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木结构螺栓连接可靠度分析OA

Reliability analysis of bolted connections in timber structures

中文摘要英文摘要

在GB 50005-2017《木结构设计标准》中,木材与木产品的强度设计指标已通过可靠度分析确定,而螺栓连接的承载力设计值则通过与GB 50005-2003中螺栓连接的承载力校准得到,是一种未经可靠度分析的权宜之计,这使得木结构构件设计与螺栓连接设计的设计原则与方法相脱节.为此,基于既有销槽承压和螺栓连接试验结果,确定了螺栓连接计算模式不定性等影响螺栓连接受力性能的各随机因素的统计参数,建立了螺栓连接可靠度分析的功能函数,并开展了系统的可靠度分析,揭示了木材销槽承压材料分项系数的变化规律.可靠度分析结果表明:木材销槽承压材料分项系数γw主要随荷载组合、活荷载与恒荷载之比ρ以及销槽顺纹或横纹承压等因素的变化而变化,与单剪或双剪连接形式及螺栓连接的屈服模式等基本无关.进而提出了螺栓连接设计建议,即以恒荷载与住宅楼面活荷载组合且ρ=1.0时的γw值为基准,销槽顺纹承压时取为1.38,销槽横纹承压时取为1.70.当恒荷载单独作用时,销槽承压强度基准设计值乘以调整系数0.75;恒荷载与住宅楼面活荷载组合且ρ<1.0时,销槽承压强度设计值乘以调整系数KD(KD=0.75+0.25ρ);恒荷载与办公楼面活荷载组合且ρ<1.0时,销槽承压强度设计值乘以调整系数1.15KD,当ρ≥1.0时,乘以调整系数1.15;恒荷载与雪荷载组合时,销槽承压强度设计值乘以调整系数0.75;恒荷载与风荷载组合时,销槽承压强度设计值乘以调整系数0.85.

Strength design values of wood and wood products in GB 50005-2017'Standard for design of timber structures' have already been determined via the reliability analysis.Yet the design values for load-carrying capability of bolted connections are determined by calibration against the values from the old design code GB 50005-2003,which is an expedient measure without conducting the reliability analysis.This makes the design of wood members and bolted connections disjointed in both the design principles and methods.To overcome the situation,the statistical parameters of the random variables,such as the model uncertainty factor,which affect the performance of the bolted connections,were derived from the results of the related dowel-bearing tests and bolted connection tests.The performance functions of the bolted connections were developed,and the systematic reliability analysis was conducted.The variations of the material property partial factor for the dowel-bearing strength were thus revealed.It is shown that the material property partial factor γw for dowel-bearing strength mainly varies with the type of load combinations,the live to dead load ratio ρ and dowel-bearing parallel or perpendicular to grain,whilst it varies little with the connection form of single-shear or double-shear and the yield mode of the connections.Furthermore,the suggestions for the design of the bolted connections were proposed.The combination of dead load and residential floor live load with a live to dead load ratio ρ of 1.0 is taken as the reference point for determining the material property partial factor γw for dowel-bearing strength,with a value of 1.38 when dowel-bearing is parallel to grain,and 1.70 when dowel-bearing is perpendicular to grain.When it is under sole dead load,the reference dowel-bearing strength is multiplied by a modification factor of 0.75.For the combination of dead load and residential floor live load with ρ<1.0,the reference dowel-bearing strength is multiplied by a factor of KD(KD=0.75+0.25ρ).For the combination of dead load and office floor live load with ρ<1.0,the reference dowel-bearing strength is multiplied by a factor of 1.15KD,and with ρ≥1.0,the reference dowel-bearing strength is multiplied by a factor of 1.15.For the combination of dead load and snow load,the reference dowel-bearing strength is multiplied by a factor of 0.75.For the combination of dead load and wind load,the reference dowel-bearing strength is multiplied by a factor of 0.85.

刘立磊;祝恩淳;张鑫;李素超

哈尔滨工业大学土木工程学院,黑龙江哈尔滨 150090||哈尔滨工业大学结构工程灾变与控制教育部重点实验室,黑龙江哈尔滨 150090哈尔滨工业大学(威海)土木工程系,山东威海 264209山东建筑大学山东省绿色复合竹木结构重点实验室,山东济南 250101哈尔滨工业大学(威海)土木工程系,山东威海 264209

建筑与水利

木结构销连接螺栓连接可靠度荷载组合

timber structuredowel-type connectionbolted connectionreliabilityload combination

《建筑结构学报》 2026 (1)

214-227,14

国家自然科学基金面上项目(51778187).

10.14006/j.jzjgxb.2025.0105

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