Post ductility : metals in architecture and structural engineering.
(eVideo)
Contributors
Published
[San Francisco, California, USA] : Kanopy Streaming, 2014.
Format
eVideo
Physical Desc
1 online resource (1 video file, approximately 60 min.) : digital, .flv file, sound
Status
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Language
English
Notes
General Note
Title from title frames.
Date/Time and Place of Event
Originally produced by Michael Blackwood Productions in 2005.
Description
Filmed in September/October 2009 at the third Columbia Conference on architecture, engineering and materials. Few concepts are as central in structural engineering as the ability of a material to sustain plastic deformation under tensile stress. The standardization of historically known deformation limits or ductile properties in most materials allows architects and engineers to keep the analysis of structure within known parameters of finite element analysis rather than materials science. If the material behavior is known, the statics equations for its organization are predictable. If the new material is new or the organization is unique, naturally, the risk is less clear, but it is rare for architects and engineers in practice to encounter new material performance quotients. If the goal is to avoid fracture, the boundaries are set and the limits of ductility are observed. Post ductility refers to the literal aspects of material behavior -- in the case of metals -- but also to aspects of architectural and urban space that are measured by less verifiable but nonetheless real quotients of stress. These include both aspects of plasticity that are common to architectural discourse for centuries such as concepts of the plastic arts, and also literally up to-the minute entities such as sprawling cities that exceed historic limits of plastic or formal coherence. In both cases it is the reciprocity of tension and compression of space that provides form or gives coherence to form. What does ductility mean today if you seek material or spatial limits; how do you measure limits and to what degree do historically stable measurements of ductility still enable spatial organizations in architecture, in engineering or in cites? Are there spatial innovations in new materials; have we changed the limits of known materials leaving architecture to find its significance in other realms?
System Details
Mode of access: World Wide Web.
Citations
APA Citation, 7th Edition (style guide)
(2014). Post ductility: metals in architecture and structural engineering . Kanopy Streaming.
Chicago / Turabian - Author Date Citation, 17th Edition (style guide)2014. Post Ductility: Metals in Architecture and Structural Engineering. Kanopy Streaming.
Chicago / Turabian - Humanities (Notes and Bibliography) Citation, 17th Edition (style guide)Post Ductility: Metals in Architecture and Structural Engineering Kanopy Streaming, 2014.
MLA Citation, 9th Edition (style guide)Post Ductility: Metals in Architecture and Structural Engineering Kanopy Streaming, 2014.
Note! Citations contain only title, author, edition, publisher, and year published. Citations should be used as a guideline and should be double checked for accuracy. Citation formats are based on standards as of August 2021.
Staff View
Grouped Work ID
8854b962-1114-d3b2-66d5-be256e5a0567-eng
Grouping Information
Grouped Work ID | 8854b962-1114-d3b2-66d5-be256e5a0567-eng |
---|---|
Full title | post ductility metals in architecture and structural engineering |
Author | kanopy |
Grouping Category | movie |
Last Update | 2023-08-10 10:35:22AM |
Last Indexed | 2024-06-15 04:13:11AM |
Marc Record
First Detected | Aug 10, 2023 10:40:21 AM |
---|---|
Last File Modification Time | Aug 10, 2023 10:40:21 AM |
MARC Record
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518 | |a Originally produced by Michael Blackwood Productions in 2005. | ||
520 | |a Filmed in September/October 2009 at the third Columbia Conference on architecture, engineering and materials. Few concepts are as central in structural engineering as the ability of a material to sustain plastic deformation under tensile stress. The standardization of historically known deformation limits or ductile properties in most materials allows architects and engineers to keep the analysis of structure within known parameters of finite element analysis rather than materials science. If the material behavior is known, the statics equations for its organization are predictable. If the new material is new or the organization is unique, naturally, the risk is less clear, but it is rare for architects and engineers in practice to encounter new material performance quotients. If the goal is to avoid fracture, the boundaries are set and the limits of ductility are observed. Post ductility refers to the literal aspects of material behavior -- in the case of metals -- but also to aspects of architectural and urban space that are measured by less verifiable but nonetheless real quotients of stress. These include both aspects of plasticity that are common to architectural discourse for centuries such as concepts of the plastic arts, and also literally up to-the minute entities such as sprawling cities that exceed historic limits of plastic or formal coherence. In both cases it is the reciprocity of tension and compression of space that provides form or gives coherence to form. What does ductility mean today if you seek material or spatial limits; how do you measure limits and to what degree do historically stable measurements of ductility still enable spatial organizations in architecture, in engineering or in cites? Are there spatial innovations in new materials; have we changed the limits of known materials leaving architecture to find its significance in other realms? | ||
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