Your email was sent successfully. Check your inbox.

An error occurred while sending the email. Please try again.

Proceed reservation?

Export
Filter
Type of Medium
Language
Region
Years
Person/Organisation
Subjects(RVK)
  • 1
    Online Resource
    Online Resource
    Berlin, Germany :Ernst & Sohn, a Wiley Brand,
    UID:
    almafu_9959327434202883
    Format: 1 online resource (352 pages)
    ISBN: 9783433606063 , 3433606064 , 9783433606056 , 3433606056 , 9781523123452 , 1523123451
    Content: This book introduces all the aspects needed for the safe and economic design and analysis of connections using bolted joints in steel structures. This is not treated according to any specific standard but making comparison among the different norms and methodologies used in the engineering practice, e.g. Eurocode, AISC, DIN, BS. Several examples are solved and illustrated in detail, giving the reader all the tools necessary to tackle also complex connection design problems.
    Note: 4:10 Truss joints; 4.10.1 connecting plate; 4:11 Connection leaning on a column; 4:12 Rigid end plate; 4:13 Splice; 4.13.1 calculation model and limit states; 4.13.2 rotation capacity, structural integrity. , Preface; Abbreviations; Introduction; 1 Structural design basic principles relative to joints in steel structures; 1.1 Hinges and joints capable of resisting a bending moment; 1.2 The plastic hinge; 2 Basic concepts for the analysis of connections; 2.1 Connection types; 2.2 Outline of design and actions; 2.3 Forces distribute proportionally to stiffness; 2.4 Ductility; 2.5 Load path; 2.6 Ignorance of the path of the forces; 2.7 Constraints; 2.8 Methods to define the ultimate limit states in the joints; 2.9 Resistance of bolts; 2.10 Yield line; 2.11 Eccentric connections; 2.12 Economics, repetition, simplicity; 2.13 Man-hours. , Ductility; 4.13.3 column splice example according to is800; 4:14 Brace joints; 4.14.1 american methods: ufm and kiss; 4.14.2 practical advice; 4.14.3 bracing friction connection example according to csa s16; 4.15 Chair support; 4.16 Connections for purlins; 4:17 Tubular welded joints; 4:18 Joints in steel-concrete composite structures; 4:19 joints with welding and bolting working in parallel; 4:20 Expansion joints; 4:21 Perfect hinges; 4:22 Sliding details; 4:23 Rivets; 4:24 Joints for seismic applications; 4.24.1 rigid end plate; 4.24.2 braces; 4.24.3 eccentric braces with "link"; 4.24.4 base plate; 5 selection of the right connection; 5.1 Priority to those who produce and erect; 5.2 Considerations about the pros and cons of the various connection types; 5.3 Organization of the workshop; 5.3.1 plates or sheets; 5.3.2 concept of "picking up a piece"; 5.4 Cultural elements; 6 tips. , Material weight; 2.14 Diffusion angles; 2.16 Transfer forces; 2.15 Tensioning of bolts and resistance; 2.17 Behavior of a bolted joint shear; 2.18 Behavior of a bolted joint in traction; 3 The limit states for the components of the connection; 3.1 Capacity of deformation (rotation) and relative stiffness; 3.2 Inelastic deformations at the bolt hole; 3.3 Bolt shear rupture; 3.4 Bolt tensile rupture; 3.5 Breaking bolt with a combination of tension and shear; 3.6 Resistance to friction bolts; 3.7 Bolt bearing and tearing; 3.8 Block shear (or block tearing); 3.9 Weld rupture; 3:10T-stub. , Notes and practices; 6.1 Project standardization; 6.2 Hole dimensions; 6.3 Installation; 6.4 Maneuvering; 6.5 Spacing and distances between bolts; 6.6 Root radius overlap; 6.7 Notches; 6.8 Pretensioning; 6.9 Washers; 6:10 Dimensions for screws, nuts and washers; 6.11 Reusing bolts; 6.12 Bolts classes; 6:13 Shims; 6:14 Galvanization; 6.15 Other treatments after manufacturing; 6:16 Camber; 6:17 Grouting base plates; 6.18 Graphical representation of joints and bolts; 6:19 Field welding; 6:20 Special couplings (inclined); 7 Sketches of possible joint applications; Bibliography; Index of tables; Index. , With and without prying effect; 3.11 Punching shear; 3.12 Equivalent systems in parallel; 3:13 Web panel shear; 3.14 Transversal compression over web; 3:15 Transversal tension over column web; 3.16 Web and flange compression; 3:17 Tension on beam web; 3.18 Plate resistance; 3.19 Notched profiles; 3.20 Local capacity; 3:22 Structural integrity; 3.23 Ductility; 3:24 Laminated plate tearing; 3.25 Other states limit in connection with cold formed profiles or sheets; 3.26 Fatigue; 3:27 Limit states for other connected related materials; 4 types and analysis with calculation examples; 4.1 Common symbols; 4.2 Eccentric bolted joint in the plane of contact; 4.3 Eccentric bolted connection perpendicular to the contact plane gravity method; 4.4 Base plate with cast anchor bolts; 4.5 chemical or mechanical anchors; 4.6 Fin plate; 4.7 Double bolted plate; 4.8 Flexible end plate; 4.9 Clip angles.
    Additional Edition: Print version: Boracchini, Alfredo. Design and Analysis of Connections in Steel Structures. Berlin : Wiley-VCH Verlag GmbH, 2016 ISBN 9783433031223
    Language: English
    Keywords: Electronic books. ; Electronic books. ; Electronic books.
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
  • 2
    UID:
    b3kat_BV045125286
    Format: xxiv, 356 Seiten , Illustrationen, Diagramme
    ISBN: 9783433031223 , 3433031223
    Additional Edition: Erscheint auch als Online-Ausgabe, PDF ISBN 978-3-433-60606-3
    Additional Edition: Erscheint auch als Online-Ausgabe, EPUB ISBN 978-3-433-60607-0
    Additional Edition: Erscheint auch als Online-Ausgabe, oBook ISBN 978-3-433-60605-6
    Language: English
    Subjects: Engineering
    RVK:
    Keywords: Stahlbau ; Stahlkonstruktion ; Tragwerk ; Verbindungstechnik ; Schraubenverbindung ; Softwaresystem
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
  • 3
    Online Resource
    Online Resource
    Berlin, Germany :Ernst & Sohn, a Wiley Brand,
    UID:
    edocfu_9959327434202883
    Format: 1 online resource (352 pages)
    ISBN: 9783433606063 , 3433606064 , 9783433606056 , 3433606056 , 9781523123452 , 1523123451
    Content: This book introduces all the aspects needed for the safe and economic design and analysis of connections using bolted joints in steel structures. This is not treated according to any specific standard but making comparison among the different norms and methodologies used in the engineering practice, e.g. Eurocode, AISC, DIN, BS. Several examples are solved and illustrated in detail, giving the reader all the tools necessary to tackle also complex connection design problems.
    Note: 4:10 Truss joints; 4.10.1 connecting plate; 4:11 Connection leaning on a column; 4:12 Rigid end plate; 4:13 Splice; 4.13.1 calculation model and limit states; 4.13.2 rotation capacity, structural integrity. , Preface; Abbreviations; Introduction; 1 Structural design basic principles relative to joints in steel structures; 1.1 Hinges and joints capable of resisting a bending moment; 1.2 The plastic hinge; 2 Basic concepts for the analysis of connections; 2.1 Connection types; 2.2 Outline of design and actions; 2.3 Forces distribute proportionally to stiffness; 2.4 Ductility; 2.5 Load path; 2.6 Ignorance of the path of the forces; 2.7 Constraints; 2.8 Methods to define the ultimate limit states in the joints; 2.9 Resistance of bolts; 2.10 Yield line; 2.11 Eccentric connections; 2.12 Economics, repetition, simplicity; 2.13 Man-hours. , Ductility; 4.13.3 column splice example according to is800; 4:14 Brace joints; 4.14.1 american methods: ufm and kiss; 4.14.2 practical advice; 4.14.3 bracing friction connection example according to csa s16; 4.15 Chair support; 4.16 Connections for purlins; 4:17 Tubular welded joints; 4:18 Joints in steel-concrete composite structures; 4:19 joints with welding and bolting working in parallel; 4:20 Expansion joints; 4:21 Perfect hinges; 4:22 Sliding details; 4:23 Rivets; 4:24 Joints for seismic applications; 4.24.1 rigid end plate; 4.24.2 braces; 4.24.3 eccentric braces with "link"; 4.24.4 base plate; 5 selection of the right connection; 5.1 Priority to those who produce and erect; 5.2 Considerations about the pros and cons of the various connection types; 5.3 Organization of the workshop; 5.3.1 plates or sheets; 5.3.2 concept of "picking up a piece"; 5.4 Cultural elements; 6 tips. , Material weight; 2.14 Diffusion angles; 2.16 Transfer forces; 2.15 Tensioning of bolts and resistance; 2.17 Behavior of a bolted joint shear; 2.18 Behavior of a bolted joint in traction; 3 The limit states for the components of the connection; 3.1 Capacity of deformation (rotation) and relative stiffness; 3.2 Inelastic deformations at the bolt hole; 3.3 Bolt shear rupture; 3.4 Bolt tensile rupture; 3.5 Breaking bolt with a combination of tension and shear; 3.6 Resistance to friction bolts; 3.7 Bolt bearing and tearing; 3.8 Block shear (or block tearing); 3.9 Weld rupture; 3:10T-stub. , Notes and practices; 6.1 Project standardization; 6.2 Hole dimensions; 6.3 Installation; 6.4 Maneuvering; 6.5 Spacing and distances between bolts; 6.6 Root radius overlap; 6.7 Notches; 6.8 Pretensioning; 6.9 Washers; 6:10 Dimensions for screws, nuts and washers; 6.11 Reusing bolts; 6.12 Bolts classes; 6:13 Shims; 6:14 Galvanization; 6.15 Other treatments after manufacturing; 6:16 Camber; 6:17 Grouting base plates; 6.18 Graphical representation of joints and bolts; 6:19 Field welding; 6:20 Special couplings (inclined); 7 Sketches of possible joint applications; Bibliography; Index of tables; Index. , With and without prying effect; 3.11 Punching shear; 3.12 Equivalent systems in parallel; 3:13 Web panel shear; 3.14 Transversal compression over web; 3:15 Transversal tension over column web; 3.16 Web and flange compression; 3:17 Tension on beam web; 3.18 Plate resistance; 3.19 Notched profiles; 3.20 Local capacity; 3:22 Structural integrity; 3.23 Ductility; 3:24 Laminated plate tearing; 3.25 Other states limit in connection with cold formed profiles or sheets; 3.26 Fatigue; 3:27 Limit states for other connected related materials; 4 types and analysis with calculation examples; 4.1 Common symbols; 4.2 Eccentric bolted joint in the plane of contact; 4.3 Eccentric bolted connection perpendicular to the contact plane gravity method; 4.4 Base plate with cast anchor bolts; 4.5 chemical or mechanical anchors; 4.6 Fin plate; 4.7 Double bolted plate; 4.8 Flexible end plate; 4.9 Clip angles.
    Additional Edition: Print version: Boracchini, Alfredo. Design and Analysis of Connections in Steel Structures. Berlin : Wiley-VCH Verlag GmbH, 2016 ISBN 9783433031223
    Language: English
    Keywords: Electronic books.
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
  • 4
    Online Resource
    Online Resource
    Berlin, Germany :Ernst & Sohn, a Wiley Brand,
    UID:
    almahu_9948198772802882
    Format: 1 online resource (352 pages)
    ISBN: 9783433606063 , 3433606064 , 9783433606056 , 3433606056 , 9781523123452 , 1523123451
    Content: This book introduces all the aspects needed for the safe and economic design and analysis of connections using bolted joints in steel structures. This is not treated according to any specific standard but making comparison among the different norms and methodologies used in the engineering practice, e.g. Eurocode, AISC, DIN, BS. Several examples are solved and illustrated in detail, giving the reader all the tools necessary to tackle also complex connection design problems.
    Note: 4:10 Truss joints; 4.10.1 connecting plate; 4:11 Connection leaning on a column; 4:12 Rigid end plate; 4:13 Splice; 4.13.1 calculation model and limit states; 4.13.2 rotation capacity, structural integrity. , Preface; Abbreviations; Introduction; 1 Structural design basic principles relative to joints in steel structures; 1.1 Hinges and joints capable of resisting a bending moment; 1.2 The plastic hinge; 2 Basic concepts for the analysis of connections; 2.1 Connection types; 2.2 Outline of design and actions; 2.3 Forces distribute proportionally to stiffness; 2.4 Ductility; 2.5 Load path; 2.6 Ignorance of the path of the forces; 2.7 Constraints; 2.8 Methods to define the ultimate limit states in the joints; 2.9 Resistance of bolts; 2.10 Yield line; 2.11 Eccentric connections; 2.12 Economics, repetition, simplicity; 2.13 Man-hours. , Ductility; 4.13.3 column splice example according to is800; 4:14 Brace joints; 4.14.1 american methods: ufm and kiss; 4.14.2 practical advice; 4.14.3 bracing friction connection example according to csa s16; 4.15 Chair support; 4.16 Connections for purlins; 4:17 Tubular welded joints; 4:18 Joints in steel-concrete composite structures; 4:19 joints with welding and bolting working in parallel; 4:20 Expansion joints; 4:21 Perfect hinges; 4:22 Sliding details; 4:23 Rivets; 4:24 Joints for seismic applications; 4.24.1 rigid end plate; 4.24.2 braces; 4.24.3 eccentric braces with "link"; 4.24.4 base plate; 5 selection of the right connection; 5.1 Priority to those who produce and erect; 5.2 Considerations about the pros and cons of the various connection types; 5.3 Organization of the workshop; 5.3.1 plates or sheets; 5.3.2 concept of "picking up a piece"; 5.4 Cultural elements; 6 tips. , Material weight; 2.14 Diffusion angles; 2.16 Transfer forces; 2.15 Tensioning of bolts and resistance; 2.17 Behavior of a bolted joint shear; 2.18 Behavior of a bolted joint in traction; 3 The limit states for the components of the connection; 3.1 Capacity of deformation (rotation) and relative stiffness; 3.2 Inelastic deformations at the bolt hole; 3.3 Bolt shear rupture; 3.4 Bolt tensile rupture; 3.5 Breaking bolt with a combination of tension and shear; 3.6 Resistance to friction bolts; 3.7 Bolt bearing and tearing; 3.8 Block shear (or block tearing); 3.9 Weld rupture; 3:10T-stub. , Notes and practices; 6.1 Project standardization; 6.2 Hole dimensions; 6.3 Installation; 6.4 Maneuvering; 6.5 Spacing and distances between bolts; 6.6 Root radius overlap; 6.7 Notches; 6.8 Pretensioning; 6.9 Washers; 6:10 Dimensions for screws, nuts and washers; 6.11 Reusing bolts; 6.12 Bolts classes; 6:13 Shims; 6:14 Galvanization; 6.15 Other treatments after manufacturing; 6:16 Camber; 6:17 Grouting base plates; 6.18 Graphical representation of joints and bolts; 6:19 Field welding; 6:20 Special couplings (inclined); 7 Sketches of possible joint applications; Bibliography; Index of tables; Index. , With and without prying effect; 3.11 Punching shear; 3.12 Equivalent systems in parallel; 3:13 Web panel shear; 3.14 Transversal compression over web; 3:15 Transversal tension over column web; 3.16 Web and flange compression; 3:17 Tension on beam web; 3.18 Plate resistance; 3.19 Notched profiles; 3.20 Local capacity; 3:22 Structural integrity; 3.23 Ductility; 3:24 Laminated plate tearing; 3.25 Other states limit in connection with cold formed profiles or sheets; 3.26 Fatigue; 3:27 Limit states for other connected related materials; 4 types and analysis with calculation examples; 4.1 Common symbols; 4.2 Eccentric bolted joint in the plane of contact; 4.3 Eccentric bolted connection perpendicular to the contact plane gravity method; 4.4 Base plate with cast anchor bolts; 4.5 chemical or mechanical anchors; 4.6 Fin plate; 4.7 Double bolted plate; 4.8 Flexible end plate; 4.9 Clip angles.
    Additional Edition: Print version: Boracchini, Alfredo. Design and Analysis of Connections in Steel Structures. Berlin : Wiley-VCH Verlag GmbH, 2016 ISBN 9783433031223
    Language: English
    Keywords: Electronic books.
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
Did you mean 9783433606001?
Did you mean 9783433604069?
Did you mean 9783433606056?
Close ⊗
This website uses cookies and the analysis tool Matomo. Further information can be found on the KOBV privacy pages