屈服强度550MPa高强冷弯薄壁型钢轴压构件承载力设计

高强冷弯薄壁型钢结构在国外低层住宅和门式刚架体系中应用较广,国内已开始采用,但尚无相应设计规范可依。针对屈服强度550MPa高强钢材冷弯薄壁型钢结构常用的轴压构件的承载力设计方法进行了研究,包括其承载力计算模式及设计可靠度分析,并据此提出了相应的设计方法。最后,通过国内外现有相关试验数据的分析,验证了所提出的强度设计指标及承载力设计方法的合理性与可靠性。     

屈服强度550MPa高强冷弯薄壁型钢结构轴心受压构件可靠度分析

本文采用二阶矩概率法,考虑强度、截面几何参数、计算模式、外荷载等不定因素的影响,针对屈服强度550MPa高强冷弯薄壁型钢轴心受压构件的可靠度进行了分析,并考虑材料特性,在已有试验的基础上对其承载力计算方法、目标可靠指标及强度设计指标的合理选取进行了研究。结果表明,在按厚度分类合理确定高强冷弯薄壁型钢的强度设计指标后,可依据现行的《冷弯薄壁型钢结构技术规范》(GB 50018—2002)给定的考虑板组稳定计算截面有效宽厚比的方法对其轴心受压构件的极限承载力进行有效分析,并满足预定设计可靠指标的要求。     

高强冷弯薄壁型钢卷边槽形截面构件设计可靠度分析

基于已有的承载力试验研究结果,对屈服强度550MPa高强冷弯薄壁型钢中常用的卷边槽形截面轴压构件和偏压构件的计算模式不定性进行了分析,并统计分析了高强冷弯薄壁型钢强度不定性、几何特性不定性。在此基础上,采用改进一次二阶矩方法,按现有规范的抗力分项系数要求,计算了高强冷弯薄壁型钢卷边槽形截面轴压构件和偏压构件不同可能荷载组合下的可靠指标。结果表明：对于宽厚比符合规范要求的屈服强度550MPa高强冷弯薄壁型钢卷边槽形截面轴压构件和偏压构件,按现有规范的抗力分项系数计算得到的可靠指标均能满足目标可靠指标的要求,证明了所采用的承载力计算方法的适用性;但对于宽厚比超出规范要求的轴压和偏压构件,计算得到的可靠指标不能满足目标可靠指标的要求。     

高强冷弯薄壁型钢卷边槽形截面轴压构件试验研究及承载力分析

对63根屈服强度550MPa高强冷弯薄壁型钢卷边槽形截面轴压构件进行试验研究,分析了构件的屈曲模式和极限承载力,并将参考AISI规范、澳洲规范和北美规范及我国现行行业标准《低层冷弯薄壁型钢房屋建筑技术规程》（报批稿）计算的构件承载力与试验结果进行分析比较。在此基础上,对高强超薄壁型钢卷边槽形截面轴压构件的承载力合理计算模式进行研究。结果表明：高强超薄壁型钢卷边槽形截面轴压构件在宽厚比较大时会出现畸变屈曲模式;采用等效板件方法计算加劲板件有效宽度后,我国《低层冷弯薄壁型钢房屋建筑技术规程》（报批稿）适用于屈曲强度550MPa、厚度小于2.00mm的冷弯薄壁型钢卷边槽形截面构件承载力计算。     

屈服强度550MPa高强冷弯薄壁型钢结构轴压构件承载力计算模式研究

本文收集了目前国内外屈服强度550MPa高强钢材冷弯薄壁型钢结构轴心受压构件的试验数据,参考现行的《冷弯薄壁型钢结构技术规范》(GB 50018—2002),对其承载力的合理计算模式进行了系统研究。结果表明,现行规范考虑板组约束计算截面有效宽厚比的方法对屈服强度550MPa高强钢材冷弯薄壁型钢结构轴心受压构件极限承载力的计算是可靠的。     

高强冷弯薄壁型钢卷边槽形截面轴压构件畸变屈曲控制试验研究

针对屈服强度550MPa高强冷弯薄壁型钢轴压构件提出了一种控制畸变屈曲的构造措施--在卷边间设缀板,并通过试验对其有效性进行了验证。试验结果表明：屈服强度550MPa高强冷弯薄壁型钢卷边槽形截面轴压构件易发生畸变屈曲,通过构造措施能有效地阻止翼缘的转动,试件的畸变屈曲荷载和极限承载力都有很大的提高;随着缀板布置间距的不同,构件承载力的提高幅度也不同;缀板间距越小,试件承载力提高越多,但当缀板间距大于畸变屈曲半波长时,缀板不能起到提高承载力的作用。最后,在此基础上提出了构件不考虑畸变屈曲影响的若干条件,供实际设计参考。     

高强冷弯薄壁型钢卷边槽形截面偏压构件试验研究及承载力分析

进行了48根屈服强度550MPa高强冷弯薄壁型钢卷边槽形截面偏心受压构件试验,考虑了不同截面形式、厚度、长细比和荷载偏心方式的影响,研究了这类偏心受压构件的破坏模式、承载力影响因素以及构件承载力计算方法。结果表明：高强冷弯薄壁型钢偏压构件由于材料强度高,截面宽厚比较大,局部屈曲和畸变屈曲的影响较大,我国规范仅考虑了局部屈曲的影响而没有全面考虑畸变屈曲的影响,这使得部分发生畸变屈曲的试件计算结果偏于不安全,但又对不发生畸变屈曲的长细比较大的构件偏于保守。最后,在试验和现有规范方法比较分析的基础上,提出了一种适用于高强冷弯薄壁型钢偏压构件极限承载力的建议计算方法。该建议方法计算所得结果与试验结果吻合较好,且安全可靠,可供设计参考。     

高强冷弯薄壁型钢抱合箱形截面受压构件承载力试验研究

由两个槽形截面构成的抱合箱形截面在超薄壁冷弯型钢结构中应用广泛,但关于其承载力的计算只是将单个构件的承载力简单地数学叠加,并没有相应公式来考虑单个槽形截面构件之间的相互加强。对40根高强冷弯薄壁型钢抱合箱形截面受压构件进行试验研究,考察其受力特性及破坏特征,包括轴压构件21个,绕弱轴偏心和绕强轴偏心构件共19个。试验研究结果表明:抱合箱形截面构件由于两个槽形截面试件的相互约束作用,实测承载力比按单根构件计算承载力叠加结果提高10%～20%左右。最后,在试验和理论分析的基础上,针对高强冷弯薄壁型钢抱合箱形截面受压构件极限承载力提出了一种建议计算方法,依照建议计算方法所得结果与试验结果吻合较好,且偏于安全,可供实际设计参考。     

高强冷弯薄壁型钢轴压长柱受力性能试验研究

进行了15组G550级高强冷弯薄壁型钢方管截面轴压长柱的试验研究，考察了其受力特性及破坏特征，试件的壁厚均为0．6mm，截面板件宽厚比分为42、58、75三类，长细比分为40、60、80、100、120五类。试验研究结果表明：直接利用中国现行规范GB50018—2002对G550级高强冷弯薄壁型钢轴压构件进行稳定承载力计算的结果与试验结果相差较大，偏于不安全，必须进行修正。通过对试验结果的比较分析，给出了考虑构件截面板组相关性影响时，采用规范GB50018—2002计算G550级高强冷弯薄壁型钢轴压构件稳定承载力的建议，建议方法所得结果与试验结果吻合良好，且偏于安全，可供修订规范和设计时参考。     

Post-buckling behaviour and DSM design of web-stiffened lipped channel columns with distortional and local mode interaction

This paper examines the design and load-carrying capacity of fixed-ended web-stiffened lipped channel columns eroded by mode interaction behaviour combined with distortional and local deformations. Initially, the paper presents the results of an experimental investigation of compressive tests on web-stiffened lipped channel columns fabricated from cold-formed mild steel with a thickness of 1.50 mm, which is aimed at determining their failure load-carrying capacity; the experimental investigation also aims to provide experimental evidence of the occurrence of such coupling phenomena concerning distortional and local modes, namely, local-distortional interaction and distortional-local interactive failures. Then, the paper examines the ultimate strength data of experimental columns, both reported in this paper and collected from the literature, and concludes that the current direct strength method (DSM) provides very unsafe predictions concerning such a detrimental interaction nature. Next, two DSM-based design approaches, namely, the nominal strength against local-distortional (NLD) and distortional-local (NDL) procedures, are presented and evaluated on the basis of all available experimental ultimate strength data. Finally, proposals and design considerations based on the DSM-shape for the thin-walled cold-formed steel sections, which fail in mixed modes of distortional and local buckling, are presented.     

Strength design curves and an effective width formula for cold-formed steel columns with distortional buckling

Distortional buckling mode of cold-formed steel thin-walled member is an unstable behavior, and in some cases it may govern the load-carrying capacity of the member. The source, evolution and performance of the formulas and test data for the two strength design curves developed by Hancock are studied, for predicting the load-carrying capacity in the distortional mode. A proposed strength design curve based on available test data and Hancock׳s strength design curves are then compared with the current design methods, the Direct Strength Method and the Effective Width Method, which are incorporated in the “North American specification for the design of cold-formed steel structural members” (AISI-NAS: 2007), “cold-formed steel structures” (AS/NAS 4600: 2005), and the Chinese “Technical specification for low-rise cold-formed thin-walled steel buildings” (JGJ 227-2011). The results indicate that the current design standards adopted the two strength design curves for the DSM and EWM, but they have some differences at the partial extent. A novel formula is proposed for dealing with this problem. The range of applicability of the proposed strength equation is extended from that in AS/NZS 4600 and is shown to be more accurate than AS/NZS 4600 when compared with that in the NAS S100.     

G550高强冷弯薄壁Z形钢受弯构件承载力试验与直接强度法研究

为了研究高强冷弯薄壁型钢构件的受弯性能和完善直接强度法,对卷边形式为斜卷边、直卷边和复杂卷边的12个G550高强冷弯薄壁Z形钢受弯试件进行了静力试验。试验结果表明,卷边形式对试件屈曲模式和受弯承载力有显著影响,试件发生了局部与畸变相关屈曲或畸变屈曲,直卷边试件的承载力高于斜卷边试件的承载力,复杂Ⅱ型卷边试件的承载力高于复杂Ⅰ型卷边试件的承载力。根据试验结果并结合现有国外直接强度法公式,回归出G550高强冷弯薄壁Z形钢受弯构件发生局部与畸变相关屈曲变形时的承载力直接强度法修正公式,当此类构件发生畸变屈曲时,无需再修正现有直接强度法公式。建立有限元模型对试验进行了分析,分析结果与试验结果吻合良好。在此基础上,利用大量有限元分析结果验证了直接强度法修正公式比现有直接强度法公式对此类构件的承载力的预测更为安全可靠。     

Plastic mechanisms database for thin-walled cold-formed steel members in compression and bending

Short members of thin-walled cold-formed (TWCF) steel sections, in compression and bending, fail by forming local plastic mechanisms. Taking into account the localised buckling pattern, the collapse of slender members, due to the interaction between local and overall buckling modes, is always characterised by local plastic mechanism failure mode. Based on these two observations, the ultimate strength in interactive buckling of these members can be regarded as an interaction between localised plastic mode and overall elastic one.The yield line mechanism method has been widely used to predict the sectional strength (e.g. local) of thin-walled cold-formed steel members that involve failure mode characterized by local collapse mechanisms. This method can be also used to study post-collapse behaviour and to evaluate the load-carrying capacity, ductility and energy absorption.This paper is based on previous studies and some latest investigations of authors, as well as the literature collected data. It represents an attempt to make an inventory, classify and range geometrical and analytical models for the local-plastic mechanisms aiming to characterize the ultimate capacity of some of the most used cold-formed steel sections in structural applications.     

高强超薄壁冷弯型钢低层住宅足尺模型振动台试验

进行了两层高强超薄壁冷弯型钢住宅结构足尺模型的振动台试验,模型采用屈服强度550 MPa、厚度2 mm以下超薄壁冷弯型钢龙骨,外墙内外侧覆面板分别采用12 mm厚石膏板和0.42 mm厚屈服强度550 MPa带肋波纹钢板,内墙两侧覆面板均为12 mm厚石膏板。试验选取3条实测地震波记录和1条人工合成地震波,地震加速度考虑7度多遇到9度罕遇的烈度水平。试验结果表明：结构破坏均发生在连接部位和覆面板的局部区域,破坏模式为自攻螺钉的脱落和石膏板的局部破裂,而内部主体型钢龙骨基本无破坏;结构水平刚度虽有较大削弱,但在地震作用下结构无倒塌危险;采用双面覆板构造的复合墙体结构,能够满足抗震设防地区“大震不倒”的要求;墙体开洞部位为结构的薄弱区域,结构设计时应加强门、窗等开洞部位的构造措施以及自攻螺钉连接的可靠性。     

Tests of cold-formed high strength stainless steel compression members

The paper describes a test program on cold-formed high strength stainless steel compression members. The duplex stainless steel having the yield stress and tensile strength up to 750 and 850 MPa, respectively, was investigated. The material properties of the test specimens were obtained from tensile coupon and stub column tests. The test specimens were cold-rolled into square and rectangular hollow sections. The specimens were compressed between fixed ends at different column lengths. The initial overall geometric imperfections of the column specimens were measured. The strength and behaviour of cold-formed high strength stainless steel columns were investigated. The test strengths were compared with the design strengths predicted using the American, Australian/New Zealand and European specifications for cold-formed stainless steel structures. Generally, it is shown that the design strengths predicted by the three specifications are conservative for the cold-formed high strength stainless steel columns. In addition, reliability analysis was performed to evaluate the current design rules.     

钢框架—内填冷弯型钢组合墙体抗剪性能

钢框架-内填冷弯薄壁型钢组合墙体结构体系可适用于多、高层建筑结构。利用SAP2000有限元软件分析了此体系在不同高宽比和钢框架截面尺寸下的承载力、侧移刚度、剪力分配情况。结果表明,钢框架、组合墙体可协同作用;组合墙体与钢框架之间剪力分配符合刚度分配原则;框架-内填冷弯薄壁型钢组合墙体抗侧刚度近似等于纯钢框架与组合墙体抗侧刚度之和。同时给出了钢框架、组合墙体协同工作的剪力分配计算简化公式,可用于此结构体系的抗剪设计。     

Bending strength of hybrid cold-formed steel beams

For the purpose of determining the load-carrying capacity of cold-formed steel structural members, the effective width approach has been used. Since most studies were limited only to the structural members, which were assembled from the same material in a given section, this investigation was concentrated on a study of structural strength and behavior of hybrid cold-formed steel beams subjected dynamic loads. An investigation was also conducted to study the validity of effective design width formulas for the design of these specimens. The materials used in this study were 25 AK and 50 SK sheet steels. A total of 72 spot-welded closed-hat sections were tested under different strain rates. The results showed that the structural strengths including yield moment and ultimate moment of hybrid cold-formed steel beams increase with increasing strain rates. In the determination of the strength of hybrid sections, the effective cross-sectional area calculated on the basis of the dynamic yield stresses can be employed. A design procedure was also developed to compute the member strength of hybrid beams.     

Column tests of cold-formed steel non-symmetric lipped angle sections

The geometry of angle sections is simple, but the behaviour and design calculations of angle sections can be quite complicated. Furthermore, lipped angle sections with unequal flange widths form a non-symmetric section and the behaviour of the section is even more complicated than a singly-symmetric angle section with equal flange widths. A test program on cold-formed steel non-symmetric lipped angle columns is presented. The non-symmetric angle sections were brake-pressed from high strength structural steel sheets having nominal yield stresses of 450 and 550 MPa with plate thicknesses of 1.0, 1.5 and 1.9 mm. The material properties of the column specimens were obtained by tensile coupon tests. The behaviour and strengths of cold-formed steel non-symmetric lipped angle columns were investigated. The test strengths are compared with the design strengths calculated using the North American Specification for the design of cold-formed steel structural members. In addition, the current design rules in the North American Specification for cold-formed steel non-symmetric lipped angle columns are assessed using reliability analysis. It is shown that the design strengths are generally quite conservative.     

Compression tests of welded section columns undergoing buckling interaction

This paper describes a series of compression tests performed on welded H-section and channel section columns fabricated from a mild steel plate of thickness 6.0 mm with nominal yield stress of 240 MPa. The ultimate strength and performance of the compression members undergoing nonlinear interaction between local and overall buckling were investigated experimentally and theoretically. The compression tests indicated that the interaction between local and overall buckling had a significant negative effect on the ultimate strength of the thin-walled welded steel section columns. The Direct Strength Method (DSM), which was newly developed and adopted as an alternative to the effective width method for the design of cold-formed steel sections recently by NAS (AISI, 2004), was calibrated by using the test results for application to welded steel sections. This paper confirms that the Direct Strength Method can properly predict the ultimate strength of welded section columns when local buckling and flexural buckling occur simultaneously or nearly simultaneously.     

冷弯薄壁型钢双肢拼合构件轴压承载力研究

目前我国相关规范对冷弯薄壁型钢组合截面构件的承载力设计方法比较粗略。基于已有的卷边槽形截面构件和由其组成的组合箱形截面构件的轴心受压承载力试验研究结果,通过有限元模拟和理论分析研究了此类构件拼合前后的受力性能的差异。分析了安装误差和连接件间距对拼合构件承载力的影响。提出了针对组合箱形和工字形截面构件的轴心受压承载力设计方法。研究表明,组合箱形截面构件的整体屈曲和畸变屈曲承载力较单肢截面构件有一定提高,而组合工字形截面构件仅整体屈曲承载力有一定提高。设计承载力与试验结果的比较表明,所提出的建议设计方法基本合理,可为相关规范的编制提供参考。