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1、本科毕业论文I毕毕业业论论文文BACHELOR DISSERTATION论文题目: 铁酸锰纳米粉体的制备与表征 学位类别: 工学学士 学科专业: 粉体材料科学与工程 本科毕业论文II铁酸锰(锰铁氧体)纳米粉体的制备与表征铁酸锰(锰铁氧体)纳米粉体的制备与表征中中 文文 摘摘 要要磁性材料一直是国民经济、国防工业的重要支柱与基础,随着科学技术的发展,对材料的研究已经进入纳米级。纳米磁性材料的特性不同于常规的磁性材料,由于与纳米磁性材料相关联的特征物理长度恰好处于纳米量级,如,磁单畴尺寸、超顺磁性临界尺寸、交换作用长度、以及电子平均自由路程等大致处于1-100nm量级,当磁性体的尺寸与这些特征物理
2、长度相当时,就会呈现反常的磁学与电学性质。磁性纳米材料因其独特的性质,在现代科学中广泛地应用在磁记录材料、磁性液体、生物医学、传感器、催化、永磁材料、颜料、雷达波吸波材料等领域,越来越受到人们的关注。本实验通过低温共沉淀法制备铁酸锰纳米磁性粉体,并对其进IR、XRD 等手段分别对样品的物相结构、微观形貌和磁性能进行表征。通过本实验让我们掌握纳米粉体的制备技术及相关的表征手段,更加了解纳米铁酸锰的独特性能。同时还研究了铁酸锰纳米粉体对聚乙烯的力学增强性能。关键词:低温共沉淀法;纳米材料;铁酸锰;制备;应用关键词:低温共沉淀法;纳米材料;铁酸锰;制备;应用本科毕业论文IIIABSTRACTThe
3、magnetic material has always been an important pillar industry and foundation of the national economy and defense. With the development of science and technology, materials research entered the nanoscale. Characteristics of nano-magnetic materials differ from conventional magnetic materials. While t
4、he physical length, which associated with the nano-magnetic material is exactly in the nanoscale, such as magnetic single-domain size, super-paramagnetic critical size, the exchange interaction length, and the electronic mean free away roughly at the 1-100nm orders of magnitude. It will show the ano
5、malous magnetic and electrical properties when the magnetic body size matches with the characteristics of the physical length. because of their unique properties, nano-magnetic materials are widely used in modern science in the fields of magnetic recording materials, magnetic fluids, biomedical, sen
6、sors, catalysis, magnetic materials, pigments, radar absorbing materials, attracting more attention from people. by the low temperature coprecipitation.This experiment prepares Iron acid manganese nanoscale magnetic powder, and charactered the phase structure of the sample material and the means of
7、XRD and IR icrostructure and magnetic properties. Through this study, we grasped the nanometer powders and related means of characterization, and had a better understanding of the unique properties of nano-iron Manganese. Also did we study the ferrite manganese nanopowder polyethylene mechanical per
8、formance-enhancing.Key words: low-temperature co-precipitation method; nanomaterials; Iron Manganese; preparation; application本科毕业论文IV目录目录中 文 摘 要.IIABSTRACT.III目录.IV第一章 前言.11.1 研究背景.11.2 磁性纳米材料的性质.21.2.1 纳米材料的基本特性.21.2.2 纳米磁性材料的特殊性能.31.3 磁性纳米材料的制备.51.3.1 物理方法.51.3.2 化学方法.51.4 纳米铁酸锰的合成.61.4.1 低温共沉淀法.61.4.2 高温法.61.4.3 水热法.61.4.4 乳化炸药法.71.4.5 超声波化学法制备.71.4.6 自形成铁酸锰磁性液法.71.5 磁性纳米材料的应用.71.5.1 在磁记录材料方面的应用.71.5.2 在磁性液体方面的应用.81.5.3 在纳米永磁材料方面的应用.81.5.4 在纳米软磁材料方面的应用.81.5.5 在生物医学领域中的应用.91.5.6 在波吸波材料方面的应用.9本科毕业论文V1.6 本文研究的内容及意义.91.6.1 本文研究内容.
