●浮体平台总重约50吨，相当于传统钢架结构的三分之一 ●在四川华蓥完成预制后，运至海南进行整体拼装 本报讯（周松林 尹梦娇 四川日报全媒体记者 罗海韵）12月28日，在海南省临高县金牌港，由四川玄武岩纤维新 材料研究院（下称四川玄纤院）自主研发制造的玄武岩纤维复合材料深海养殖浮体平台成功下水。玄武岩纤维复 合材料作为主结构材料大规模应用于海洋工程建设，这在全球范围内尚属首次。 该浮体平台集海上能源补给、深远海养殖、海洋旅游观光等多重功能于一体，总重约50吨，相当于传统钢架结构 的三分之一。主体结构采用模块化设计，在四川华蓥完成预制后，运至海南进行整体拼装。下水后，将拖航至陵 水县土福湾海域投入深远海养殖运营。 北京航空航天大学副教授、四川玄纤院副院长杨中甲介绍，经验证，该平台可在17级超强台风条件下稳定运行， 全周期设计寿命超过30年，其间几乎无需专门维护。本次下水的浮体平台养殖总容积逾1万立方米，预计年均培育 优质海水鱼苗约8000万尾，水产品年产量有望突破150吨。 目前，国内外深远海养殖设施多以金属材料建造，长期暴露于高盐、高湿的海洋环境中，普遍面临严重的腐蚀问 题。作为一种源自火山岩的高性能绿色材料， ...

Core Viewpoint - The successful launch of the basalt fiber composite deep-sea aquaculture floating platform in Hainan marks a significant advancement in marine engineering, utilizing basalt fiber as a primary structural material for the first time globally [3]. Group 1: Product and Technology - The floating platform weighs approximately 50 tons, which is only one-third of the weight of traditional steel structures, and features a modular design that allows for prefabrication and assembly [3]. - The platform is designed to operate under extreme conditions, capable of withstanding super typhoon conditions (up to level 17) with a design lifespan exceeding 30 years and minimal maintenance required [3]. - The total volume of the floating platform for aquaculture exceeds 10,000 cubic meters, with an expected annual production of around 150 tons of aquatic products and the capacity to cultivate approximately 80 million high-quality seawater fish fry annually [3]. Group 2: Industry Context and Challenges - Current deep-sea aquaculture facilities predominantly use metal materials, which face severe corrosion issues due to prolonged exposure to high-salinity and high-humidity marine environments, leading to high operational and maintenance costs [4]. - The introduction of basalt fiber, a high-performance green material with excellent corrosion resistance, high strength, and durability, aims to address these challenges and reduce maintenance costs significantly [4]. - The company has developed over 40 related patents and continues to expand the application of basalt fiber composites in marine aquaculture, island bridges, and underwater infrastructure, aiming to establish a design and manufacturing capacity for high-end marine equipment in the future [4].