Docsity
Docsity

Prepare for your exams
Prepare for your exams

Study with the several resources on Docsity


Earn points to download
Earn points to download

Earn points by helping other students or get them with a premium plan


Guidelines and tips
Guidelines and tips

List of symbols, Schemes and Mind Maps of Design

effective length. Bt,Rd design resistance of bolt in tension. C0, C1 constant values. Ce, CT, CX, CK efficiency parameter. Cf,d friction coefficient ...

Typology: Schemes and Mind Maps

2022/2023

Uploaded on 02/28/2023

ekassh
ekassh 🇺🇸

4.7

(23)

274 documents

1 / 6

Toggle sidebar

Related documents


Partial preview of the text

Download List of symbols and more Schemes and Mind Maps Design in PDF only on Docsity! 128 List of symbols a throat thickness of fillet weld a1 effective length of the foundation, length of the base plate ac height of the column cross-section ah size of the anchor head b width of angle leg, width of the base plate b0, b1, bw width, effective width of the foundation bb width of beam flange bc width of the column cross-section, of column flange beff effective width bhaz width of heat affected zone bp width of end plate c effective width of the flexible base plate c∅ required concrete cover for reinforcement d nominal diameter of the bolt d0 diameter of the bolt hole d0, d1, d2 diameter dh diameter of anchor head e eccentricity, distance from bolt to edge of T-stub, from edge of the angle e, ex, ea, eb bolt distances e0 eccentricity of the joint e1, e2 bolt end distance, in force direction, perpendicular to force direction ex distance from bolt to edge of end plate fa characteristic strength for local capacity in tension and compression fa,haz characteristic strength of heat affected zone fcd design value of compressive cylinder strength of concrete fcd = fck / γc fcd,g design value of compressive cylinder strength of grout fck characteristic value of concrete compressive cylinder strength fj concrete bearing strength fo characteristic strength for bending and yielding in tension and compression fu ultimate strength fub ultimate strength of the bolt fv characteristic shear strength fv,haz characteristic shear strength of heat affected zone fvw,d design shear resistance of the fillet weld per unit length fw characteristic strength of the weld metal fy yield stress of steel fya average yield strength fyb yield stress of the bolt fyc yield stress of column g length of the gap g1 leg length of fillet weld h, h0, h1 height, height of concrete foundation hc height of column cross section hef length of anchor embedded in the concrete k stiffness coefficient kc total stiffness coefficient of the compression zone keff total stiffness coefficient of one bolt row in tension keq total stiffness coefficient the tension zone ki stiffness of component i kj stress concentration factor kθ reduction factor based on material temperature 129 m, mx distance from the bolt centre to the plate m1, m2 distances from bolt to web of T-stub mpl,Rd plastic bending moment resistance of the base plate per unit length mx distance from bolt to beam flange n distance from bolt centre to contact with the foundation p bolt pitch p1, p2 bolt pitch; in force direction, perpendicular to force direction r lever arm rc fillet radius of column re theoretical resistance obtained from the design model rt experimentally found resistance t thickness t0, t1, t2, tw thickness te effective thickness of partial penetration butt weld tf thickness of flange tfb thickness of beam flange tfc thickness of column flange tg thickness of grout th thickness of anchor head tp thickness of plate thickness, of end plate ttc thickness of column flange tw thickness of the column web twa thickness of the washer twc thickness of column web w1, w2 distance between bolts x, y, z axes z lever arm zc lever arm of compression zone zc,b lever arm of compression zone at bottom of the joint zc,t lever arm of compression zone at top of the joint zeq equivalent lever arm zt lever arm of tension zone A area, surface area of the member per unit length A0 area Ab total area of bolt, unthreaded part Ac area of the column Aeff effective area; of the flexible base plate, of the cross-section Ag area of the gross section Ah bearing area of the bolt head Anet net area As net area of the bolt, in thread Av shear area Be effective length Bt,Rd design resistance of bolt in tension C0, C1 constant values Ce, CT, CX, CK efficiency parameter Cf,d friction coefficient 132 δt,c deformation of components in compression zone at top of the joint δCd deformation capacity δt deformation of components in tension zone ∆θ temperature interval ∆t time interval ε strain φ joint rotation φpl plastic rotation capacity φp available plastic rotation γ *partial safety factor γΜ *partial safety factor for the resistance γΜ,fi *partial safety factor for fire γM0 *partial safety factor for steel γΜb *partial safety factor of bolted connections γMw *partial safety factor for weld γΜs *partial safety factor of slip resistance γΜs,ser *partial safety factor of slip resistance at serviceability γΜ2 *partial safety factor of net section at bolt holes θ temperature θ0 temperature of the lower beam flange at mid span θ1, θ2, θi angle between diagonal and the chord σ normal stress σ// normal stress parallel to the axis of the weld σ⊥ normal stress perpendicular to the axis of the weld τ shear stress τ// shear stress (in the critical plane of the throat) parallel to the weld axis τ⊥ shear stress (in the critical plane of the weld) perpendicular to the weld axis η stiffness modification coefficient λ1, λ2 dimensions of the T-stub λ relative slenderness µ0, degree of utilization µ stiffness ratio ρhaz heat affected zone (HAZ) softening factor ψ shape factor * in prEN 1993-1-8: 2003 are the partial safety factors for prediction of the resistance simplified: γΜ0 partial safety factor of steel γΜ1 partial safety factor of stability γΜ2 partial safety factor of connectors (bolts, rivers, pins, welds, weld, plates in bearing) γΜ3 partial safety factor of hybrid connections, or under fatigue loading γM4 partial safety factor of an injection bolt γΜ5 partial safety factor of joints in hollow section lattice girder γΜ6,ser partial safety factor of pins at serviceability limit state γM7 partial safety factor of high strength bolts 133 Indexes 20ºC ambient temperature a structural steel b bearing; bolt c calculation cr critical d design value e elastic E Young’s modulus f failure, furnace fi fire design HAZ Heat Affected Zone i component j joint m member max maximum min minimum pl plastic Rd design resistance Sd design loading t time, duration on fire exposure ten, t tension v shear w weld y yield