);"><section style="font-size: 16px;letter-spacing: 1.5px;color: #2a2624;text-shadow: 1px 1px 0 #fff;"><strong>纳米技术在纺织中的应用途径</strong></section></section></section></section><section class="box-edit _135editor" style="margin-top: 15px;"><section style="display: flex;justify-content: flex-start;align-items: flex-end;"><section style="width: 24px; height: 24px; background: linear-gradient(to right bottom, rgb(255, 163, 54) 0%, rgb(255, 254, 252) 100%);"><section style="letter-spacing: 0.5px; color: rgb(42, 38, 36); line-height: 24px;"><strong>0</strong><strong class="autonum" data-original-title="" title="">1</strong></section></section><section><section style="letter-spacing: 1.5px; color: rgb(42, 38, 36); padding: 0px 6px;"><strong class="135brush" data-brushtype="text">纤维超细化</strong></section><section class="assistant" style="width: 100%; height: 12px; background: linear-gradient(to right, rgb(255, 175, 81) 0%, rgb(255, 252, 248) 100%); margin-top: -10px; overflow: hidden; max-width: 100% !important;" data-width="100%"></section></section></section><section data-autoskip="1" class="135brush" style="padding: 15px 0px 0px 12px; text-align: justify; line-height: 1.75em; letter-spacing: 1.5px; color: rgb(42, 38, 36); background: transparent;"><p style="vertical-align:inherit;" hm_fix="275:254">应用纳米技术使纤维达到纳米级，以满足特殊用途领域的需要。</p></section></section><section class="box-edit _135editor" style="margin-top: 15px;"><section style="display: flex;justify-content: flex-start;align-items: flex-end;"><section style="width: 24px; height: 24px; background: linear-gradient(to right bottom, rgb(255, 163, 54) 0%, rgb(255, 254, 252) 100%);"><section style="letter-spacing: 0.5px; color: rgb(42, 38, 36); line-height: 24px;"><strong>0</strong><strong class="autonum" data-original-title="" title="">2</strong></section></section><section><section style="letter-spacing: 1.5px; color: rgb(42, 38, 36); padding: 0px 6px;"><strong class="135brush" data-brushtype="text">利用纳米材料对传统材料进行改性</strong></section><section class="assistant" style="width: 100%; height: 12px; background: linear-gradient(to right, rgb(255, 175, 81) 0%, rgb(255, 252, 248) 100%); margin-top: -10px; overflow: hidden; max-width: 100% !important;" data-width="100%"></section></section></section><section data-autoskip="1" class="135brush" style="padding: 15px 0px 0px 12px; text-align: justify; line-height: 1.75em; letter-spacing: 1.5px; color: rgb(42, 38, 36); background: transparent;"><p style="vertical-align:inherit;">如湿法纺丝中的溶液共混，就是将高聚物经过适当的溶剂溶解后，将纳米材料粒子加入其中，充分搅拌均匀后进行聚合反应，然后进行纺丝加工。而在融纺中则是把纳米粒子均匀分散在熔融的聚合物中再制备功能化纤维。</p></section></section><section class="box-edit _135editor" style="margin-top: 15px;"><section style="display: flex;justify-content: flex-start;align-items: flex-end;"><section style="width: 24px; height: 24px; background: linear-gradient(to right bottom, rgb(255, 163, 54) 0%, rgb(255, 254, 252) 100%);"><section style="letter-spacing: 0.5px; color: rgb(42, 38, 36); line-height: 24px;"><strong>0</strong><strong class="autonum" data-original-title="" title="">3</strong></section></section><section><section style="letter-spacing: 1.5px; color: rgb(42, 38, 36); padding: 0px 6px;"><strong class="135brush" data-brushtype="text">对纤维或织物进行纳米后整理，使之功能化</strong></section><section class="assistant" style="width: 100%; height: 12px; background: linear-gradient(to right, rgb(255, 175, 81) 0%, rgb(255, 252, 248) 100%); margin-top: -10px; overflow: hidden; max-width: 100% !important;" data-width="100%"></section></section></section><section data-autoskip="1" class="135brush" style="padding: 15px 0px 0px 12px; text-align: justify; line-height: 1.75em; letter-spacing: 1.5px; color: rgb(42, 38, 36); background: transparent;"><p style="vertical-align:inherit;">纳米后整理的主要方法有：将纳米微粒作为固体物质直接加入到织物后整理剂中,使纳米微粒均匀分散在织物中；将纳米微粒的微乳液和织物后整理剂均匀混合后，使织物通过这种含有纳米微粒的整理液；将含有纳米材料的整理剂在一定的粘合剂存在下涂覆到织物表面，形成一种功能性的涂层，从而改善织物的服用性能。</p></section></section></section></section><section class="_135editor" data-role="paragraph"><p style="vertical-align:inherit;"><br></p></section><section class="_135editor" data-role="paragraph"><p style="vertical-align:inherit;"><br></p></section><section class="_135editor" data-role="paragraph"><p style="vertical-align:inherit;"><br></p></section><section class="_135editor" data-role="paragraph"><p style="vertical-align:inherit;"><br></p></section></section>