TEXAS ENGINEERING EXPERIMENT STATION
This award is an outcome of the NSF 09-524 program solicitation "George E. Brown, Jr. Network for Earthquake Engineering Simulation (NEES) Research (NEESR)" competition and includes Texas A&M University in College Station, Texas (lead institution), The University of Texas in Austin, Texas (subaward), Lafayette College in Easton, Pennsylvania (subaward), and Texas A&M University in Galveston, Texas (subaward). This project will utilize the NEES equipment site at the University of Minnesota.
Steel moment frames are widely used for seismic-resistant building construction throughout the United States and in many other parts of the world. Although steel moment frames were studied extensively following the 1994 Northridge, California, earthquake, one critical technical issue remains unsolved: the role of the panel zone in steel moment frame joints (beam to column connections). Recent U.S. building codes have significantly increased the required strength of panel zones in steel moment frames. To satisfy these requirements, column sizes must be increased or doubler plates must be welded to the column, resulting in increased cost, sometimes substantially so. However, there is significant experimental evidence that moment frame joints with weak panel zones show highly ductile performance, and consistently achieve large interstory drift angles under cyclic loading without strength degradation. There is also analytical evidence suggesting excellent overall seismic performance can be achieved by moment frames with weak panel zones. This strongly suggests that current building codes have adopted an incorrect approach to panel zone design, needlessly increasing the cost of construction while potentially degrading seismic performance.
The overall goal of this research is to resolve the question: how much panel zone participation should be permitted in evaluating the inelastic seismic response of a steel moment frame? Despite a number of past studies on this issue, there are sharply conflicting views of how panel zones should be treated in design, both within the research community as well as within the building regulatory community. At the crux of the disagreements are concerns regarding fracture induced by panel zone yielding. There appears to be broad agreement that panel zone yielding is a highly ductile process. However, there is broad disagreement on the role that panel zone yielding plays in joint fracture. To address these concerns will require the fundamental capability to predict fracture at joints with weak panel zones subject to seismic loading. Thus, the intellectual merit and a key objective of this research is to advance the state of the art in predicting cyclic rupture within critical ductile components of steel building structures, and to apply this knowledge to the problem of the panel zone in steel moment frames. To meet these goals, this research project will integrate (1) fundamental studies on cyclic rupture of steel components combined with high resolution finite element simulations of beam-column joints,(2) advanced frame simulation studies, (3) large-scale experimental studies conducted at the NEES equipment at the University of Minnesota, and (4) parametric computational studies on joint performance.
With respect to broader impacts, the knowledge gained from this research is expected to impact design practice and building codes for seismic-resistant steel moment frames. The project team will conduct a professional development program for high school science and mathematics teachers to create and deliver web-based instructional materials to bring concepts of earthquake engineering-related problems into the classroom. Data from this project will be archived and made available to the public through the NEES data repository.
Choose a quarter and click "Go."
| AWARD OVERVIEW |
| Award Number |
0936599 |
Funding Agency |
National Science Foundation |
| Total Award Amount |
$1,226,000 |
Project Location - City |
College Station |
| Award Date |
07/20/2009 |
Project Location - State |
TX |
| Project Status |
More than 50% Completed |
Project Location - Zip |
77843-3136
|
| Jobs Reported |
1.86 |
Congressional District |
17 |
| Project Location - Country |
US |
|
|
Recipient Information
(Grants)
| Recipient Information (Grants) |
|
Recipient Name
|
TEXAS ENGINEERING EXPERIMENT STATION |
| Recipient DUNS Number |
847205572
|
| Recipient Address |
1470 WILLIAM D FITCH PKY |
| Recipient City |
COLLEGE STATION |
| Recipient State |
Texas |
| Recipient Zip |
77845-4645 |
| Recipient Congressional District |
17 |
| Recipient Country |
USA |
Required to Report Top 5
Highly Compensated Officials |
No |
Projects and Jobs Information
| Projects and Jobs Information |
| Project Title |
NEESR-CR: Multi-Scale, Mechanistic Fracture Prediction and Optimal Panel Zone Participation in Steel Moment Frame Buildings |
| Project Status |
More than 50% Completed |
| Final Project Report Submitted |
No |
| Project Activities Description |
Research and Development in the Physical, Engineering, and Life Sciences (except Biotechnology) |
| Quarterly Activities/Project Description |
Education Component
The core membership of the Earthquake Engineering Education Program (EEEP) Design Team was formed, led by the principal investigator (PI) and co-PI of the project. Other members of the design team include an undergraduate and graduate student in engineering, two doctoral students in education and two high school science teachers. An education graduate student assigned to the project during the 2010 spring semester developed preliminary Middle and High School Strand Maps for the EEEP Project that visually displayed conceptual relationships among five strands: 1) Physical Science, 2) Mathematics, 3) Computer Modeling, 4) Engineering and Design and 5) Earthquakes and Plate Tectonics concepts. Refinement of the strand maps will lead to the development of conceptual learning goals for EEEP.
Analytical Component
Competitive array neural systems have been developed to classify data and properly represent complex boundaries demarcating regimes of behavior. Work at Lafayette College has included material modeling in the OpenSees computational environment where neural network (NN) material models were successfully integrated into the OpenSees FEA software. This is the first time a non-equation-based material model has been linked with the OpenSees (according to OpenSees moderators). The research team has been successful at developing and executing full scale dynamic simulations of benchmark structures that are the subject of study.
Experimental Component
The objective of tests on a series of large-scale interior beam-column joints is to collect data on the behavior of beam-column joints designed with weak panel zones. This data is intended to support analytical and computational studies on methods to predict fracture in joints subject to ultra low cycle fatigue and to support computational studies on the earthquake response of steel moment frames designed with weak panel zones.
Material for testing has been ordered and is being fabricated. |
| Jobs Created |
1.86 |
| Description of Jobs Created |
Two graduate research assistants (GAR) and two undergraduate students worked to accomplish activities reported above. This full time equivalent (FTE) includes work performed at subrecipient institutions.
From unexpended subrecipient funds, we will expand the educate and outreach workshop scheduled for the summer. |
Purchaser Information
(Grants)
| Purchaser Information |
| Contracting Office ID |
Not Reported |
| Contracting Office Name |
Not Available |
| Contracting Office Region |
Not Available |
| TAS Major Program |
49-0101 |
| Award Information |
| Award Date |
07/20/2009 |
| Award Number |
0936599 |
| Order Number |
|
| Award Type |
Grants |
| Funding Agency ID |
49 |
| Funding Agency Name |
National Science Foundation |
| Funding Office Name |
Not Available |
| Awarding Agency ID |
49 |
| Awarding Agency Name |
National Science Foundation |
| Amount of Award |
$1,226,000 |
| Funds Invoiced/Received |
$1,045,809 |
| Expenditure Amount |
$1,058,576 |
| Infrastructure Expenditure Amount |
$0 |
| Infrastructure Purpose and Rationale |
Not Reported |
| Infrastructure Point of Contact Name |
Not Reported |
| Infrastructure Point of Contact Email |
Not Reported |
| Infrastructure Point of Contact Phone |
Not Reported |
| Infrastructure Point of Contact Address |
Not Reported |
| Infrastructure Point of Contact City |
Not Reported |
| Infrastructure Point of Contact State |
Not Reported |
| Infrastructure Point of Contact Zip |
Not Reported |
Product or Service Information
(Grants)
| Product or Service Information |
| Primary Activity Code |
541712 |
| Activity Description |
Research and Development in the Physical, Engineering, and Life Sciences (except Biotechnology) |
| Sub-Awards Information |
| Sub-awards to Organizations |
3 |
| Sub-award Amounts to Organizations |
$395,982 |
| Sub-Awards to Individuals |
0 |
| Sub-Award Amounts to Individuals |
$0 |
| Number of Sub-awards less than $25,000/award |
0 |
| Amount of Sub-awards less than $25,000/award |
$0 |
| Number of payments to vendors greater than $25,000 |
0 |
| Total Amount of payments to vendors greater than $25,000/award |
$0 |
| Number of payments to vendors less than $25,000/award |
117 |
| Total Amount of payments to vendors less than $25,000/award |
$210,182 |
Sub-award A7312 - LAFAYETTE COLLEGE
| Sub-Award Amount |
$101,625 |
| Sub-Award Date |
05/04/2010 |
| Sub-Awards Disbursed |
$70,882.88 |
| Project Location - City |
Easton |
| Project Location - State |
PA |
| Project Location - Zip Code |
18042-1768 |
| Project Location - Congressional District |
17 |
| Sub-Recipient DUNS Number |
041364522
|
| Sub-Recipient Address |
200 HIGH ST |
| Sub-Recipient City |
EASTON |
| Sub-Recipient State |
Pennsylvania |
| Sub-Recipient Zip Code |
18042-0000 |
| Sub-Recipient Congressional District |
17 |
Required To Report Top 5
Highly Compensated Officials |
No |
Sub-award A7313 - Regents of The University of Minnesota
| Sub-Award Amount |
$25,000 |
| Sub-Award Date |
08/25/2011 |
| Sub-Awards Disbursed |
$19,564.24 |
| Project Location - City |
Minneapolis |
| Project Location - State |
MN |
| Project Location - Zip Code |
55455-2070 |
| Project Location - Congressional District |
05 |
| Sub-Recipient DUNS Number |
933267189
|
| Sub-Recipient Address |
100 Church St SE Ste 234 |
| Sub-Recipient City |
Minneapolis |
| Sub-Recipient State |
Minnesota |
| Sub-Recipient Zip Code |
55455-0110 |
| Sub-Recipient Congressional District |
05 |
Required To Report Top 5
Highly Compensated Officials |
No |
Sub-award A7311 - UNIVERSITY OF TEXAS AT AUSTIN
| Sub-Award Amount |
$269,357 |
| Sub-Award Date |
09/01/2009 |
| Sub-Awards Disbursed |
$237,760.21 |
| Project Location - City |
Austin |
| Project Location - State |
TX |
| Project Location - Zip Code |
78758-4445 |
| Project Location - Congressional District |
10 |
| Sub-Recipient DUNS Number |
170230239
|
| Sub-Recipient Address |
101 EAST 27TH STREET STE 4308 |
| Sub-Recipient City |
AUSTIN |
| Sub-Recipient State |
Texas |
| Sub-Recipient Zip Code |
78712-1500 |
| Sub-Recipient Congressional District |
25 |
Required To Report Top 5
Highly Compensated Officials |
No |
| Location Information |
| Latitude, Longitude |
30º 36' 30",
-96º 21' 0" |
| Congressional District |
17 |
| Address 1 |
3136 TAMU |
| Address 2 |
|
| City |
College Station |
| County |
Brazos |
| State |
TX |
| Zip |
77843-3136 |
|
 |