2001 Research Reports
Books and Book Chapters - Journal Papers - Conference Papers
Higher Degree Theses
Click on the title of the research report to get the abstract and the download link for the PDF version of the report (if it is available)
Lip H. Teh and Gregory J. Hancock, Strength of Flare-Bevel and Flare-Vee Welded Connections in G450 Sheet Steels, Research Report No R806, April 2001.
Changxin Wang & John P Carter, Deep Penetration of Strip and Circular Footings into Layered Clays, Research Report No. R807, May 2001.
Hossein A. Taiebat and John P. Carter, Three Dimensional Non-Conforming Elements, Research Report No R808, August 2001.
N. S. Trahair, Moment Capacities of Steel Angle Sections, Research Report No R809, November 2001.
N. S. Trahair, Bending, Shear and Torsion Capacities of Steel Angle Sections, Research Report No R810, November 2001.
Kim JR Rasmussen, Full-range Stress-strain Curves for Stainless Steel Alloys, Research Report No R811, November 2001
Lip H. Teh and
Gregory J. Hancock
Strength of Fillet and Flare-Bevel Welded Connections in 2.5-mm Duragal
Angle Sections
Research Report No R805, April 2001.
This report presents the laboratory test results on fillet and flare-bevel welded truss connections in DuraGal® angle sections. The arc welded connections between the DuraGal® sections and 10-mm hot-rolled steel plates were fabricated using the gas metal arc welding (GMAW) process. It was found that failures of the fillet and the flare-bevel welds occurred in both the weld metal and the DuraGal® angle section. The ultimate test loads of the connection specimens were compared with their predicted failure loads and their nominal capacities computed using the equations specified in the cold-formed steel standard AS/NZS 4600:1996 and the steel structures code AS 4100-1998, respectively. It is concluded through a reliability analysis that Clauses 5.2.3.2(a) and 5.2.6.2(3) of AS/NZS 4600 may be used to design fillet and flare-bevel welded connections in 2.5-mm DuraGal® angle sections, respectively. The use of Clause 9.7.3.10 of AS 4100 to compute the nominal capacities of the fillet and the flare-bevel welded connections in 2.5-mm DuraGal® angle sections fabricated in the present work was found to be conservative.
Keywords: angle section, cold-formed steel, design standards, fillet welds, flare-bevel welds, load and resistance factor design, sheet metal, welded connections
Full Report in PDF (111 kB) - Click here
Lip H. Teh and
Gregory J. Hancock
Strength of Flare-Bevel and Flare-Vee Welded Connections in G450 Sheet
Steels
Research Report No R806, April 2001.
This paper investigates the reliability of the existing design equations specified in AS/NZS 4600:1996 for flare-bevel and flare-vee welded connections in cold-reduced high-strength G450 sheet steels. The existing design equations are adapted from the AWS D1.3 Structural Welding Code, which is based on the testing results on flare-bevel welded connections only in mainly mild sheet steels. In the present work, flare-bevel and flare-vee welded connections in 1.5-mm and 3.0-mm sheet steels were fabricated using different GMAW procedures and tested to failure. All the transverse flare-bevel welded connections failed in the HAZs of the parent material. The longitudinal flare-bevel and flare-vee welded connections in 1.5-mm sheet steel also failed in the HAZs of the parent material, while those in 3.0-mm sheet steel failed in the weld metal. Nevertheless, it was found that the existing design rules may be applied conservatively to transverse and longitudinal flare-bevel welded connections in G450 sheet steels provided the weld quality is comparable to that produced in-house. On the other hand, it was found that the existing equations overestimate the capacity of flare-vee welded connections in G450 sheet steels. Ideally, flare-bevel and flare-vee welded connections in 3.0-mm G450 sheet steel are design in accordance with AS 4100. A survey of arc welded connections produced by industry fabricators suggested that the quality of in-house welded connections is unlikely to be matched in practice.
Keywords: cold-formed steel, design standards, flare-bevel welds, flare-vee welds, load and resistance factor design, sheet metal, welded connections
Full Report in PDF (288 kB) - Click here
Changxin Wang &
John P Carter
Deep Penetration of Strip and Circular Footings into Layered Clays
Research Report No. R807, May 2001.
The bearing behaviour of footings on layered soils has received significant attention from researchers, but most of the reported studies are limited to footings resting on the surface of the soil and are based on the assumption of small deformations. In this paper, large deformation analyses, simulating the penetration of strip and circular footings into two-layered clays, are described. The upper layer was assumed to be stronger than the lower layer. The importance of large deformation analysis for this problem is illustrated by comparing the small and large deformation predictions. The bearing behaviour is discussed and the undrained bearing capacity factors are given for various cases involving different layer thicknesses and different ratios of the undrained shear strengths of the two clay layers. The development of the plastic zones and the effect of soil self-weight on the bearing capacity are also discussed in the report.
Keywords: large deformation, penetration, strip footing, circular footing, layered clays, bearing capacity
Full Report in PDF (502 kB) - Click here
Hossein A. Taiebat
and John P. Carter
Three Dimensional Non-Conforming Elements
Research Report No R808, August 2001.
The performance of three-dimensional hexahedral elements has been compared in this study. The standard quadratic 20-noded hexahedral element has shown robust performance in many applications, however, it has a high number of nodes, which necessitates relatively large computational time. The standard linear 8-noded hexahedral element has the least number of nodes in elements of this geometric type, but it is unable to model adequately a state of pure bending. The 8-noded element can be modified by including non-conforming displacements to improve its efficiency. The modified hexahedral element has been adopted in finite element analyses and its excellent performance in terms of accuracy and time efficiency is described.
Keywords: Non-conforming elements, 3-D finite element analysis
Full Report in PDF (111 kB) - Click here
N. S. Trahair
Moment Capacities of Steel Angle Sections
Research Report No R809, November 2001.
Steel angle sections are commonly used as
beams to support distributed loads which cause biaxial bending and torsion.
However, the recommendations of many design codes are unnecessarily
conservative when applied to the bending of angle section beams, or are of
limited application, or fail to consider some effects which are thought to
be important.
In this paper, consideration is given to the first-order elastic analysis of
the biaxial bending of angle section beams including the effects of elastic
restraints, and proposals are developed for the section moment capacities of
angle sections under biaxial bending which approximate the effects of full
plasticity in compact sections, first yield in semi-compact sections, and
local buckling in slender sections.
Proposals are developed for the bearing, shear, and uniform torsion
capacities of angle section beams in a companion paper.
The proposals in this and the companion paper can be used to design steel
angle section beams which are laterally restrained so that lateral buckling
or second-order effects are unimportant.
Keywords: angles, beams, bending, design, local buckling, moments, plasticity, section capacity, steel, yielding.
Full Report in PDF (355 kB) - Click here
N. S. Trahair
Bending, Shear and Torsion Capacities of Steel Angle Sections
Research Report No R810, November 2001.
Steel angle sections are commonly used as
beams to support distributed loads which cause biaxial bending and torsion.
However, many design codes do not have any design rules for torsion, while
some recommendations are unnecessarily conservative, or are of limited
application, or fail to consider some effects which are thought to be
important. In this paper, proposals are developed for the section capacities
of angle sections under bearing, shear, and uniform torsion.
In a companion paper, consideration is given to the first-order elastic
analysis of the biaxial bending of angle section beams, including the
effects of restraints, and proposals are developed for the section moment
capacities of angle sections under biaxial bending.
The proposals in this and the companion paper can be used to design steel
angle section beams which are laterally restrained so that lateral buckling
or second-order effects are unimportant.
Keywords: angles, beams, bearing, buckling, design, plasticity, section capacity, shear, steel, torsion, yielding.
Full Report in PDF (216 kB) - Click here
Kim JR Rasmussen
Full-range Stress-strain Curves for Stainless Steel Alloys, Research Report
No R811
November 2001
The report develops an expression for the stress-strain curves for stainless steel alloys which is valid over the full strain range. The expression is useful for the design and numerical modelling of stainless steel members and elements which reach stresses beyond the 0.2% proof stress in their ultimate limit state. In this stress range, current stress-strain curves based on the Ramberg-Osgood expression become seriously inaccurate principally because they are extrapolations of curve fits to stresses lower than the 0.2% proof stress. The extrapolation becomes particularly inaccurate for alloys with pronounced strain hardening.
The report also develops expressions for
determining the ultimate tensile strength (σu) and strain (εu),
it is possible to construct the entire stress-strain curve from the Ramberg-Osgood
parameters (E0, σ0.2, n).
Keywords: Stainless steel, stress-strain curves, Ramberg-Osgood curve, tests.