摘要:体育场馆在建设过程中具有涉及面广、协调量大、综合性强、影响因素多等特性，对施工方案、技术、工艺及协调管理等提出新的挑战。本文以滁州高教科创城文体活动中心项目为例，详细介绍BIM技术在体育场馆中的应用，帮助解决体育场馆施工难题。本项目建筑具有“云飞燕舞”独特造型、钢结构工程跨度大且构造复杂、金属屋面安装精度要求高、装饰材料多样化等特点，对现场施工管理要求高。采用BIM技术对整体应用实施进行策划，对复杂节点及施工工艺进行可视化交底，提高施工质量；建立项目云协调平台，完善物料跟踪系统、进度控制系统、安全监测系统，改善现场安全文明施工环境，提高信息化管理；针对重点及难点部分，建立基于BIM技术方案模拟，解决屋面双曲面面板加工难度大、造价昂贵等问题；完善钢结构吊装方案，做到结构变形小、安全性高，精确度准。最终在保证工程质量的前提下，达到降低成本、缩短工期、节约材料的效益。

Abstract: During the construction progress, the stadium buildings own the characteristics of extensive involvements, heavy coordination, strong comprehensiveness, and multi influencing factor involvement, which pose challenges to the construction scheme, technology, progress and coordination management. Taking the cultural and sports center project in Chuzhou higher education science and innovation city as an example, this paper introduces in details the application of the BIM technology in the stadium project, aiming at solving the construction problems of the stadium. The building possesses the unique appearance design of "flying cloud and dancing swallow", which embodies the many characteristics of large span and complex structure of steel structure engineering, high precision requirement of metal roof installation, and diversified decorative materials, putting forward high requirements for site construction management. The BIM application is able to plan the overall application implementation, and to conduct visual disclosure of complex nodes and construction process, improving the construction quality. A project-level cloud coordination platform is established with refined material tracking system, progress control system and safety monitoring system, which is able to improve the safe and civilized construction environment and to enhance the information management. In view of the key and difficult parts, a BIM based technical scheme simulation is established to solve the problems of difficult processing and high cost of roof hyperboloid panel. The hoisting scheme of steel structure is refined to achieve the goal of small structural deformation, high safety and high accuracy. Finally, on the premise of ensuring the quality of the project, other benefits also achieved including reducing the cost, shortening the construction period and saving materials.