Share

Performance of Centre-sheathed Cold-formed Steel Framed Shear Walls Phase 2

2019
Download Performance of Centre-sheathed Cold-formed Steel Framed Shear Walls Phase 2 PDF Online Free

Author :
Release : 2019
Genre :
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Performance of Centre-sheathed Cold-formed Steel Framed Shear Walls Phase 2 by : Jia Cheng Wu

Download or read book Performance of Centre-sheathed Cold-formed Steel Framed Shear Walls Phase 2 written by Jia Cheng Wu. This book was released on 2019. Available in PDF, EPUB and Kindle. Book excerpt: "To enter into the construction market for mid-rise buildings, e.g. 5 to 8 storeys, the cold-formed steel (CFS) industry requires a solution to address the need to resist higher seismic shear forces. The proven performance of steel-sheathed shear walls is required to compete with hot-rolled steel lateral framing shear wall systems; i.e. all-steel shear wall configurations capable of carrying lateral loads in excess of 60 kN/m (4170 lb/ft). The American Iron and Steel Institute (AISI) developed a design standard for cold-formed steel lateral framing systems, i.e. the AISI S400-15. This standard contains design information for shear walls with shear resistance values up to 30 kN/m (2085 lb/ft). Various solutions exist to increase the shear resistance of a CFS framed shear wall to a level appropriate for mid-rise buildings. For example, in shear walls with sheathing placed on both sides of the wall, torsional loading on the framing members was avoided, and hence the shear resistance was significantly increased. However, the ductility of the walls was not improved compared to previously run tests due to the sheathing pulling over the screw fasteners.A configuration in which the sheathing is placed at the mid-line of the framing, denoted the “centre-sheathed” shear wall, was recently developed through a laboratory test program. These walls were configured to centrally confine the sheathing within the framing, which resulted in the removal of torsional forces on the chord studs and provided for a substantial increase in both shear resistance and ductility in comparison with walls having external sheathing on both sides. The initial test walls proved to have higher shear resistance, i.e. over four times that currently found in the AISI S400-15, and could maintain this resistance to drifts exceeding 6%. However, the high shear forces posed difficulties in designing the perimeter framing members and attachments to the foundation given that the structure is composed of CFS with a maximum thickness of 2.5 mm. This second laboratory-based study was conducted to configure centre-sheathed walls to attain intermediate shear resistances but maintain the ability to carry load at high drift levels. In addition, tests were carried out on the bare frame structure to identify the added shear capacity provided by the specially detailed CFS perimeter frame. Further, connection tests were completed to address the need to develop bearing design equations for the double shear 3-ply screw connections that connect the sheathing to the frame, which is not currently addressed in any design standard on cold-formed steel"--

Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings

2018
Download Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings PDF Online Free

Author :
Release : 2018
Genre :
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings by : Veronica Santos

Download or read book Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings written by Veronica Santos. This book was released on 2018. Available in PDF, EPUB and Kindle. Book excerpt: "The use of cold-formed steel (CFS) for seismic force-resisting systems (SFRS), including shear walls, has increased throughout the years. However, the design provisions for CFS sheathed and framed shear walls available in the North American CFS standards (AISI S400 and AISI S240) are limited by the shear walls' sheathing and framing thicknesses. Design guidelines for CFS sheathed and framed shear walls for the purpose of mid-rise construction (up to 5 storeys) are still absent from the standards. The main objective of this research program was to develop a design procedure for CFS sheathed and framed shear walls to achieve higher capacity and ductility to resist the higher forces experienced in mid-rise construction. The developed design procedure is proposed to be included in the provisions of the AISI S240 Standard and AISI S400 Standard.The design procedure was developed by determining the shear strength of full-scale shear wall specimens built and tested at McGill University under monotonic and cyclic loading protocols. A total of 31 specimens, with varying building parameters, were constructed using thicker sheathing and framing members than what is currently available for design. The specimens were built using two new shear wall configurations (double-sheathed and centre-sheathed) to address out-of-plane forces experienced by shear walls tested in previous research programs.The centre-sheathed shear wall configuration, with a confined and concentrically placed sheathing panel, reached a shear resistance four times higher than the design values tabulated in the current standards. The ductility of these CFS shear walls was also significantly improved. A preliminary equation-based nominal shear strength prediction method has been developed for the centre-sheathed shear walls; the method reflects the shear wall's different configuration and superior behaviour. Following the test data analysis, preliminary design parameters for Limit States Design (LSD) used in Canada and for Load and Resistance Factor Design (LRFD) used in the USA and Mexico were determined, including the load resistance factor, f, and the factor of safety. In addition, capacity based design parameters were determined for seismic design in Canada. These parameters included the "test-based" seismic performance factors, Rd and Ro, which were found to be 2.8 and 1.5 respectively. The superior performance of the centre-sheathed configuration showed its promising potential as a new design option for higher capacity CFS shear walls. However, before a potential implementation into mid-rise construction, further research is needed in order for a complete design procedure to be developed. " --

Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings

2018
Download Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings PDF Online Free

Author :
Release : 2018
Genre :
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings by : Vincent Brière

Download or read book Higher Capacity Cold-formed Steel Sheathed and Framed Shear Walls for Mid-rise Buildings written by Vincent Brière. This book was released on 2018. Available in PDF, EPUB and Kindle. Book excerpt: "Despite the increase in the use of cold-formed steel (CFS) in mid-rise construction (up to 5 storeys), the North American cold-formed steel standards AISI S400 and S240 do not provide a standard design procedure for CFS sheathed and framed shear walls for use in such constructions. The main objective of this research was to develop a design procedure for CFS sheathed and framed shear walls to achieve higher strength and ductility and resist the larger forces expected in mid-rise construction. The design procedure proposed for inclusion in the AISI S400 and S240 standards.Full-scale experiments have been performed using a shear wall testing frame at McGill University where a total of 31 specimens were tested monotonically and / or cyclically. These specimens were constructed with thicker sheathing and framing members not currently available for design, using two innovative building configurations (double-sheathed and centre-sheathed) to eliminate the effects of eccentric sheathing placement and take full advantage of bearing failure in the sheathing.The specimens were built with varying construction parameters (material thickness, screw size and screw spacing) and the test data was analysed using the Equivalent Energy Elastic-Plastic (EEEP) method. The configuration using a single concentric sheathing placement (centre-sheathed configuration) reached shear strengths nearly four times higher than what is listed in the current standards. Further, the walls' ductility was substantially improved (up to 8% drift), giving this design a strong potential to be used in mid-rise construction. A preliminary design method was introduced for this configuration, taking into consideration the different behaviour from these shear walls. A preliminary Limit States Design procedure for Canada (LSD) and the USA and Mexico (LRFD) was determined based on the test results. Resistance factors and overstrength values were also provided. The "test-based" ductility-related and overstrength-related seismic force modification factors for Canada (Rd and Ro) obtained the values of 2.8 and 1.5. This promising centre-sheathed configuration requires further research in order to advance towards a definitive design method for the use of CFS framed and sheathed shear walls in mid-rise construction." --

Performance of Cold-formed Steel-framed Shear Walls

2006 Steel, Structural
Download Performance of Cold-formed Steel-framed Shear Walls PDF Online Free

Author :
Release : 2006
Genre : Steel, Structural
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Performance of Cold-formed Steel-framed Shear Walls by : Kelly A. Morgan

Download or read book Performance of Cold-formed Steel-framed Shear Walls written by Kelly A. Morgan. This book was released on 2006. Available in PDF, EPUB and Kindle. Book excerpt:

Innovative Cold-Formed Steel Shear Walls with Corrugated Steel Sheathing

2016 Shear walls
Download Innovative Cold-Formed Steel Shear Walls with Corrugated Steel Sheathing PDF Online Free

Author :
Release : 2016
Genre : Shear walls
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Innovative Cold-Formed Steel Shear Walls with Corrugated Steel Sheathing by : Mahsa Mahdavian

Download or read book Innovative Cold-Formed Steel Shear Walls with Corrugated Steel Sheathing written by Mahsa Mahdavian. This book was released on 2016. Available in PDF, EPUB and Kindle. Book excerpt: This thesis presents two major sections with the objective of introducing a new cold-formed steel (CFS) shear wall system with corrugated steel sheathings. The work shown herein includes the development of an optimal shear wall system as well as an optimal slit configuration for the CFS corrugated sheathings which result in a CFS shear wall with high ductility, high strength, high stiffness and overall high performance. The conclusion is based on the results of 36 full-scale shear wall tests performed in the structural laboratory of the University of North Texas. A variety of shear walls were the subject of this research to make further discussions and conclusions based on different sheathing materials, slit configurations, wall configurations, sheathing connection methods, wall dimensions, shear wall member thicknesses, and etc. The walls were subject to cyclic (CUREE protocol) lateral loading to study their deformations and structural performances. The optimal sit configuration for CFS shear walls with corrugated steel sheathings was found to be 12×2 in. vertical slits in 6 rows. The failure mode observed in this shear wall system was the connection failure between the sheathing and the framing members. Also, most of the shear walls tested displayed local buckling of the chord framing members located above the hold-down locations. The second section includes details of developing a Finite Element Model (FEM) in ABAQUS software to analyze the lateral response of the new shear wall systems. Different modeling techniques were used to define each element of the CFS shear wall and are reported herein. Material properties from coupon test results are applied. Connection tests are performed to define pinching paths to model fasteners with hysteretic user-defined elements. Element interactions, boundary conditions and loading applications are consistent with full scale tests. CFS members and corrugated sheathings are modeled with shell elements, sheathing-to-frame fasteners are modeled using nonlinear springs (SPRING2 elements) for monotonic models and a general user defined element (user subroutine UEL) for cyclic models. Hold-downs are defined by boundary conditions. A total of three models were developed and validated by comparing ABAQUS results to full scale test results.

You may also like...