NSERC IRC in innovative fibre reinforced polymer (FRP) Reinforcement for concrete infrastructure

NSERC IRC 用于混凝土基础设施的创新纤维增强聚合物 (FRP) 加固

• 批准号: 234115-2014
• 负责人: Benmokrane, Brahim
• 金额: $ 16.14万
• 依托单位: Université de Sherbrooke
• 依托单位国家: 加拿大
• 项目类别: Industrial Research Chairs
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=645154
• 关键词: NSERC; IRC; innovative; fibre; reinforced

The deterioration of concrete infrastructure owing to corrosion of steel reinforcement is one of the major challenges facing the construction industry today. Worldwide, governments and industrial firms are looking for infrastructure systems that are stronger, last longer, are more resistant to corrosion, and cost less to build and maintain. Engineers all over the world are searching for new and affordable construction materials as well as innovative approaches and systems to solve problems. An effective solution to this problem is corrosion-resistant materials, such as high-performance fibre-reinforced polymer (FRP) composites. Recently, this cutting-edge technology has emerged as one of the most cost-effective alternatives to traditional solutions. The achievements and contributions of the IRC during the last five years have achieved widespread recognition and significant impact on the advancement of the FRP-bar technology through the development of innovative and durable FRP reinforcement for concrete structures, combined with several successful field applications in Canada and abroad. The proposed research in the upcoming five-year term of the chair will focus on these main objectives: (1) Improvement, development, and evaluation of existing and new generations of FRP bars and systems with enhanced properties and high performance/cost ratios; (2) Durability performance of new/improved FRP bars incorporating new advanced constituent materials; (3) Laboratory structural testing of concrete prototypes reinforced with the current/developed FRP products; (4) Field implementation and structural health monitoring; (5) Technology transfer to design engineers, end users, and the construction industry. The proposed chair research activities will benefit Canadian and international design consultants and regulators, and owners, all of whom will be able to place greater confidence in these structural materials. In addition, as Canada's leader in developing and successfully using FRP-bar technology in infrastructure , this research will maintain/enhance Canada's leadership in this industry. The proposed research will be implemented through the training of 40 postdoctoral researchers, doctoral and master's students.**********************

由于钢筋腐蚀而导致的混凝土基础设施的恶化是当今建筑业面临的主要挑战之一。 在世界范围内，政府和工业企业都在寻找更坚固、更耐用、更耐腐蚀、建造和维护成本更低的基础设施系统。世界各地的工程师都在寻找新型且价格实惠的建筑材料以及解决问题的创新方法和系统。解决这一问题的有效方法是采用耐腐蚀材料，例如高性能纤维增强聚合物（FRP）复合材料。 最近，这种尖端技术已成为传统解决方案最具成本效益的替代方案之一。 IRC 在过去五年中取得的成就和贡献得到了广泛认可，通过开发用于混凝土结构的创新耐用的 FRP 加固材料，并结合在加拿大和加拿大的多次成功现场应用，对 FRP 筋技术的进步产生了重大影响。国外。 在即将到来的五年主席任期内拟议的研究将集中于以下主要目标：（1）改进、开发和评估现有和新一代具有增强性能和高性价比的玻璃钢棒材和系统； (2)采用新型先进组成材料的新型/改进型FRP筋的耐久性能； (3)用现有/开发的FRP产品加固的混凝土原型的实验室结构测试； (4) 现场实施和结构健康监测； (5) 向设计工程师、最终用户和建筑行业转让技术。拟议的主席研究活动将使加拿大和国际设计顾问、监管机构和业主受益，他们所有人都将能够对这些结构材料更有信心。此外，作为加拿大在基础设施领域开发并成功使用 FRP 棒技术的领导者，这项研究将保持/增强加拿大在该行业的领导地位。拟议的研究将通过培训 40 名博士后研究人员、博士生和硕士生来实施。 *********************