The influence of eccentricity at intersections of truss members on the load carrying capacity of the truss joint is presented in the paper. The research truss elements were designed as cold-formed open cross section. Analytical calculations, numerical analysis and experimental research were conducted to reveal how the eccentricity affects the effort of material in the joint area. The results of analysis and investigations are compared and discussed. The main achievement of the tests carried out is statement that slender plane members of the compression chords are safe compared with the results of analytical calculations
This paper presents an experimental study on the behaviour of cold formed steel truss connections. E...
The paper presents fundamental information about experimental and theoretic-numerical research to de...
The establishment of large space systems in the Earth's orbit requires the development of new constr...
The influence of eccentricity at intersections of truss members on the load carrying capacity of the...
The paper presents studies concerning the load-bearing capacity of truss joints with a positive ecce...
In this thesis an investigation into the buckling behaviour of steel trusses with eccentric joints i...
The load-carrying capacity of a K-type joint inside a floor truss is studied both experimentally and...
Tension members consisting of single and double angles, single channels and similar sections are fre...
Today space trusses are designed using linear elastic theory, and the load carrying capacity of the ...
This thesis deals with the behaviour and design of triangular trusses fabricated from Hollow Structu...
The study assesses the load capacity of the K-joint of flat steel trusses made from hollow sections....
This paper studies the applicability of the strain-limit criterion in the Eurocode 3 to defining the...
Behaviour of the inverted triangular truss, which is widely used as a bridge girder, was investigate...
A ten-metre span, simply-supported, overlap-jointed, rectangular hollow section (RHS) Warren truss w...
The designer of lattice trusses has been traditionally encouraged to avoid extra joint bending momen...
This paper presents an experimental study on the behaviour of cold formed steel truss connections. E...
The paper presents fundamental information about experimental and theoretic-numerical research to de...
The establishment of large space systems in the Earth's orbit requires the development of new constr...
The influence of eccentricity at intersections of truss members on the load carrying capacity of the...
The paper presents studies concerning the load-bearing capacity of truss joints with a positive ecce...
In this thesis an investigation into the buckling behaviour of steel trusses with eccentric joints i...
The load-carrying capacity of a K-type joint inside a floor truss is studied both experimentally and...
Tension members consisting of single and double angles, single channels and similar sections are fre...
Today space trusses are designed using linear elastic theory, and the load carrying capacity of the ...
This thesis deals with the behaviour and design of triangular trusses fabricated from Hollow Structu...
The study assesses the load capacity of the K-joint of flat steel trusses made from hollow sections....
This paper studies the applicability of the strain-limit criterion in the Eurocode 3 to defining the...
Behaviour of the inverted triangular truss, which is widely used as a bridge girder, was investigate...
A ten-metre span, simply-supported, overlap-jointed, rectangular hollow section (RHS) Warren truss w...
The designer of lattice trusses has been traditionally encouraged to avoid extra joint bending momen...
This paper presents an experimental study on the behaviour of cold formed steel truss connections. E...
The paper presents fundamental information about experimental and theoretic-numerical research to de...
The establishment of large space systems in the Earth's orbit requires the development of new constr...